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Is this an appropriate way to provide unique keys in a map? In other words, is the key being made from the unique value contained in the uuid, or is it being made from the pointer to the uuid_t struct? A side question, is there a more efficient container, when i don't care about the ordering by keys inside the container?

#include <uuid/uuid.h>

int main(int argc, char **argv)
{    
   std::map<uuid_t,int> myMap;         

   uuid_t id1;
   uuid_t id2;

   uuid_generate( (unsigned char *)&id1 );  
   uuid_generate( (unsigned char *)&id2 );

   myMap[id1] = 5;
   myMap[id2] = 4;

}
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Why do you need the keys then? Give us more "background". Why not vector or simple array. There are many types of containers. Is there a reason you need the unique id? –  Kiril Kirov Nov 20 '11 at 9:24
1  
Thats a very good question Kiril, and it got me thinking about the issue. I am building an application which may potentially need to aggregate data created by different, disconnected users, running different instances of an app -- with no shared db to talk to. Thus keying with an auto-incrementing integer wouldn't work -- the idea being to not generate any key collisions across all incoming data sources. I suppose some combo of a machine_id, a timestamp and a user would work too, but I don't really understand how i'd use hashing to generate a unique key. –  supertwang Nov 20 '11 at 10:04
    
I'm looking for a high-performance index, so trying to avoid using strings due to what I'm guessing would be a LOT of string compares. Does this help? –  supertwang Nov 20 '11 at 10:05
    
I'm not sure I understood all of this. Do you mean, that these users will be identified somehow and that the same user may be connected several times and you need to store all user's data on the same place? –  Kiril Kirov Nov 20 '11 at 10:12
    
Not quite, but close. The different users will be generating data, potentially at the same time, with no connection to each other. Later, I need to merge the records, and to facilitate linking between them, somehow be able to point one record to another. I think a link will consist of a description and the unique identifier (whatever it turns out to be) of the target record. It is part of a collective knowledge management application. –  supertwang Nov 20 '11 at 10:21
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3 Answers

I guess the best way of using third-party C-structures is to use them through their friendly functions. So if you wanna use uuid_t in STL, I'd suggest you to create some kind of C++ interface/wrapper to that structure like

struct Uuid {
  uuid_t uuid;
  Uuid(const Uuid &other) { uuid_copy(uuid, other.uuid); }
  Uuid(const uuid_t other_uuid) { uuid_copy(uuid, other_uuid); }
  void generateInplace() { uuid_generate(uuid); }
  static Uuid generate() { Uuid wrapped; uuid_generate(wrapped.uuid); return wrapped; }
  bool operator<(const Uuid &other) { return uuid_compare(uuid, other.uuid) < 0; }
  bool operator==(const Uuid &other) { return uuid_compare(uuid, other.uuid) == 0; }
  // ...
};

That should hide from you the fact that uuid_t isn't structure but pointer to array (i.e. typedef unsigned char uuid_t[16]).

Note: there is boost version of uuid library

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thanks ony! i appreciate the useful helper class too. –  supertwang Nov 25 '11 at 7:03
    
This doesn't answer how you generate a unique hash value from a uuid_t though. –  Mark Ingram Nov 13 '13 at 13:47
    
@MarkIngram, std::map doesn't use hash values. It uses only comparison operator. If you need to use this class in std::unordered_map (hash-table) you have to define either std::hash<uuid_t> and std::equal_to<uuid_t> or need to override appropriate template parameters. But this would be a different question and different answer. –  ony Nov 13 '13 at 14:29
    
Apologies, I was looking for unordered_map myself and didn't spot that OP only specified map. –  Mark Ingram Nov 13 '13 at 16:51
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The STL containers always contain copies of the object, and that applies to map keys, also.

The simplest way to support this is using a custom comparator for the map.

struct UUIDComparator
{
    bool operator()(const uuid_t &a, const uuid_t &b)
    {
        //compare and return a < b
    }
};
std::map<uuid_t, int, UUIDComparator> map;

Another slightly controversial solution would be to convert the uuid_t into a std::pair<uint64_t, uint64_t> as both types are 128 bits wide, and, AFAICT, layout compatible. And the std::pair are directly usable as map keys.

std::map<std::pair<uint64_t, uint64_t>, int, UUIDComparator> map;
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As I mentioned before uuid_t is actually type unsigned char[16]. Wouldn't it mean that std::map<uuid_t, int, UUIDComparator>::key_type will have type usigned char* and all operations like operator[](...) will work with references to pointers? –  ony Nov 20 '11 at 14:56
    
Oh, I thought you said uuid_t struct. If it is an arrany type, it will not work, because array types are not copiable. And not, it will not decay into a pointer, that is for expressions, not typedefs. But if it is a struct, even with an array within, it will work just fine. –  rodrigo Nov 20 '11 at 15:12
    
That's not mine question, but since there is #include <uuid/uuid.h> I assume that uuid_t is typedef from libuuid library. At my system that library defines this type as array. About decaying to the pointer - you are right, but constructor of std::pair<uuid_t, int> will not accept uuid_t as first argument, I guess. –  ony Nov 21 '11 at 6:49
    
you are right, uuid_t is the definition from libuuid. –  supertwang Nov 28 '11 at 19:45
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Simpler: uuid_unparse(...) converts it into a char* (37 chars long), which you can then wrap a string around...

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