Very useful to know this difference between insert
and operator[]
You can actually implement operator[]
in terms of insert
, as it returns pair<iterator,bool>
Thus one could (and possibly would) implement:
Value& map<K,T>::operator[]( const Key& key )
{
return insert( make_pair(key, Value()) ).first->second;
}
A practical application in use:
In a typical "lazy load" cache situation you may have map<Key, shared_ptr<Value> >
A programmer will typically start with find thus:
const_iterator iter = theMap.find(key);
if( iter!= theMap.end())
return iter->second;
else
{
// create the item then insert it
}
A better approach is:
shared_ptr<Value> value = theMap[key];
if( !value )
{
value.reset( /*load logic */ )
}
return value;
In a multi-threaded situation of the above, instead of shared_ptr use a wrapper class that implements "boost::once" logic. Let's say that the loading of the object takes a long time. In the classic case you would probably lock the entire map whilst you look up the item and then create it. So no other thread can use the map at all.
Instead we now lock the map just for the lookup and create the object in its "ONCE_INIT" state. We then unlock the map and use boost::call_once
to initialise the actual item. Note that during this time it is possible that a different thread created the item than the one that added it to the map, but it makes no real difference: it will be created exactly once and there is no thread contention. (This is an implementation of record-level locking). Note that if we used the first construct (find then insert) we would not be able to do this.