Add documentation to data structure code.
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include/ht.h
97
include/ht.h
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@ -5,12 +5,27 @@
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#include "libds.h"
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/**
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* A linked list node used for hash table buckets.
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* Contains a copy of the key that was used to store the
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* data as to avoid conflicting hash functions.
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*/
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struct ht_node_s {
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void* key;
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void* data;
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struct ht_node_s* next;
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};
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/**
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* A hash table struct.
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* The struct contains function pointers to all necessary
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* internal functions so that it can be customized to work with
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* any kind of data. By default, it works with strings.
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*
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* The copy function, which is intended to use malloc(), should return
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* NULL if the allocation failed - otherwise, there is no way for the
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* hash table to know something went wrong.
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*/
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struct ht_s {
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struct ht_node_s* data[LIBDS_HT_SIZE];
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unsigned int (*hash_func)(void*);
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@ -22,18 +37,80 @@ struct ht_s {
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typedef struct ht_node_s ht_node;
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typedef struct ht_s ht;
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unsigned int ht_default_hash_func(void*);
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int ht_default_cmp_func(void*, void*);
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void* ht_default_copy_func(void*);
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void ht_default_free_func(void*);
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/**
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* The default hash function.
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* Uses FNV-1 hash, and assumes data is a string.
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* @param key the data to hash.
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* @return the produced hashed integer.
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*/
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unsigned int ht_default_hash_func(void* key);
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/**
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* The default key comparison function.
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* Assumes both keys are strings and uses strcmp.
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* @param a the key to compare
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* @param b the key compared against
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* @return true if the keys represent the same string.
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*/
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int ht_default_cmp_func(void* a, void* b);
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/**
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* The default key copy function.
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* @param key the key being copied
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* @return a pointer to the copy of the key.
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*/
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void* ht_default_copy_func(void* key);
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/**
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* The default key free function. Simply calls free()
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* @param key the key to free.
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*/
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void ht_default_free_func(void* key);
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void ht_init(ht*);
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void ht_free(ht*);
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/**
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* Initializes the hash table with default values.
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* @param ht the hash table to initialize.
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*/
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void ht_init(ht* ht);
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/**
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* Frees the hash table and its internally allocated nodes.
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* The data itself is left intact - use ht_foreach to free it
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* if it is no longer used.
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* @param ht the hash table to free.
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*/
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void ht_free(ht* ht);
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libds_result ht_put(ht*, void*, void*);
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void* ht_get(ht*, void*);
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void ht_remove(ht*, void*);
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/**
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* Stores data into the hash table. Uses malloc for node allocation.
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* @param ht the hash table to store data into.
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* @param key the key to use to store the data.
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* @param value the value to store.
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* @return LIBDS_SUCCESS if all goes well, LIBDS_MALLOC if an allocation fails.
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*/
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libds_result ht_put(ht* ht, void* key, void* value);
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/**
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* Retrieves a value from the hash table.
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* @param ht the hash table to retrieve a value from.
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* @param key the key to use to find the data.
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* @return the data, or NULL if it is not found.
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*/
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void* ht_get(ht* ht, void* key);
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/**
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* Removes a value from the hash table.
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* @param ht the hash table to remove a value from.
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* @param key the key to use to find the data.
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*/
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void ht_remove(ht* ht, void* key);
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int ht_foreach(ht*, void*, compare_func, foreach_func, ...);
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/**
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* Runs through every element in the hash table, and compares it against the
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* given data using the given comparison function. If the comparison function returns
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* true, calls the foreach function, passing it the element and the variable argument list.
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* Stops if any foreach function returns a nonzero code.
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* @param ht the hash table to perform the operation on.
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* @param data the data passed to the comparison function.
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* @param compare the comparison function operating on the data and each element in the list.
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* @param foreach the foreach function called on every element that is matched by the comparison function.
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* @param ... variable arguments to be passed to the foreach function.
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* @return the code returned by the foreach functions.
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*/
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int ht_foreach(ht* ht, void* data, compare_func compare, foreach_func foreach, ...);
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#endif
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@ -3,12 +3,32 @@
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#include <stdarg.h>
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/**
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* Enum representing return codes from error-prone libds functions.
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*/
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enum libds_result_e { LIBDS_SUCCESS, LIBDS_MALLOC };
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typedef enum libds_result_e libds_result;
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/**
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* Comparison function type.
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* Comparison functions are used in searches etc.
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* The function should take two elements, and, if they match, return 1. Otherwise, it should
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* return 0.
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*/
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typedef int (*compare_func)(void*, void*);
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/**
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* Foreach function type.
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* Foreach functions are passed to _foreach calls.
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* The function should return 0 if all goes well, or a nonzero error code if there is an issue.
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*/
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typedef int (*foreach_func)(void*, va_list);
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/**
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* A compare_func implementation that always returns true.
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* @param a The first piece of data being compared
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* @param b The second piece of data being compared
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* @return always true, i.e 1
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*/
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int compare_always(void* a, void* b);
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#endif
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@ -5,6 +5,11 @@
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#include "libds.h"
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/**
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* A vector struct.
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* The vector uses a dynamic array to accommodate all the elements.
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* Whenever the size limit is reached, the vector allocates a new array that is two times bigger.
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*/
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struct vec_s {
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void* data;
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int capacity;
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@ -13,15 +18,66 @@ struct vec_s {
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typedef struct vec_s vec;
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libds_result vec_init(vec*);
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void vec_free(vec*);
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/**
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* Initializes the vector. This uses malloc to get new memory for the array,
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* and therefore can fail.
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* @param vec the vector to initialize
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* @return LIBDS_SUCCESS if all goes well, LIBDS_MALLOC if an allocation fails.
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*/
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libds_result vec_init(vec* vec);
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/**
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* Frees the vector, also freeing the dynamic array it uses for storage.
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* This leaves the data intact. Use vec_foreach to free the data if
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* it is no longer used.
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* @param vec the vector to free
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*/
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void vec_free(vec* vec);
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libds_result vec_add(vec*, void*);
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void vec_remove(vec*, void*);
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/**
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* Adds an element to the vector
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* @param vec the vector to add the value to
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* @param val the value to add to the vector.
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* @return LIBDS_SUCCESS if all goes wellm LIBDS_MALLOC if an allocation fails.
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*/
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libds_result vec_add(vec* vec, void* val);
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/**
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* Removes the given value from the vector
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* @param vec the vector to remove the value from
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* @param val the value to remove
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*/
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void vec_remove(vec* vec, void* val);
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void* vec_find(vec*, void*, compare_func);
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int vec_foreach(vec*, void*, compare_func, foreach_func, ...);
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/**
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* Runs through every element in the vector, and compares it against the
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* given data using the given comparison function. If the comparison function returns
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* true, returns the element that was passed to it. If the comparison function returns
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* true for no element, returns NULL.
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* @param vec the vector to iterate through.
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* @param data the data to compare elements against
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* @param compare the comparison function
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* @return the first element that is matched by the comparison function, or NULL if none are matched.
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*/
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void* vec_find(vec* vec, void* data, compare_func compare);
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/**
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* Runs through every element in the vector, and compares it against the
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* given data using the given comparison function. If the comparison function returns
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* true, calls the foreach function, passing it the element and the variable argument list.
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* Stops if any foreach function returns a nonzero code.
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* @param vec the vector to perform the operation on
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* @param data the data to pass the comparison function
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* @param compare the comparison function operating on the data and each element in the list.
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* @param foreach the function to be called on every element recognized by the comparison function
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* @param ... variable arguments to be passed on to the foreach function
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* @return 0 if all goes well, or the first nonzero code returned by foreach.
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*/
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int vec_foreach(vec* vec, void* data, compare_func compare, foreach_func foreach, ...);
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void* vec_index(vec*, int);
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/**
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* Gets the value at the given index of the vector.
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* @param vec the vector to get the value from
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* @param index the index to retreive a value from
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* @return pointer to the value, or, if the index is out of bounds (or there is nothing there) NULL.
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*/
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void* vec_index(vec* vec, int index);
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#endif
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