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I'm using Google's sparsehashmap, and trying to work out if a value was inserted or looked up. The following works, but obviously it's looking it up twice. How do I do it without the double lookup?

Element newElement = Element();
bool  inserted = ((*map).insert(pair<const int64, Element>(key, newElement))).second;
Element element = (*(((*map).insert(pair<const int64, Element>(key, newElement))).first)).second;
if (inserted)
    puts("INSERTED");

I can't check the contents of Element (it's a struct) as I want to differentiate between a default Element being found and newElement being inserted. I couldn't work out how to assign ((*map).insert(pair<const int64, Element>(key, newElement))) to a variable as it's of a template type that includes types private to the sparse_hash_map class.

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1 Answer 1

up vote 2 down vote accepted

Try this:

typedef sparse_hash_map<...>::iterator sh_iterator; //you already have this, haven't you?

std::pair<sh_iterator, bool> res = map->insert(std::make_pair(key, newElement));
if (res.second)
    puts("INSERTED");

If, for whatever reason you don't like the std::make_pair function, you should consider a typedef for the pair type:

typedef pair<const int64, Element> map_pair;

Anyway, the return type of insert is pair<iterator, bool>, and AFAIK iterator is a public typedef of the class.

BTW, I don't get why you do the second insert... to get to the inserted element? Probably you should declare element as a reference. In my suggested code:

Element &element = res.first->second;

Naturally, if you were using C++11, you could simply do:

auto res = ...;
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Thanks, the typedef worked great. For anyone else, the line needed is typedef google::sparse_hashtable_iterator<std::pair<const long unsigned int, Element>, long unsigned int, std::tr1::hash<long unsigned int>, google::sparse_hash_map<long unsigned int, Element>::SelectKey, google::sparse_hash_map<long unsigned int, Element>::SetKey, std::equal_to<long unsigned int>, google::libc_allocator_with_realloc<std::pair<const long unsigned int, Element> > >::iterator sh_iterator; –  Alec Oct 15 '12 at 9:17
    
@Alec. But that doesn't make any sense! You should use the very same template arguments used for the map definition. That is, if map is defined as google::sparse_hash_map<int64, Element> *map; then the typedef should be simply: typedef google::sparse_hash_map<int64, Element>::iterator sh_iterator;. –  rodrigo Oct 15 '12 at 9:25
    
Ah, that makes a lot more sense. Thanks @rodrigo –  Alec Oct 15 '12 at 9:30
    
Also, using element as a reference, should it be Element *element = &((*(res.first)).second);? –  Alec Oct 15 '12 at 9:34
    
@Alec: Well, yes and no. You are defining a pointer, not a reference. But you are right in the second second (!). It should be Element &element = res.first->second;. BTW you should avoid using the * when a -> will do (coming from Java or C#, eh?). –  rodrigo Oct 15 '12 at 9:41

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