This is a simple hash table implementation written in plain old C. The goal is for this code to be reusable in many of the projects I've worked on that could use something better than a poorly-tuned chaining implementation. The intention is that users of this code copy it directly into their repositories, as it's quite small and should see very little development. The summary of this implementation would be that it uses open addressing with rehashing. The table stores for each entry: * uint32_t hash of the key. * pointer to the key. * pointer to the data. Inserts occur at key->hash % hash->size. When an insert collides, the insert reattempts at (key->hash % hash->size + hash->reprobe) % hash->size, and onwards at increments of reprobe until a free or dead entry is found. When searching, the search starts at key % hash_size and continues at increments of reprobe as with inserts, until the matching entry or an unallocated entry is found. When deleting an entry, the entry is marked deleted. Performance considerations: * Only an extra 10% free is given. This means that as entries are added, the performance of insertion and lookups will degrade as one approaches maximum entries until the table gets resized. Unless an outside entry management results in a maximum number of entries close to the hash table's current size limit, this shouldn't be a concern. * Repeated deletions fill the table with deleted entry markers. This means that a table that was filled, then emptied, will have performance for unsuccessful searches in O(hash->size) The solution here is to decide when the table is too full of deleted entries and recompute the data into a clean version of the hashtable. In addition to the core hash_table implementation, a sample of the FNV-1a 32-bit hash function is included for convenience for those that don't wish to analyze hash functions on their own.