unleashed-firmware/applications/menu/menu_event.c
coreglitch b2a12d091a
Display and UI implementation (#169)
* Menu app. Lib: add mlib submodule.

* Menu: new startup lib dependency definition

* Menu: hierarchy in menu. Cube: fix heap1/4 inconsistency, stack protection.

* GUI: rendering pipeline initial version.

* GUI: layered widget composing, FURI record. Menu: FURI record, api.

* GUI: input dispatching. Menu: switch to input from GUI.

* GUI, MENU: code style cleanup, fix type conversion warnings.

* GUI, Menu: syntax check.

* Makefile: check and reinit submodules, format.

* Menu: lock on event processing. Makefile: proper submodule initialization.

* Menu: fix stack corruption by queue.

* GUI: refactor.

* Makefile: format rule fix, st-util pid.

* GUI, Menu, FURI: format with clang-format.

* GUI, MENU: locks in critical sections, fix stack corruption, ready signaling.

* Makefile: clang format rule cleanup.

* GUI,MENU: migrate to new API.

* Applications: PRODUCTION_HW variable, skip drivers build on local target.

* refactor production build

* add git to dockerfile

* GUI: uncomment lock block

Co-authored-by: Aleksandr Kutuzov <aku@plooks.com>
2020-10-14 13:21:55 +03:00

96 lines
2.7 KiB
C

#include "menu_event.h"
#include <cmsis_os.h>
#include <assert.h>
#include <string.h>
#include <stdlib.h>
#include <flipper.h>
#define MENU_MESSAGE_MQUEUE_SIZE 8
struct MenuEvent {
osMessageQueueId_t mqueue;
osTimerId_t timeout_timer;
osMutexId_t lock_mutex;
};
void MenuEventimeout_callback(void* arg) {
MenuEvent* menu_event = arg;
MenuMessage message;
message.type = MenuMessageTypeIdle;
osMessageQueuePut(menu_event->mqueue, &message, 0, 0);
}
MenuEvent* menu_event_alloc() {
MenuEvent* menu_event = furi_alloc(sizeof(MenuEvent));
menu_event->mqueue = osMessageQueueNew(MENU_MESSAGE_MQUEUE_SIZE, sizeof(MenuMessage), NULL);
assert(menu_event->mqueue);
menu_event->timeout_timer =
osTimerNew(MenuEventimeout_callback, osTimerOnce, menu_event, NULL);
assert(menu_event->timeout_timer);
menu_event->lock_mutex = osMutexNew(NULL);
assert(menu_event->lock_mutex);
menu_event_lock(menu_event);
return menu_event;
}
void menu_event_free(MenuEvent* menu_event) {
assert(menu_event);
menu_event_unlock(menu_event);
assert(osMessageQueueDelete(menu_event->mqueue) == osOK);
free(menu_event);
}
void menu_event_lock(MenuEvent* menu_event) {
assert(osMutexAcquire(menu_event->lock_mutex, osWaitForever) == osOK);
}
void menu_event_unlock(MenuEvent* menu_event) {
assert(osMutexRelease(menu_event->lock_mutex) == osOK);
}
void menu_event_activity_notify(MenuEvent* menu_event) {
assert(menu_event);
osTimerStart(menu_event->timeout_timer, 60000U); // 1m timeout, return to main
}
MenuMessage menu_event_next(MenuEvent* menu_event) {
assert(menu_event);
MenuMessage message;
menu_event_unlock(menu_event);
while(osMessageQueueGet(menu_event->mqueue, &message, NULL, osWaitForever) != osOK) {
};
menu_event_lock(menu_event);
return message;
}
void menu_event_input_callback(InputEvent* input_event, void* context) {
MenuEvent* menu_event = context;
MenuMessage message;
if(!input_event->state) return;
if(input_event->input == InputUp) {
message.type = MenuMessageTypeUp;
} else if(input_event->input == InputDown) {
message.type = MenuMessageTypeDown;
} else if(input_event->input == InputRight) {
message.type = MenuMessageTypeRight;
} else if(input_event->input == InputLeft) {
message.type = MenuMessageTypeLeft;
} else if(input_event->input == InputOk) {
message.type = MenuMessageTypeOk;
} else if(input_event->input == InputBack) {
message.type = MenuMessageTypeBack;
} else {
message.type = MenuMessageTypeUnknown;
}
osMessageQueuePut(menu_event->mqueue, &message, 0, 0);
}