mirror of
https://github.com/CTCaer/hekate
synced 2024-11-09 13:26:35 +00:00
377 lines
9.9 KiB
C
377 lines
9.9 KiB
C
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/**
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* @file lv_ll.c
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* Handle linked lists.
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* The nodes are dynamically allocated by the 'lv_mem' module,
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*/
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/*********************
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* INCLUDES
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*********************/
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#include <stdint.h>
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#include <string.h>
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#include "lv_ll.h"
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#include "lv_mem.h"
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/*********************
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* DEFINES
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*********************/
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#define LL_NODE_META_SIZE (sizeof(lv_ll_node_t*) + sizeof(lv_ll_node_t*))
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#define LL_PREV_P_OFFSET(ll_p) (ll_p->n_size)
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#define LL_NEXT_P_OFFSET(ll_p) (ll_p->n_size + sizeof(lv_ll_node_t*))
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/**********************
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* TYPEDEFS
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**********************/
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/**********************
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* STATIC PROTOTYPES
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**********************/
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static void node_set_prev(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * prev);
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static void node_set_next(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * next);
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/**********************
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* STATIC VARIABLES
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**********************/
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/**********************
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* MACROS
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**********************/
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/**********************
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* GLOBAL FUNCTIONS
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**********************/
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/**
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* Initialize linked list
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* @param ll_dsc pointer to ll_dsc variable
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* @param node_size the size of 1 node in bytes
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*/
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void lv_ll_init(lv_ll_t * ll_p, uint32_t node_size)
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{
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ll_p->head = NULL;
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ll_p->tail = NULL;
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#ifdef LV_MEM_ENV64
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/*Round the size up to 8*/
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if(node_size & 0x7) {
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node_size = node_size & (~0x7);
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node_size += 8;
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}
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#else
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/*Round the size up to 4*/
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if(node_size & 0x3) {
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node_size = node_size & (~0x3);
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node_size += 4;
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}
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#endif
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ll_p->n_size = node_size;
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}
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/**
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* Add a new head to a linked list
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* @param ll_p pointer to linked list
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* @return pointer to the new head
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*/
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void * lv_ll_ins_head(lv_ll_t * ll_p)
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{
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lv_ll_node_t * n_new;
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n_new = lv_mem_alloc(ll_p->n_size + LL_NODE_META_SIZE);
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if(n_new != NULL) {
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node_set_prev(ll_p, n_new, NULL); /*No prev. before the new head*/
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node_set_next(ll_p, n_new, ll_p->head); /*After new comes the old head*/
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if(ll_p->head != NULL) { /*If there is old head then before it goes the new*/
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node_set_prev(ll_p, ll_p->head, n_new);
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}
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ll_p->head = n_new; /*Set the new head in the dsc.*/
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if(ll_p->tail == NULL) {/*If there is no tail (1. node) set the tail too*/
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ll_p->tail = n_new;
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}
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}
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return n_new;
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}
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/**
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* Insert a new node in front of the n_act node
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* @param ll_p pointer to linked list
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* @param n_act pointer a node
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* @return pointer to the new head
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*/
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void * lv_ll_ins_prev(lv_ll_t * ll_p, void * n_act)
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{
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lv_ll_node_t * n_new;
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lv_ll_node_t * n_prev;
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if(NULL == ll_p || NULL == n_act) return NULL;
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if(lv_ll_get_head(ll_p) == n_act) {
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n_new = lv_ll_ins_head(ll_p);
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if(n_new == NULL) return NULL;
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} else {
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n_new = lv_mem_alloc(ll_p->n_size + LL_NODE_META_SIZE);
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if(n_new == NULL) return NULL;
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n_prev = lv_ll_get_prev(ll_p, n_act);
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node_set_next(ll_p, n_prev, n_new);
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node_set_prev(ll_p, n_new, n_prev);
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node_set_prev(ll_p, n_act, n_new);
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node_set_next(ll_p, n_new, n_act);
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}
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return n_new;
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}
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/**
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* Add a new tail to a linked list
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* @param ll_p pointer to linked list
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* @return pointer to the new tail
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*/
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void * lv_ll_ins_tail(lv_ll_t * ll_p)
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{
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lv_ll_node_t * n_new;
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n_new = lv_mem_alloc(ll_p->n_size + LL_NODE_META_SIZE);
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if(n_new == NULL) return NULL;
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if(n_new != NULL) {
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node_set_next(ll_p, n_new, NULL); /*No next after the new tail*/
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node_set_prev(ll_p, n_new, ll_p->tail); /*The prev. before new is tho old tail*/
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if(ll_p->tail != NULL) { /*If there is old tail then the new comes after it*/
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node_set_next(ll_p, ll_p->tail, n_new);
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}
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ll_p->tail = n_new; /*Set the new tail in the dsc.*/
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if(ll_p->head == NULL) { /*If there is no head (1. node) set the head too*/
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ll_p->head = n_new;
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}
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}
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return n_new;
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}
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/**
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* Remove the node 'node_p' from 'll_p' linked list.
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* It does not free the the memory of node.
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* @param ll_p pointer to the linked list of 'node_p'
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* @param node_p pointer to node in 'll_p' linked list
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*/
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void lv_ll_rem(lv_ll_t * ll_p, void * node_p)
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{
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if(lv_ll_get_head(ll_p) == node_p) {
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/*The new head will be the node after 'n_act'*/
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ll_p->head = lv_ll_get_next(ll_p, node_p);
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if(ll_p->head == NULL) {
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ll_p->tail = NULL;
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} else {
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node_set_prev(ll_p, ll_p->head, NULL);
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}
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} else if(lv_ll_get_tail(ll_p) == node_p) {
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/*The new tail will be the node before 'n_act'*/
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ll_p->tail = lv_ll_get_prev(ll_p, node_p);
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if(ll_p->tail == NULL) {
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ll_p->head = NULL;
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} else {
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node_set_next(ll_p, ll_p->tail, NULL);
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}
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} else {
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lv_ll_node_t * n_prev = lv_ll_get_prev(ll_p, node_p);
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lv_ll_node_t * n_next = lv_ll_get_next(ll_p, node_p);
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node_set_next(ll_p, n_prev, n_next);
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node_set_prev(ll_p, n_next, n_prev);
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}
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}
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/**
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* Remove and free all elements from a linked list. The list remain valid but become empty.
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* @param ll_p pointer to linked list
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*/
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void lv_ll_clear(lv_ll_t * ll_p)
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{
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void * i;
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void * i_next;
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i = lv_ll_get_head(ll_p);
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i_next = NULL;
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while(i != NULL) {
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i_next = lv_ll_get_next(ll_p, i);
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lv_ll_rem(ll_p, i);
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lv_mem_free(i);
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i = i_next;
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}
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}
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/**
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* Move a node to a new linked list
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* @param ll_ori_p pointer to the original (old) linked list
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* @param ll_new_p pointer to the new linked list
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* @param node pointer to a node
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*/
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void lv_ll_chg_list(lv_ll_t * ll_ori_p, lv_ll_t * ll_new_p, void * node)
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{
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lv_ll_rem(ll_ori_p, node);
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/*Set node as head*/
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node_set_prev(ll_new_p, node, NULL);
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node_set_next(ll_new_p, node, ll_new_p->head);
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if(ll_new_p->head != NULL) { /*If there is old head then before it goes the new*/
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node_set_prev(ll_new_p, ll_new_p->head, node);
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}
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ll_new_p->head = node; /*Set the new head in the dsc.*/
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if(ll_new_p->tail == NULL) { /*If there is no tail (first node) set the tail too*/
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ll_new_p->tail = node;
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}
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}
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/**
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* Return with head node of the linked list
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* @param ll_p pointer to linked list
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* @return pointer to the head of 'll_p'
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*/
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void * lv_ll_get_head(const lv_ll_t * ll_p)
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{
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void * head = NULL;
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if(ll_p != NULL) {
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head = ll_p->head;
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}
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return head;
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}
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/**
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* Return with tail node of the linked list
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* @param ll_p pointer to linked list
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* @return pointer to the head of 'll_p'
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*/
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void * lv_ll_get_tail(const lv_ll_t * ll_p)
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{
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void * tail = NULL;
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if(ll_p != NULL) {
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tail = ll_p->tail;
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}
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return tail;
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}
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/**
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* Return with the pointer of the next node after 'n_act'
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* @param ll_p pointer to linked list
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* @param n_act pointer a node
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* @return pointer to the next node
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*/
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void * lv_ll_get_next(const lv_ll_t * ll_p, const void * n_act)
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{
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void * next = NULL;
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if(ll_p != NULL) {
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const lv_ll_node_t * n_act_d = n_act;
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memcpy(&next, n_act_d + LL_NEXT_P_OFFSET(ll_p), sizeof(void *));
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}
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return next;
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}
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/**
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* Return with the pointer of the previous node after 'n_act'
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* @param ll_p pointer to linked list
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* @param n_act pointer a node
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* @return pointer to the previous node
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*/
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void * lv_ll_get_prev(const lv_ll_t * ll_p, const void * n_act)
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{
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void * prev = NULL;
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if(ll_p != NULL) {
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const lv_ll_node_t * n_act_d = n_act;
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memcpy(&prev, n_act_d + LL_PREV_P_OFFSET(ll_p), sizeof(void *));
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}
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return prev;
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}
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void lv_ll_swap(lv_ll_t * ll_p, void * n1_p, void * n2_p)
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{
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(void)(ll_p);
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(void)(n1_p);
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(void)(n2_p);
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/*TODO*/
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}
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/**
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* Move a nodw before an other node in the same linked list
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* @param ll_p pointer to a linked list
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* @param n_act pointer to node to move
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* @param n_after pointer to a node which should be after `n_act`
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*/
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void lv_ll_move_before(lv_ll_t * ll_p, void * n_act, void * n_after)
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{
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if(n_act == n_after) return; /*Can't move before itself*/
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void * n_before;
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if(n_after != NULL) n_before = lv_ll_get_prev(ll_p, n_after);
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else n_before = lv_ll_get_tail(ll_p); /*if `n_after` is NULL `n_act` should be the new tail*/
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if(n_act == n_before) return; /*Already before `n_after`*/
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/*It's much easier to remove from the list and add again*/
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lv_ll_rem(ll_p, n_act);
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/*Add again by setting the prev. and next nodes*/
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node_set_next(ll_p, n_before, n_act);
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node_set_prev(ll_p, n_act, n_before);
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node_set_prev(ll_p, n_after, n_act);
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node_set_next(ll_p, n_act, n_after);
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/*If `n_act` was moved before NULL then it become the new tail*/
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if(n_after == NULL) ll_p->tail = n_act;
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}
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/**********************
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* STATIC FUNCTIONS
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**********************/
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/**
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* Set the 'pervious node pointer' of a node
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* @param ll_p pointer to linked list
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* @param act pointer to a node which prev. node pointer should be set
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* @param prev pointer to a node which should be the previous node before 'act'
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*/
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static void node_set_prev(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * prev)
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{
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if(act == NULL) return; /*Can't set the prev node of `NULL`*/
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uint32_t node_p_size = sizeof(lv_ll_node_t *);
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if(prev) memcpy(act + LL_PREV_P_OFFSET(ll_p), &prev, node_p_size);
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else memset(act + LL_PREV_P_OFFSET(ll_p), 0, node_p_size);
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}
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/**
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* Set the 'next node pointer' of a node
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* @param ll_p pointer to linked list
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* @param act pointer to a node which next node pointer should be set
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* @param next pointer to a node which should be the next node before 'act'
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*/
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static void node_set_next(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * next)
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{
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if(act == NULL) return; /*Can't set the next node of `NULL`*/
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uint32_t node_p_size = sizeof(lv_ll_node_t *);
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if(next) memcpy(act + LL_NEXT_P_OFFSET(ll_p), &next, node_p_size);
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else memset(act + LL_NEXT_P_OFFSET(ll_p), 0, node_p_size);
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}
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