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I have a working implementation now that maps keys of ranges, like so:

class Range {
public:
    Range(int from, int to = -1) : _from(from), _to( to >= 0 ? to : from) {}
    bool operator < (const Range& item) {
        return _to < item._from;
    }
    bool operator == (const Range& item) {
        return item._from >= _from && item._to <= _to;
    }
private:
    int _from, _to;
};

typedef std::map<Range, MappedType> my_map_type;

Cool thing with this is that I can do:

my_map_type m;
m[Range(0, 20)] = Item1;
m[Range(30,40)] = Item2;

my_map_type::iterator it = m.find(15);
assert(it->second == Item1);
it = m.find(40);
assert(it->second == Item2);
it = m_find(25);
assert(it == m.end());

But I need a faster map implementation than std::map. Insertions are OK to be slow, but finds must be really quick. Tried boost::unordered_map but I cannot get it to work with Range class (although I've implemented boost::hash_value for Range objects). A find returns nothing (and operator== isn't even called during a find, which I find odd)

Ideas ?

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Maybe your hash is buggy? operator== is only called once an item with the correct hash has been found. –  jalf Jan 12 '11 at 13:43
    
Hmm.. I think I know why. Since unordered_map uses a hash value, the hash value of the search key (used with find) will only match entries with singular Range (i.e. from == to) –  Robert Jan 12 '11 at 13:44
1  
Your hash value implementation would be useful. Also, have you tried using a sorted vector with binary search instead of a map? These usually have faster search (but slower inserts). –  Victor Nicollet Jan 12 '11 at 13:44
    
hash_value is simply boost::hash_value( ((long long)&_from) ). Thanks for the vector tip, sounds like a good idea. –  Robert Jan 12 '11 at 13:50
1  

3 Answers 3

You can't do this with an hash table, your definition of operator== can't be compatible with an hash function: In your code Range(10, 20) == Range(15, -1) but there is no way an hash function can return the same hash.

In general, hash and equality must be compatible: x == y must imply hash(x) == hash(y). Of course the converse is not true.

So you need some comparison-based structure, like the tree-based map. Instead of using a broken operator== which could give you problems, you can define a correct equality comparator and use map::lower_bound that does exactly what you are trying to do.

If it is too slow for you, you can use a sorted vector and use std::lower_bound. Search time is O(log n) which is asymptotically the same as std::map but much faster in practice (no pointer chasing, better locality). However it has linear update (insertion/deletion) time.

Otherwise you may want to have a look at specialized structures, like interval trees, but they are not implemented in the STL (maybe Boost?).

Anyway, the implicit Range(int) constructor is misleading and potentially harmful. You should declare it as explicit and use, for example, find(Range(40)) in place of find(40).

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1  
Just clarifying: Linear update time -- not linear search time. +1 –  Billy ONeal Jan 12 '11 at 13:57
    
@Billy: yes, better be clear. I'm editing it –  Giuseppe Ottaviano Jan 12 '11 at 13:58
    
Thnx, a lot of good info. –  Robert Jan 12 '11 at 14:05
    
@Giuseppe: interval trees are not meant for non-overlapping ranges. –  Matthieu M. Jan 12 '11 at 15:31
    
@Matthieu: where did the OP say that his intervals are non-overlapping? Anyway, interval trees support point-in-interval queries (which is what I assume the OP is trying to do), whether the ranges are overlapping or not is irrelevant. Do you mean that they are overkill? –  Giuseppe Ottaviano Jan 12 '11 at 16:00

What you're trying to do will not work, whether with std::map or any other container. Your operator < and operator == do not match the traditional requirements for these operators:

  • If a == b and a == c, then b == c : in your situation, [1,2] == [0,100] and [98,99] == [0,100] but obviously [1,2] != [98,99].
  • If a < b is true then b < a is false : in your situation, [2,4] < [1,3] is true but [1,3] < [2,4] is also true.

So, your std::map implementation will also fail in some situations.

Not only that, but std::map will only return one range while it could be expected that a given item could be within several ranges in the map.

If you can safely assume that none of the ranges overlap, then sort the ranges based on their from value alone, use upper_bound to extract the range with the larges from smaller than the value you are looking for, and compare with that range's to to determine if it's an actual match.

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The ranges I use are non-overlapping so a m.find(N) works all the time (I've tested it extensively) –  Robert Jan 12 '11 at 14:03
    
Ok, I did a typed range (which can hold what I want to "map"), and use lower_bound with Pred on _to, then check that value is >= _from. That way I can find the correct range. Hopefully faster then... :) –  Robert Jan 12 '11 at 14:46
    
Hmm... the vector implementation was actually slower than the map implementation. How disappointing. –  Robert Jan 12 '11 at 15:26

You are using std::map<> which is normally implemented as a red-black tree. boost::multi_index container also offers red-black tree based container but with compressed nodes (smaller by the size of a pointer), so it is going to be faster than std::map<> due to smaller working set.

Another option is to use a hash, so that some of you lookups when there are no hash collisions will be O(1).

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Yes, but consider me doing m.find(30), then I want to return the entry with Range(10, 35) as key, but Range(30, 30) will not have the same hash as Range(10, 35)... –  Robert Jan 12 '11 at 14:08

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