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I have an efficiency critical application, where I need such an array-type data structure A. Its keys are 0, 1, 2,..., and its values are uint64_t distinct values. I need two constant operations:

1. Given i, return A[i];
2. Given val, return i such that A[i] == val

I prefer not to use hash table. Because I tried GLib GHashTable, it took around 20 mins to load 60 million values into the hash table (If I remove the insertion statement, it took only around 6 seconds). The time is not acceptable for my application. Or maybe somebody recommend other hash table libraries? I tried uthash.c, it crashed immediately.

I also tried SDArray, but it seems not the right one.

Does anybody know any data structure that would fulfill my requirements? Or any efficient hash table implementations? I prefer using C/C++.


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Try std::unordered_map if you have C++11 available. In general, you need two hash tables, one for key-value lookup and one for value-key lookup. Of course, you have to insert new entries in both tables. –  leemes Apr 3 '13 at 9:25
@leemes: Write an answer! –  Lightness Races in Orbit Apr 3 '13 at 9:26
Make sure you reserve enough room in the hash table before you start adding entries. Eg, call my_unordered_map.reserve(6e7) (6e7 == 60 million) if you are using std::unordered_map –  SchighSchagh Apr 3 '13 at 9:27
@Zeta I would prefer C, but if cannot, I can accept C++. I am in the middle of moving from C to C++. –  Cai Shaojiang Apr 3 '13 at 9:28
@Alexey_Frunze Just the hash table insertion. If I remove the insertion, the loading takes around 6 secs only. My key is uint64_t, and the value is pointer. –  Cai Shaojiang Apr 3 '13 at 9:38
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2 Answers

up vote 6 down vote accepted

In general, you need two hash tables for this task. As you know, hash tables give you a key look-up in expected constant time. Searching for a value requires iterating through the whole data structure, since information about the values isn't encoded in the hash look-up table.

Use two hash tables: One for key-value and one (reversed) for value-key look-up. In your particular case, the forward search can be done using a vector as long as your keys are "sequential". But this doesn't change the requirement for a data structure enabling fast reverse look-up.

Regarding the hash table implementation: In C++11, you have the new standard container std::unordererd_map available.

An implementation might look like this (of course this is tweakable, like introducing const-correctness, calling by reference etc.):

std::unordered_map<K,T> kvMap; // hash table for forward search
std::unordered_map<T,K> vkMap; // hash table for backward search

void insert(std::pair<K,T> item) {
    vkMap.insert(std::make_pair(item.second, item.first));

// expected O(1)
T valueForKey(K key) {
    return kvMap[key];

// expected O(1)
K keyForValue(T value) {
    return vkMap[value];

A clean C++11 implementation should "wrap" around the key-value hash map, so you have the "standard" interface in your wrapper class. Always keep the reverse map in sync with your forward map.

Regarding the creation performance: In most implementations, there is a way to tell the data structure how much elements are going to be inserted, called "reserve". For hash tables, this is a huge performance benefit, as dynamically resizing the data structure (which happens during insertions every now and then) completely re-structures the whole hash table, as it changes the hash function itself.

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In general, I'd agree. But in this specific case, wouldn't it be better to us an array (or std::vector) for the forward search? That should use significantly less RAM and should be faster. –  user9876 Apr 3 '13 at 9:38
You are right, I didn't see that the keys are * sequential*. Of course, in this case you should use a container which is optimized for such cases, which is the vector. –  leemes Apr 3 '13 at 9:39
@leemes: Shouldn't it be unordered_map<T, K> for the second map? –  Zeta Apr 3 '13 at 9:54
@leemes Thanks so much! I tried the unordered_map, it takes only 40 seconds to load the 60 million values. You save my life. –  Cai Shaojiang Apr 3 '13 at 9:58
@CaiShaojiang: Two reasons: First, GHashTable is a C library. C++ is a more powerful language. The C code has to work through pointers which isn't as fast as C++ templates. Secondly, unordered_map comes from Boost which is a very competent group of software developers. –  MSalters Apr 3 '13 at 13:10
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I would go for two vectors (assuming that your values are really distinct), as this is O(1) in access where map is O(log n) in access

vector<uint64_t> values;
vector<size_t> keys

values.reserve(maxSize); // do memory reservation first, so reallocation doesn't occur during reading of data
keys.reserve(maxSize); // do memory reservation first, so reallocation doesn't occur during reading of data

Then, when reading in data

values[keyRead] = data;
keys[valueRead] = key;

Reading information is then the same

data = values[currentKey];
key = keys[currentData];
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