/* * Copyright (C) 2014 Tobias Brunner * HSR Hochschule fuer Technik Rapperswil * * Copyright (C) 2013 Martin Willi * Copyright (C) 2013 revosec AG * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ /** * @defgroup array array * @{ @ingroup collections */ #ifndef ARRAY_H_ #define ARRAY_H_ #include /** * Variable sized array with fixed size elements. * * An array is a primitive object with associated functions to avoid the * overhead of an object with methods. It is efficient in memory usage, but * less efficient than a linked list in manipulating elements. */ typedef struct array_t array_t; typedef enum array_idx_t array_idx_t; /** * Special array index values for insert/remove. */ enum array_idx_t { ARRAY_HEAD = 0, ARRAY_TAIL = -1, }; /** * Callback function invoked for each array element. * * Data is a pointer to the array element. If this is a pointer based array, * (esize is zero), data is the pointer itself. * * @param data pointer to array data, or the pointer itself * @param idx array index * @param user user data passed with callback */ typedef void (*array_callback_t)(void *data, int idx, void *user); /** * Create a array instance. * * Elements get tight packed to each other. If any alignment is required, pass * appropriate padding to each element. The reserved space does not affect * array_count(), but just preallocates buffer space. * * @param esize element size for this array, use 0 for a pointer array * @param reserve number of items to allocate space for * @return array instance */ array_t *array_create(u_int esize, uint8_t reserve); /** * Get the number of elements currently in the array. * * @return number of elements */ int array_count(array_t *array); /** * Compress an array, remove unused head/tail space. * * @param array array to compress, or NULL */ void array_compress(array_t *array); /** * Create an enumerator over an array. * * The enumerater enumerates directly over the array element (pass a pointer to * element types), unless the array is pointer based. If zero is passed as * element size during construction, the enumerator enumerates over the * dereferenced pointer values. * * @param array array to create enumerator for, or NULL * @return enumerator, over elements or pointers */ enumerator_t* array_create_enumerator(array_t *array); /** * Remove an element at enumerator position. * * @warning For **value based** arrays don't use the pointer returned by * enumerate() anymore after calling this function. For performance reasons * that pointer will point to internal data structures that get modified when * this function is called. * * @param array array to remove element in * @param enumerator enumerator position, from array_create_enumerator() */ void array_remove_at(array_t *array, enumerator_t *enumerator); /** * Insert an element to an array. * * If the array is pointer based (esize = 0), the pointer itself is appended. * Otherwise the element gets copied from the pointer. * The idx must be either within array_count() or one above to append the item. * Passing -1 has the same effect as passing array_count(), i.e. appends the * item. It is always valid to pass idx 0 to prepend the item. * * @param array array to append element to * @param idx index to insert item at * @param data pointer to array element to copy */ void array_insert(array_t *array, int idx, void *data); /** * Create an pointer based array if it does not exist, insert pointer. * * This is a convenience function for insert a pointer and implicitly * create a pointer based array if array is NULL. Array is set the the newly * created array, if any. * * @param array pointer to array reference, potentially NULL * @param idx index to insert item at * @param ptr pointer to append */ void array_insert_create(array_t **array, int idx, void *ptr); /** * Create a value based array if it does not exist, insert value. * * This is a convenience function to insert a value and implicitly * create a value based array if array is NULL. Array is set the the newly * created array, if any. * * @param array pointer to array reference, potentially NULL * @param esize element size of this array * @param idx index to insert item at * @param val pointer to value to insert */ void array_insert_create_value(array_t **array, u_int esize, int idx, void *val); /** * Insert all items from an enumerator to an array. * * @param array array to add items to * @param idx index to insert each item with * @param enumerator enumerator over void*, gets destroyed */ void array_insert_enumerator(array_t *array, int idx, enumerator_t *enumerator); /** * Get an element from the array. * * If data is given, the element is copied to that position. * * @param array array to get element from, or NULL * @param idx index of the item to get * @param data data to copy element to, or NULL * @return TRUE if idx valid and item returned */ bool array_get(array_t *array, int idx, void *data); /** * Remove an element from the array. * * If data is given, the element is copied to that position. * * @param array array to remove element from, or NULL * @param idx index of the item to remove * @param data data to copy element to, or NULL * @return TRUE if idx existed and item removed */ bool array_remove(array_t *array, int idx, void *data); /** * Sort the array. * * The comparison function must return an integer less than, equal to, or * greater than zero if the first argument is considered to be respectively less * than, equal to, or greater than the second. If two elements compare as * equal, their order in the sorted array is undefined. * * The comparison function receives pointers to the array elements (esize != 0) * or the actual pointers (esize = 0). The third argument is the user data * supplied to this function. * * @param array array to sort, or NULL * @param cmp comparison function * @param user user data to pass to comparison function */ void array_sort(array_t *array, int (*cmp)(const void*,const void*,void*), void *user); /** * Binary search of a sorted array. * * The array should be sorted in ascending order according to the given * comparison function. * * The comparison function must return an integer less than, equal to, or * greater than zero if the first argument (the key) is considered to be * respectively less than, equal to, or greater than the second. * * If there are multiple elements that match the key it is not specified which * element is returned. * * The comparison function receives the key object and a pointer to an array * element (esize != 0) or an actual pointer (esize = 0). * * @param array array to search, or NULL * @param key key to search for * @param cmp comparison function * @param data data to copy element to, or NULL * @return index of the element if found, -1 if not */ int array_bsearch(array_t *array, const void *key, int (*cmp)(const void*,const void*), void *data); /** * Invoke a callback for all array members. * * @param array array to traverse, or NULL * @param cb callback function to invoke each element with * @param user user data to pass to callback */ void array_invoke(array_t *array, array_callback_t cb, void *user); /** * Invoke a method of each element defined with offset. * * @param array array to traverse, or NULL * @param offset offset of element method, use offsetof() */ void array_invoke_offset(array_t *array, size_t offset); /** * Destroy an array. * * @param array array to destroy, or NULL */ void array_destroy(array_t *array); /** * Destroy an array, call a function to clean up all elements. * * @param array array to destroy, or NULL * @param cb callback function to free element data * @param user user data to pass to callback */ void array_destroy_function(array_t *array, array_callback_t cb, void *user); /** * Destroy an array, call element method defined with offset. * * @param array array to destroy, or NULL * @param offset offset of element method, use offsetof() */ void array_destroy_offset(array_t *array, size_t offset); /** * Required on some platforms to initialize thread local value to implement * array_sort(). */ void arrays_init(); /** * Destroys the thread local value if required. */ void arrays_deinit(); #endif /** ARRAY_H_ @}*/