/** * @file lv_ll.h * Handle linked lists. The nodes are dynamically allocated by the 'lv_mem' module. */ #ifndef LV_LL_H #define LV_LL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include #include #include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /** Dummy type to make handling easier*/ typedef uint8_t lv_ll_node_t; /** Description of a linked list*/ typedef struct { uint32_t n_size; lv_ll_node_t * head; lv_ll_node_t * tail; } lv_ll_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize linked list * @param ll_p pointer to lv_ll_t variable * @param node_size the size of 1 node in bytes */ void _lv_ll_init(lv_ll_t * ll_p, uint32_t node_size); /** * Add a new head to a linked list * @param ll_p pointer to linked list * @return pointer to the new head */ void * _lv_ll_ins_head(lv_ll_t * ll_p); /** * Insert a new node in front of the n_act node * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the new node */ void * _lv_ll_ins_prev(lv_ll_t * ll_p, void * n_act); /** * Add a new tail to a linked list * @param ll_p pointer to linked list * @return pointer to the new tail */ void * _lv_ll_ins_tail(lv_ll_t * ll_p); /** * Remove the node 'node_p' from 'll_p' linked list. * It does not free the memory of node. * @param ll_p pointer to the linked list of 'node_p' * @param node_p pointer to node in 'll_p' linked list */ void _lv_ll_remove(lv_ll_t * ll_p, void * node_p); /** * Remove and free all elements from a linked list. The list remain valid but become empty. * @param ll_p pointer to linked list */ void _lv_ll_clear(lv_ll_t * ll_p); /** * Move a node to a new linked list * @param ll_ori_p pointer to the original (old) linked list * @param ll_new_p pointer to the new linked list * @param node pointer to a node * @param head true: be the head in the new list * false be the tail in the new list */ void _lv_ll_chg_list(lv_ll_t * ll_ori_p, lv_ll_t * ll_new_p, void * node, bool head); /** * Return with head node of the linked list * @param ll_p pointer to linked list * @return pointer to the head of 'll_p' */ void * _lv_ll_get_head(const lv_ll_t * ll_p); /** * Return with tail node of the linked list * @param ll_p pointer to linked list * @return pointer to the tail of 'll_p' */ void * _lv_ll_get_tail(const lv_ll_t * ll_p); /** * Return with the pointer of the next node after 'n_act' * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the next node */ void * _lv_ll_get_next(const lv_ll_t * ll_p, const void * n_act); /** * Return with the pointer of the previous node after 'n_act' * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the previous node */ void * _lv_ll_get_prev(const lv_ll_t * ll_p, const void * n_act); /** * Return the length of the linked list. * @param ll_p pointer to linked list * @return length of the linked list */ uint32_t _lv_ll_get_len(const lv_ll_t * ll_p); /** * TODO * @param ll_p * @param n1_p * @param n2_p void lv_ll_swap(lv_ll_t * ll_p, void * n1_p, void * n2_p); */ /** * Move a node before an other node in the same linked list * @param ll_p pointer to a linked list * @param n_act pointer to node to move * @param n_after pointer to a node which should be after `n_act` */ void _lv_ll_move_before(lv_ll_t * ll_p, void * n_act, void * n_after); /** * Check if a linked list is empty * @param ll_p pointer to a linked list * @return true: the linked list is empty; false: not empty */ bool _lv_ll_is_empty(lv_ll_t * ll_p); /********************** * MACROS **********************/ #define _LV_LL_READ(list, i) for(i = _lv_ll_get_head(list); i != NULL; i = _lv_ll_get_next(list, i)) #define _LV_LL_READ_BACK(list, i) for(i = _lv_ll_get_tail(list); i != NULL; i = _lv_ll_get_prev(list, i)) #ifdef __cplusplus } /*extern "C"*/ #endif #endif