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https://github.com/CTCaer/hekate.git
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185526d134
BDK will allow developers to use the full collection of drivers, with limited editing, if any, for making payloads for Nintendo Switch. Using a single source for everything will also help decoupling Switch specific code and easily port it to other Tegra X1/X1+ platforms. And maybe even to lower targets. Everything is now centrilized into bdk folder. Every module or project can utilize it by simply including it. This is just the start and it will continue to improve.
332 lines
9.6 KiB
C
332 lines
9.6 KiB
C
/**
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* @file lv_task.c
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* An 'lv_task' is a void (*fp) (void* param) type function which will be called periodically.
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* A priority (5 levels + disable) can be assigned to lv_tasks.
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*/
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/*********************
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* INCLUDES
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*********************/
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#include <stddef.h>
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#include "lv_task.h"
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#include "../lv_hal/lv_hal_tick.h"
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#include "lv_gc.h"
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#if defined(LV_GC_INCLUDE)
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# include LV_GC_INCLUDE
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#endif /* LV_ENABLE_GC */
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/*********************
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* DEFINES
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*********************/
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#define IDLE_MEAS_PERIOD 500 /*[ms]*/
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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 bool lv_task_exec(lv_task_t * lv_task_p);
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/**********************
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* STATIC VARIABLES
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**********************/
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static bool lv_task_run = false;
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static uint8_t idle_last = 0;
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static bool task_deleted;
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static bool task_created;
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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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* Init the lv_task module
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*/
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void lv_task_init(void)
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{
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lv_ll_init(&LV_GC_ROOT(_lv_task_ll), sizeof(lv_task_t));
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/*Initially enable the lv_task handling*/
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lv_task_enable(true);
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}
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/**
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* Call it periodically to handle lv_tasks.
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*/
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LV_ATTRIBUTE_TASK_HANDLER void lv_task_handler(void)
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{
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LV_LOG_TRACE("lv_task_handler started");
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/*Avoid concurrent running of the task handler*/
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static bool task_handler_mutex = false;
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if(task_handler_mutex) return;
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task_handler_mutex = true;
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static uint32_t idle_period_start = 0;
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static uint32_t handler_start = 0;
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static uint32_t busy_time = 0;
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if(lv_task_run == false) return;
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handler_start = lv_tick_get();
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/* Run all task from the highest to the lowest priority
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* If a lower priority task is executed check task again from the highest priority
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* but on the priority of executed tasks don't run tasks before the executed*/
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lv_task_t * task_interrupter = NULL;
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lv_task_t * next;
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bool end_flag;
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do {
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end_flag = true;
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task_deleted = false;
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task_created = false;
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LV_GC_ROOT(_lv_task_act) = lv_ll_get_head(&LV_GC_ROOT(_lv_task_ll));
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while(LV_GC_ROOT(_lv_task_act)) {
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/* The task might be deleted if it runs only once ('once = 1')
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* So get next element until the current is surely valid*/
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next = lv_ll_get_next(&LV_GC_ROOT(_lv_task_ll), LV_GC_ROOT(_lv_task_act));
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/*We reach priority of the turned off task. There is nothing more to do.*/
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if(((lv_task_t *)LV_GC_ROOT(_lv_task_act))->prio == LV_TASK_PRIO_OFF) {
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break;
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}
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/*Here is the interrupter task. Don't execute it again.*/
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if(LV_GC_ROOT(_lv_task_act) == task_interrupter) {
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task_interrupter = NULL; /*From this point only task after the interrupter comes, so the interrupter is not interesting anymore*/
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LV_GC_ROOT(_lv_task_act) = next;
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continue; /*Load the next task*/
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}
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/*Just try to run the tasks with highest priority.*/
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if(((lv_task_t *)LV_GC_ROOT(_lv_task_act))->prio == LV_TASK_PRIO_HIGHEST) {
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lv_task_exec(LV_GC_ROOT(_lv_task_act));
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}
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/*Tasks with higher priority then the interrupted shall be run in every case*/
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else if(task_interrupter) {
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if(((lv_task_t *)LV_GC_ROOT(_lv_task_act))->prio > task_interrupter->prio) {
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if(lv_task_exec(LV_GC_ROOT(_lv_task_act))) {
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task_interrupter = LV_GC_ROOT(_lv_task_act); /*Check all tasks again from the highest priority */
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end_flag = false;
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break;
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}
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}
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}
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/* It is no interrupter task or we already reached it earlier.
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* Just run the remaining tasks*/
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else {
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if(lv_task_exec(LV_GC_ROOT(_lv_task_act))) {
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task_interrupter = LV_GC_ROOT(_lv_task_act); /*Check all tasks again from the highest priority */
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end_flag = false;
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break;
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}
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}
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if(task_deleted) break; /*If a task was deleted then this or the next item might be corrupted*/
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if(task_created) break; /*If a task was deleted then this or the next item might be corrupted*/
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LV_GC_ROOT(_lv_task_act) = next; /*Load the next task*/
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}
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} while(!end_flag);
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busy_time += lv_tick_elaps(handler_start);
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uint32_t idle_period_time = lv_tick_elaps(idle_period_start);
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if(idle_period_time >= IDLE_MEAS_PERIOD) {
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idle_last = (uint32_t)((uint32_t)busy_time * 100) / IDLE_MEAS_PERIOD; /*Calculate the busy percentage*/
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idle_last = idle_last > 100 ? 0 : 100 - idle_last; /*But we need idle time*/
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busy_time = 0;
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idle_period_start = lv_tick_get();
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}
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task_handler_mutex = false; /*Release the mutex*/
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LV_LOG_TRACE("lv_task_handler ready");
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}
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/**
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* Create a new lv_task
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* @param task a function which is the task itself
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* @param period call period in ms unit
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* @param prio priority of the task (LV_TASK_PRIO_OFF means the task is stopped)
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* @param param free parameter
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* @return pointer to the new task
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*/
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lv_task_t * lv_task_create(void (*task)(void *), uint32_t period, lv_task_prio_t prio, void * param)
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{
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lv_task_t * new_lv_task = NULL;
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lv_task_t * tmp;
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/*Create task lists in order of priority from high to low*/
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tmp = lv_ll_get_head(&LV_GC_ROOT(_lv_task_ll));
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if(NULL == tmp) { /*First task*/
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new_lv_task = lv_ll_ins_head(&LV_GC_ROOT(_lv_task_ll));
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lv_mem_assert(new_lv_task);
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if(new_lv_task == NULL) return NULL;
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} else {
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do {
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if(tmp->prio <= prio) {
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new_lv_task = lv_ll_ins_prev(&LV_GC_ROOT(_lv_task_ll), tmp);
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lv_mem_assert(new_lv_task);
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if(new_lv_task == NULL) return NULL;
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break;
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}
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tmp = lv_ll_get_next(&LV_GC_ROOT(_lv_task_ll), tmp);
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} while(tmp != NULL);
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if(tmp == NULL) { /*Only too high priority tasks were found*/
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new_lv_task = lv_ll_ins_tail(&LV_GC_ROOT(_lv_task_ll));
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lv_mem_assert(new_lv_task);
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if(new_lv_task == NULL) return NULL;
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}
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}
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new_lv_task->period = period;
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new_lv_task->task = task;
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new_lv_task->prio = prio;
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new_lv_task->param = param;
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new_lv_task->once = 0;
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new_lv_task->last_run = lv_tick_get();
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task_created = true;
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return new_lv_task;
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}
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/**
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* Delete a lv_task
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* @param lv_task_p pointer to task created by lv_task_p
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*/
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void lv_task_del(lv_task_t * lv_task_p)
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{
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lv_ll_rem(&LV_GC_ROOT(_lv_task_ll), lv_task_p);
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lv_mem_free(lv_task_p);
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if(LV_GC_ROOT(_lv_task_act) == lv_task_p) task_deleted = true; /*The active task was deleted*/
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}
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/**
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* Set new priority for a lv_task
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* @param lv_task_p pointer to a lv_task
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* @param prio the new priority
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*/
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void lv_task_set_prio(lv_task_t * lv_task_p, lv_task_prio_t prio)
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{
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/*Find the tasks with new priority*/
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lv_task_t * i;
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LL_READ(LV_GC_ROOT(_lv_task_ll), i) {
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if(i->prio <= prio) {
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if(i != lv_task_p) lv_ll_move_before(&LV_GC_ROOT(_lv_task_ll), lv_task_p, i);
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break;
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}
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}
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/*There was no such a low priority so far then add the node to the tail*/
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if(i == NULL) {
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lv_ll_move_before(&LV_GC_ROOT(_lv_task_ll), lv_task_p, NULL);
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}
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lv_task_p->prio = prio;
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}
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/**
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* Set new period for a lv_task
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* @param lv_task_p pointer to a lv_task
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* @param period the new period
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*/
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void lv_task_set_period(lv_task_t * lv_task_p, uint32_t period)
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{
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lv_task_p->period = period;
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}
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/**
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* Make a lv_task ready. It will not wait its period.
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* @param lv_task_p pointer to a lv_task.
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*/
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void lv_task_ready(lv_task_t * lv_task_p)
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{
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lv_task_p->last_run = lv_tick_get() - lv_task_p->period - 1;
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}
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/**
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* Delete the lv_task after one call
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* @param lv_task_p pointer to a lv_task.
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*/
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void lv_task_once(lv_task_t * lv_task_p)
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{
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lv_task_p->once = 1;
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}
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/**
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* Reset a lv_task.
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* It will be called the previously set period milliseconds later.
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* @param lv_task_p pointer to a lv_task.
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*/
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void lv_task_reset(lv_task_t * lv_task_p)
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{
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lv_task_p->last_run = lv_tick_get();
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}
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/**
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* Enable or disable the whole lv_task handling
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* @param en: true: lv_task handling is running, false: lv_task handling is suspended
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*/
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void lv_task_enable(bool en)
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{
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lv_task_run = en;
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}
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/**
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* Get idle percentage
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* @return the lv_task idle in percentage
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*/
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uint8_t lv_task_get_idle(void)
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{
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return idle_last;
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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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* Execute task if its the priority is appropriate
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* @param lv_task_p pointer to lv_task
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* @return true: execute, false: not executed
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*/
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static bool lv_task_exec(lv_task_t * lv_task_p)
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{
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bool exec = false;
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/*Execute if at least 'period' time elapsed*/
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uint32_t elp = lv_tick_elaps(lv_task_p->last_run);
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if(elp >= lv_task_p->period) {
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lv_task_p->last_run = lv_tick_get();
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task_deleted = false;
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task_created = false;
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lv_task_p->task(lv_task_p->param);
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/*Delete if it was a one shot lv_task*/
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if(task_deleted == false) { /*The task might be deleted by itself as well*/
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if(lv_task_p->once != 0) {
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lv_task_del(lv_task_p);
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}
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}
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exec = true;
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}
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return exec;
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}
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