0330344e0f
The name-hash used for detecting paths that are different only in cases (which matter on case insensitive filesystems) has been optimized to take advantage of multi-threading when it makes sense. * jh/memihash-opt: name-hash: add test-lazy-init-name-hash to .gitignore name-hash: add perf test for lazy_init_name_hash name-hash: add test-lazy-init-name-hash name-hash: perf improvement for lazy_init_name_hash hashmap: document memihash_cont, hashmap_disallow_rehash api hashmap: add disallow_rehash setting hashmap: allow memihash computation to be continued name-hash: specify initial size for istate.dir_hash table
310 lines
10 KiB
Plaintext
310 lines
10 KiB
Plaintext
hashmap API
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===========
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The hashmap API is a generic implementation of hash-based key-value mappings.
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Data Structures
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---------------
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`struct hashmap`::
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The hash table structure. Members can be used as follows, but should
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not be modified directly:
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+
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The `size` member keeps track of the total number of entries (0 means the
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hashmap is empty).
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+
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`tablesize` is the allocated size of the hash table. A non-0 value indicates
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that the hashmap is initialized. It may also be useful for statistical purposes
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(i.e. `size / tablesize` is the current load factor).
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+
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`cmpfn` stores the comparison function specified in `hashmap_init()`. In
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advanced scenarios, it may be useful to change this, e.g. to switch between
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case-sensitive and case-insensitive lookup.
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+
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When `disallow_rehash` is set, automatic rehashes are prevented during inserts
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and deletes.
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`struct hashmap_entry`::
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An opaque structure representing an entry in the hash table, which must
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be used as first member of user data structures. Ideally it should be
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followed by an int-sized member to prevent unused memory on 64-bit
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systems due to alignment.
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+
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The `hash` member is the entry's hash code and the `next` member points to the
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next entry in case of collisions (i.e. if multiple entries map to the same
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bucket).
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`struct hashmap_iter`::
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An iterator structure, to be used with hashmap_iter_* functions.
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Types
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-----
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`int (*hashmap_cmp_fn)(const void *entry, const void *entry_or_key, const void *keydata)`::
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User-supplied function to test two hashmap entries for equality. Shall
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return 0 if the entries are equal.
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+
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This function is always called with non-NULL `entry` / `entry_or_key`
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parameters that have the same hash code. When looking up an entry, the `key`
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and `keydata` parameters to hashmap_get and hashmap_remove are always passed
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as second and third argument, respectively. Otherwise, `keydata` is NULL.
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Functions
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---------
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`unsigned int strhash(const char *buf)`::
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`unsigned int strihash(const char *buf)`::
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`unsigned int memhash(const void *buf, size_t len)`::
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`unsigned int memihash(const void *buf, size_t len)`::
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`unsigned int memihash_cont(unsigned int hash_seed, const void *buf, size_t len)`::
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Ready-to-use hash functions for strings, using the FNV-1 algorithm (see
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http://www.isthe.com/chongo/tech/comp/fnv).
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+
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`strhash` and `strihash` take 0-terminated strings, while `memhash` and
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`memihash` operate on arbitrary-length memory.
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+
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`strihash` and `memihash` are case insensitive versions.
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+
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`memihash_cont` is a variant of `memihash` that allows a computation to be
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continued with another chunk of data.
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`unsigned int sha1hash(const unsigned char *sha1)`::
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Converts a cryptographic hash (e.g. SHA-1) into an int-sized hash code
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for use in hash tables. Cryptographic hashes are supposed to have
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uniform distribution, so in contrast to `memhash()`, this just copies
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the first `sizeof(int)` bytes without shuffling any bits. Note that
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the results will be different on big-endian and little-endian
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platforms, so they should not be stored or transferred over the net.
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`void hashmap_init(struct hashmap *map, hashmap_cmp_fn equals_function, size_t initial_size)`::
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Initializes a hashmap structure.
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+
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`map` is the hashmap to initialize.
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+
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The `equals_function` can be specified to compare two entries for equality.
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If NULL, entries are considered equal if their hash codes are equal.
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+
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If the total number of entries is known in advance, the `initial_size`
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parameter may be used to preallocate a sufficiently large table and thus
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prevent expensive resizing. If 0, the table is dynamically resized.
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`void hashmap_free(struct hashmap *map, int free_entries)`::
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Frees a hashmap structure and allocated memory.
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+
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`map` is the hashmap to free.
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+
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If `free_entries` is true, each hashmap_entry in the map is freed as well
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(using stdlib's free()).
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`void hashmap_entry_init(void *entry, unsigned int hash)`::
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Initializes a hashmap_entry structure.
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`entry` points to the entry to initialize.
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+
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`hash` is the hash code of the entry.
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+
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The hashmap_entry structure does not hold references to external resources,
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and it is safe to just discard it once you are done with it (i.e. if
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your structure was allocated with xmalloc(), you can just free(3) it,
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and if it is on stack, you can just let it go out of scope).
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`void *hashmap_get(const struct hashmap *map, const void *key, const void *keydata)`::
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Returns the hashmap entry for the specified key, or NULL if not found.
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+
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`map` is the hashmap structure.
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+
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`key` is a hashmap_entry structure (or user data structure that starts with
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hashmap_entry) that has at least been initialized with the proper hash code
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(via `hashmap_entry_init`).
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+
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If an entry with matching hash code is found, `key` and `keydata` are passed
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to `hashmap_cmp_fn` to decide whether the entry matches the key.
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`void *hashmap_get_from_hash(const struct hashmap *map, unsigned int hash, const void *keydata)`::
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Returns the hashmap entry for the specified hash code and key data,
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or NULL if not found.
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+
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`map` is the hashmap structure.
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+
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`hash` is the hash code of the entry to look up.
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If an entry with matching hash code is found, `keydata` is passed to
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`hashmap_cmp_fn` to decide whether the entry matches the key. The
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`entry_or_key` parameter points to a bogus hashmap_entry structure that
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should not be used in the comparison.
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`void *hashmap_get_next(const struct hashmap *map, const void *entry)`::
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Returns the next equal hashmap entry, or NULL if not found. This can be
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used to iterate over duplicate entries (see `hashmap_add`).
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+
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`map` is the hashmap structure.
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+
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`entry` is the hashmap_entry to start the search from, obtained via a previous
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call to `hashmap_get` or `hashmap_get_next`.
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`void hashmap_add(struct hashmap *map, void *entry)`::
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Adds a hashmap entry. This allows to add duplicate entries (i.e.
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separate values with the same key according to hashmap_cmp_fn).
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+
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`map` is the hashmap structure.
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+
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`entry` is the entry to add.
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`void *hashmap_put(struct hashmap *map, void *entry)`::
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Adds or replaces a hashmap entry. If the hashmap contains duplicate
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entries equal to the specified entry, only one of them will be replaced.
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`map` is the hashmap structure.
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`entry` is the entry to add or replace.
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Returns the replaced entry, or NULL if not found (i.e. the entry was added).
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`void *hashmap_remove(struct hashmap *map, const void *key, const void *keydata)`::
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Removes a hashmap entry matching the specified key. If the hashmap
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contains duplicate entries equal to the specified key, only one of
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them will be removed.
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+
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`map` is the hashmap structure.
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+
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`key` is a hashmap_entry structure (or user data structure that starts with
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hashmap_entry) that has at least been initialized with the proper hash code
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(via `hashmap_entry_init`).
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+
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If an entry with matching hash code is found, `key` and `keydata` are
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passed to `hashmap_cmp_fn` to decide whether the entry matches the key.
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Returns the removed entry, or NULL if not found.
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`void hashmap_disallow_rehash(struct hashmap *map, unsigned value)`::
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Disallow/allow automatic rehashing of the hashmap during inserts
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and deletes.
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+
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This is useful if the caller knows that the hashmap will be accessed
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by multiple threads.
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The caller is still responsible for any necessary locking; this simply
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prevents unexpected rehashing. The caller is also responsible for properly
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sizing the initial hashmap to ensure good performance.
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+
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A call to allow rehashing does not force a rehash; that might happen
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with the next insert or delete.
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`void hashmap_iter_init(struct hashmap *map, struct hashmap_iter *iter)`::
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`void *hashmap_iter_next(struct hashmap_iter *iter)`::
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`void *hashmap_iter_first(struct hashmap *map, struct hashmap_iter *iter)`::
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Used to iterate over all entries of a hashmap. Note that it is
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not safe to add or remove entries to the hashmap while
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iterating.
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`hashmap_iter_init` initializes a `hashmap_iter` structure.
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`hashmap_iter_next` returns the next hashmap_entry, or NULL if there are no
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more entries.
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`hashmap_iter_first` is a combination of both (i.e. initializes the iterator
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and returns the first entry, if any).
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`const char *strintern(const char *string)`::
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`const void *memintern(const void *data, size_t len)`::
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Returns the unique, interned version of the specified string or data,
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similar to the `String.intern` API in Java and .NET, respectively.
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Interned strings remain valid for the entire lifetime of the process.
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Can be used as `[x]strdup()` or `xmemdupz` replacement, except that interned
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strings / data must not be modified or freed.
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+
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Interned strings are best used for short strings with high probability of
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duplicates.
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Uses a hashmap to store the pool of interned strings.
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Usage example
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-------------
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Here's a simple usage example that maps long keys to double values.
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------------
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struct hashmap map;
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struct long2double {
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struct hashmap_entry ent; /* must be the first member! */
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long key;
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double value;
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};
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static int long2double_cmp(const struct long2double *e1, const struct long2double *e2, const void *unused)
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{
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return !(e1->key == e2->key);
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}
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void long2double_init(void)
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{
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hashmap_init(&map, (hashmap_cmp_fn) long2double_cmp, 0);
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}
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void long2double_free(void)
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{
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hashmap_free(&map, 1);
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}
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static struct long2double *find_entry(long key)
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{
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struct long2double k;
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hashmap_entry_init(&k, memhash(&key, sizeof(long)));
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k.key = key;
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return hashmap_get(&map, &k, NULL);
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}
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double get_value(long key)
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{
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struct long2double *e = find_entry(key);
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return e ? e->value : 0;
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}
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void set_value(long key, double value)
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{
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struct long2double *e = find_entry(key);
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if (!e) {
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e = malloc(sizeof(struct long2double));
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hashmap_entry_init(e, memhash(&key, sizeof(long)));
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e->key = key;
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hashmap_add(&map, e);
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}
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e->value = value;
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}
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------------
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Using variable-sized keys
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-------------------------
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The `hashmap_entry_get` and `hashmap_entry_remove` functions expect an ordinary
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`hashmap_entry` structure as key to find the correct entry. If the key data is
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variable-sized (e.g. a FLEX_ARRAY string) or quite large, it is undesirable
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to create a full-fledged entry structure on the heap and copy all the key data
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into the structure.
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In this case, the `keydata` parameter can be used to pass
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variable-sized key data directly to the comparison function, and the `key`
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parameter can be a stripped-down, fixed size entry structure allocated on the
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stack.
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See test-hashmap.c for an example using arbitrary-length strings as keys.
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