/********************************************************************* * Copyright 2018, UCAR/Unidata * See netcdf/COPYRIGHT file for copying and redistribution conditions. * $Header$ *********************************************************************/ #ifndef NCHASHMAP_H #define NCHASHMAP_H #if HAVE_CONFIG_H #include "config.h" #endif #include /* This hashmap is optimized to assume null-terminated strings as the key. Data is presumed to be an index into some other table Assume it can be compared using simple == The key is some hash of some null terminated string. One problem here is that we need to do a final equality check on the name string to avoid an accidental hash collision. It would be nice if we had a large enough hashkey that was known to have an extremely low probability of collisions so we could compare the hashkeys to determine exact match. A quick internet search indicates that this is rather more tricky than just using e.g. crc64 or such. Needs some thought. */ /*! Hashmap-related structs. NOTES: 1. 'data' is the an arbitrary uintptr_t integer or void* pointer. 2. hashkey is a crc32 hash of key WARNINGS: 1. It is critical that |uintptr_t| == |void*| */ typedef struct NC_hentry { int flags; uintptr_t data; unsigned int hashkey; /* Hash id */ size_t keysize; char* key; /* copy of the key string; kept as unsigned char */ } NC_hentry; /* The hashmap object must give us the hash table (table), the |table| size, and the # of defined entries in the table */ typedef struct NC_hashmap { size_t alloc; /* allocated # of entries */ size_t active; /* # of active entries */ NC_hentry* table; } NC_hashmap; /* defined in nchashmap.c */ /* There are two "kinds" of functions: 1. those that take the key+size -- they compute the hashkey internally. 2. those that take the hashkey directly */ /** Creates a new hashmap near the given size. */ extern NC_hashmap* NC_hashmapnew(size_t startsize); /** Inserts a new element into the hashmap; takes key+size */ /* key points to size bytes to convert to hash key */ extern int NC_hashmapadd(NC_hashmap*, uintptr_t data, const char* key, size_t keysize); /** Removes the storage for the element of the key; takes key+size. Return 1 if found, 0 otherwise; returns the data in datap if !null */ extern int NC_hashmapremove(NC_hashmap*, const char* key, size_t keysize, uintptr_t* datap); /** Returns the data for the key; takes key+size. Return 1 if found, 0 otherwise; returns the data in datap if !null */ extern int NC_hashmapget(NC_hashmap*, const char* key, size_t keysize, uintptr_t* datap); /** Change the data for the specified key; takes hashkey. Return 1 if found, 0 otherwise */ extern int NC_hashmapsetdata(NC_hashmap*, const char* key, size_t keylen, uintptr_t newdata); /** Returns the number of active elements. */ extern size_t NC_hashmapcount(NC_hashmap*); /** Reclaims the hashmap structure. */ extern int NC_hashmapfree(NC_hashmap*); /* Return the hash key for specified key; takes key+size*/ extern unsigned int NC_hashmapkey(const char* key, size_t size); /* Return the ith entry info: @param map @param i @param entryp contains 0 if not active, otherwise the data @param keyp contains null if not active, otherwise the key @return NC_EINVAL if no more entries */ extern int NC_hashmapith(NC_hashmap* map, size_t i, uintptr_t* datap, const char** keyp); #endif /*NCHASHMAP_H*/