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Firstly could someone clarify whether in C++ the use of the [] operator in conjunction with an unordered_map for lookups wraps a call to the find() method, or is using the [] operator quicker than find()?

Secondly, in the following piece of code I suspect in cases where the key is not already in the unordered_map I am performing a second look up by way of the line map[key] = value in order to replace the default value created there by using the [] operator when a key is not present.

Is that true, and if so is there a way (perhaps by use of pointers or something) that I might only perform one look up in any case (perhaps by storing the address of where to place a value/read a value from) and still achieve the same functionality? Obviously this would be a useful efficiency improvement if so.

Here is the modified code excerpt:

    int stored_val = map[key]; // first look up. Does this wrap ->find()??

    // return the corresponding value if we find the key in the map - ie != 0
    if (stored_val) return stored_val;

    // if not in map
    map[key] = value; 
       /* second (unnecessary?) look up here to find position for newly 
          added key entry */

   return value;

Many thanks for your help

share|improve this question
The function is unordered_map::find, not unordered_map::Find. C++ is case sensitive. –  Praetorian Aug 1 '11 at 11:34
Pedantic but fair! I did type this out, not copy it from direct code that I had previously compiled! Thanks though, I shall change it in the interest of accuracy! –  ComethTheNerd Aug 1 '11 at 11:37
@SCRIPTONITE you think a capital letter is pedantic? Clearly you haven't lived in C++-land for very long :-P –  rubenvb Aug 28 '13 at 19:27

4 Answers 4

up vote 25 down vote accepted

operator[] will insert an entry for you with a default-constructed value, if one isn't already there. It is equivalent to, but will probably be implemented more efficiently than:

iterator iter = map.find(key);

if(iter == map.end())
    iter = map.insert(value_type(key, int())).second;

return iter;

operator[] can be quicker than doing the work manually with find() and insert(), because it can save having to re-hash the key.

One way you can work around having multiple lookups in your code is to take a reference to the value:

int &stored_val = map[key];

// return the corresponding value if we find the key in the map - ie != 0
if (stored_val) return stored_val;

// if not in map
stored_val = value;

return value;

Note that if the value doesn't exist in the map, operator[] will default-construct and insert one. So while this will avoid multiple lookups, it might actually be slower if used with a type that is slower to default-construct + assign than to copy- or move-construct.

With int though, which cheaply default-constructs to 0, you might be able to treat 0 as a magic number meaning empty. This looks like it might be the case in your example.

If you have no such magic number, you've got two options. What you should use depends on how expensive it is for you to compute the value.

First, when hashing the key is cheap but computing the value is expensive, find() may be the best option. This will hash twice but only compute the value when needed:

iterator iter = map.find(key);

// return the corresponding value if we find the key in the map
if(iter != map.end()) return iter->second;

// if not in map
map.insert(value_type(key, value));

return value;

But if you've got the value already, you can do it very efficiently -- perhaps slighty more efficiently than using a reference + magic number as above:

pair<iterator,bool> iter = map.insert(value_type(key, value));
return iter->second;

If the bool returned by map.insert(value_type) is true, the item was inserted. Otherwise, it already existed and no modifications were made. The iterator returned points to the inserted or existing value in the map. For your simple example, this may be the best option.

share|improve this answer
+1: The use of a reference is what I do normally, readable, compact and also efficient –  6502 Aug 1 '11 at 11:44
Theoretically I assumed a way such as this might exist so I am very grateful to you for showing me how to do it and adding your expertise. This should save me a lot of execution time given that I use this functionality several 100,000 times during execution. Many thanks –  ComethTheNerd Aug 1 '11 at 11:52
Also, in reference to your edit: 0 is a meaningful number in the context of my program but when I store the first value I take note of its key (using static global var) and upon subsequent calls if stored_val equals 0 I will do a key check to see if the current key equals the key that maps to the value 0. This gets round the problem, but thanks for the valid concern. –  ComethTheNerd Aug 1 '11 at 11:55
operator[] can also be slower than find() plus insert(), because it must default construct the object, then assign to it, where as find() plus insert() constructs (with probably an additional copy construct in C++03). Whether that is more or less expensive than rehashing (or whether the implementation has to recalculate the hash for a value it's just looked up) will depend. You can't really know in advance. –  James Kanze Aug 1 '11 at 11:56
Well in the map I am using primitive-types so does this avoid the constructing of an object you mention that I imagine would occur in maps using reference types? –  ComethTheNerd Aug 1 '11 at 12:00

You can both check if an element exists, and insert a new element if it does not exist, with the special insert function that returns a pair<iterator, bool> in which the boolean value tells you if the value has been actually inserted. For example, the code here:

  unordered_map<char, int> mymap;
  pair<unordered_map<char,int>::iterator,bool> ret;

  // first insert function version (single parameter):;
  mymap.insert ( pair<char,int>('z',200) );
  ret=mymap.insert (pair<char,int>('z',500) ); 
  if (ret.second==false)
    cout << "element 'z' already existed";
    cout << " with a value of " << ret.first->second << endl;

The code here inserts the pair <'z',200> into the map if it does not exist. It returns the iterator where it is inserted if the value of the second element of the pair returned is true, or, it returns the iterator where the element actually was, if the second element of the pair is false.

share|improve this answer
This is a useful answer so thank you for your input. I think I am going to go with one of the others that utilises storing a reference because it looks cleaner in terms of readability (I'm not sure of the difference in efficiency obviously!), but thank you all the same. Your help is gratefully appreciated. –  ComethTheNerd Aug 1 '11 at 11:51
Always inserting is not possible in the (usual) case that calculating the value is expensive. In that case, the map is used to avoid recalculating the value - an advantage your code completely lacks. –  Sjoerd Aug 1 '11 at 11:54
@Sjoerd, as per the question, it seemed that calculating the value is not the critic time consuming task of this process. If not, why trying to optimize one or two accesses to the (hash) map, that will be mostly O(1)? –  Diego Sevilla Aug 1 '11 at 12:04
@Diego Good point, although calculating the hash might be time consuming as well. –  Sjoerd Aug 1 '11 at 12:12
@Diego Note that a time consuming calculation is also O(1), as it most likely does not depend on the size of the unordered_map. So always recalculating is O(1) - even when recalculating takes a very long time. –  Sjoerd Aug 1 '11 at 12:20

Firstly could someone clarify whether in C++ the use of the [] operator in conjunction with an unordered_map for lookups wraps a call to the Find() method, or is using the [] operator quicker than Find()?

There is no rule for that. An implementation of [] could use find(), it could perform the lookup by itself or it could delegate the lookup to some private method that is also used by find() internally.

There is also no guarantee on which one is faster. find() involves an overhead in constructing and returning an iterator, whereas [] will probably be slower if the key does not exist, as it inserts a new value in this case.

(...) is there a way (perhaps by use of pointers or something) that I might only perform one look up in any case (...)

If the key is not in the map, [] will insert a new default-constructed value, and return a reference. Therefore, you could store that reference to save the second lookup:

int& stored_val = map[key];  // Note the reference

if (stored_val) return stored_val;

// Use the reference to save a second lookup.
stored_val = value; 

return value;
share|improve this answer
This looks like exactly what I was after, many thanks indeed. Just out of interest, if & is 'the address of', then why is it not correct to say *stored_val = value; whereby * denotes 'the value stored at'? Please correct my possibly misunderstanding of the syntax here! –  ComethTheNerd Aug 1 '11 at 11:46
& is used both for "address of" (get a pointer) and for references (implicit pointer) in C++. Here, int& is a reference, not a pointer (this would be int*). You don't have to dereference references, so there is no need to write *stored_value = .... –  Ferdinand Beyer Aug 1 '11 at 12:20
Ahh excellent. Thanks for clearing that up –  ComethTheNerd Aug 1 '11 at 12:22

When you write map[key] , it tries to get the value with the given key if the key already exists in the map, or else it creates a new entry with the key, and default value of the value_type. So you cannot use map[key] to check if the key exists or not, because it will always return some value which cannot reliably be checked to infer the non-existence of the key. What you really need for that is find() member function.

So, you should be doing this:

std::unordered_map<T1,T2>::iterator it = map.find(key);
if ( it != map.end() )
      return it->second;
map.insert(std::pair<T1,T2>(key, value)); 
return value;
share|improve this answer
That is similar to what I do in my actual code but I wondered if there was a more efficient way to do it or is that the best we can achieve? –  ComethTheNerd Aug 1 '11 at 11:39
Are you sure that the iterator returned by find() can be converted to bool? Otherwise, you should write if (map.find(key) != map.end()). –  Ferdinand Beyer Aug 1 '11 at 11:41
@Ferdinand: I forgot to write that. I've edited my post already. :- –  Nawaz Aug 1 '11 at 11:42
This will do two lookups in every case (first find and then one of the two operator[] calls. –  6502 Aug 1 '11 at 11:43
@6502: Oops. I didn't think about the performance. Anyway, I edited my post. Is it better now? –  Nawaz Aug 1 '11 at 11:47

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