flipperzero-firmware/applications/gui/scene_manager.c
Georgii Surkov a8acfcabb4
[FL-2568] Infrared C port (#1326)
* Add skeleton for infrared C port, rename old app
* Add scene stubs
* Add more views
* Misc changes
* Add remote and signal class stubs
* Complete infrared signal class
* Add remote button class stub
* Check if button contains a signal during destruction
* Complete infrared signal class more
* Implement remote storing
* Implement remote loading
* Fix error handling
* Implement remote transmitting
* Rename scene
* Canonise event consumption
* Implement remote learning (stub)
* Implement learn success screen (stub)
* Implement AskBack scene
* Improve remote saving&loading
* Fix remote file name
* Add LearnDone scene
* Switch from Remote scene correctly
* Add SceneButtonSelect
* Remove unneeded assert
* Add new SceneManager method
* Use new SceneManager method in Infrared
* Implement renaming of buttons and remotes
* Implement deleting of buttons and remotes
* Add universal remotes list
* Add brute force code
* Brute force code improvements
* Partially implement Universal Remote GUI
* Fix wrong singnal handling
* Fully implement Universal Remote
* Use standard custom events everywhere
* Return infrared CLI
* Remove old Infrared app
* Change container name
* Fix scene order
* Put ButtonPanel into stack only when needed
* Show loading animation during slow operations
* Do not hardcode Loading widget coordinates
* Switch Loading widget orientation as needed
* Save Start scene state
* Save Remote scene state
* Save Edit scene state
* Save EditButtonSelect scene state
* Do not use scene state
* Use string_t instead of const char* for brevity
* Fix memory leak
* Fix saving raw remotes
* Add Infrared debug menu
* Add debug view
* Move Infrared monitor into Infrared application
* Remove old Infrared monitor app
* Use common signal received callback everywhere
2022-06-21 21:45:50 +09:00

244 lines
8.7 KiB
C
Executable File

#include "scene_manager_i.h"
#include <furi.h>
SceneManager* scene_manager_alloc(const SceneManagerHandlers* app_scene_handlers, void* context) {
furi_assert(context);
SceneManager* scene_manager = malloc(sizeof(SceneManager));
// Set SceneManager context and scene handlers
scene_manager->context = context;
scene_manager->scene_handlers = app_scene_handlers;
// Allocate all scenes
scene_manager->scene = malloc(sizeof(AppScene) * app_scene_handlers->scene_num);
// Initialize ScaneManager array for navigation
SceneManagerIdStack_init(scene_manager->scene_id_stack);
return scene_manager;
}
void scene_manager_free(SceneManager* scene_manager) {
furi_assert(scene_manager);
// Clear ScaneManager array
SceneManagerIdStack_clear(scene_manager->scene_id_stack);
// Clear allocated scenes
free(scene_manager->scene);
// Free SceneManager structure
free(scene_manager);
}
void scene_manager_set_scene_state(SceneManager* scene_manager, uint32_t scene_id, uint32_t state) {
furi_assert(scene_manager);
furi_assert(scene_id < scene_manager->scene_handlers->scene_num);
scene_manager->scene[scene_id].state = state;
}
uint32_t scene_manager_get_scene_state(SceneManager* scene_manager, uint32_t scene_id) {
furi_assert(scene_manager);
furi_assert(scene_id < scene_manager->scene_handlers->scene_num);
return scene_manager->scene[scene_id].state;
}
bool scene_manager_handle_custom_event(SceneManager* scene_manager, uint32_t custom_event) {
furi_assert(scene_manager);
SceneManagerEvent event = {
.type = SceneManagerEventTypeCustom,
.event = custom_event,
};
bool result = false;
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t* scene_id_p = SceneManagerIdStack_back(scene_manager->scene_id_stack);
uint32_t scene_id = *scene_id_p;
result = scene_manager->scene_handlers->on_event_handlers[scene_id](
scene_manager->context, event);
}
return result;
}
bool scene_manager_handle_back_event(SceneManager* scene_manager) {
furi_assert(scene_manager);
SceneManagerEvent event = {
.type = SceneManagerEventTypeBack,
};
bool consumed = false;
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t* scene_id_p = SceneManagerIdStack_back(scene_manager->scene_id_stack);
uint32_t scene_id = *scene_id_p;
consumed = scene_manager->scene_handlers->on_event_handlers[scene_id](
scene_manager->context, event);
}
if(!consumed) {
consumed = scene_manager_previous_scene(scene_manager);
}
return consumed;
}
void scene_manager_handle_tick_event(SceneManager* scene_manager) {
furi_assert(scene_manager);
SceneManagerEvent event = {
.type = SceneManagerEventTypeTick,
};
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t* scene_id_p = SceneManagerIdStack_back(scene_manager->scene_id_stack);
uint32_t scene_id = *scene_id_p;
scene_manager->scene_handlers->on_event_handlers[scene_id](scene_manager->context, event);
}
}
void scene_manager_next_scene(SceneManager* scene_manager, uint32_t next_scene_id) {
furi_assert(scene_manager);
furi_assert(next_scene_id < scene_manager->scene_handlers->scene_num);
// Check if it is not the first scene
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t cur_scene_id = *SceneManagerIdStack_back(scene_manager->scene_id_stack);
scene_manager->scene_handlers->on_exit_handlers[cur_scene_id](scene_manager->context);
}
// Add next scene and run on_enter
SceneManagerIdStack_push_back(scene_manager->scene_id_stack, next_scene_id);
scene_manager->scene_handlers->on_enter_handlers[next_scene_id](scene_manager->context);
}
bool scene_manager_previous_scene(SceneManager* scene_manager) {
furi_assert(scene_manager);
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t cur_scene_id = 0;
SceneManagerIdStack_pop_back(&cur_scene_id, scene_manager->scene_id_stack);
// Handle exit from start scene separately
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) == 0) {
scene_manager->scene_handlers->on_exit_handlers[cur_scene_id](scene_manager->context);
return false;
}
uint32_t prev_scene_id = *SceneManagerIdStack_back(scene_manager->scene_id_stack);
scene_manager->scene_handlers->on_exit_handlers[cur_scene_id](scene_manager->context);
scene_manager->scene_handlers->on_enter_handlers[prev_scene_id](scene_manager->context);
return true;
} else {
return false;
}
}
bool scene_manager_search_and_switch_to_previous_scene(
SceneManager* scene_manager,
uint32_t scene_id) {
furi_assert(scene_manager);
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t prev_scene_id = 0;
uint32_t cur_scene_id = *SceneManagerIdStack_back(scene_manager->scene_id_stack);
SceneManagerIdStack_it_t scene_it;
SceneManagerIdStack_it_last(scene_it, scene_manager->scene_id_stack);
// Search scene with given id in navigation stack
bool scene_found = false;
while(!scene_found) {
SceneManagerIdStack_previous(scene_it);
if(SceneManagerIdStack_end_p(scene_it)) {
return false;
}
prev_scene_id = *SceneManagerIdStack_ref(scene_it);
if(prev_scene_id == scene_id) {
scene_found = true;
}
}
// Remove all scene id from navigation stack
SceneManagerIdStack_next(scene_it);
SceneManagerIdStack_pop_until(scene_manager->scene_id_stack, scene_it);
scene_manager->scene_handlers->on_exit_handlers[cur_scene_id](scene_manager->context);
scene_manager->scene_handlers->on_enter_handlers[prev_scene_id](scene_manager->context);
return true;
} else {
return false;
}
}
bool scene_manager_search_and_switch_to_previous_scene_one_of(
SceneManager* scene_manager,
const uint32_t* scene_ids,
size_t scene_ids_size) {
furi_assert(scene_manager);
furi_assert(scene_ids);
bool scene_found = false;
for(size_t i = 0; i < scene_ids_size; ++i) {
const uint32_t scene_id = scene_ids[i];
if(scene_manager_has_previous_scene(scene_manager, scene_id)) {
scene_manager_search_and_switch_to_previous_scene(scene_manager, scene_id);
scene_found = true;
break;
}
}
return scene_found;
}
bool scene_manager_has_previous_scene(SceneManager* scene_manager, uint32_t scene_id) {
furi_assert(scene_manager);
bool scene_found = false;
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t prev_scene_id;
SceneManagerIdStack_it_t scene_it;
SceneManagerIdStack_it_last(scene_it, scene_manager->scene_id_stack);
// Perform search in scene stack
while(!scene_found) {
SceneManagerIdStack_previous(scene_it);
if(SceneManagerIdStack_end_p(scene_it)) {
break;
}
prev_scene_id = *SceneManagerIdStack_ref(scene_it);
if(prev_scene_id == scene_id) {
scene_found = true;
}
}
}
return scene_found;
}
bool scene_manager_search_and_switch_to_another_scene(
SceneManager* scene_manager,
uint32_t scene_id) {
furi_assert(scene_manager);
furi_assert(scene_id < scene_manager->scene_handlers->scene_num);
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t cur_scene_id = *SceneManagerIdStack_back(scene_manager->scene_id_stack);
SceneManagerIdStack_it_t scene_it;
SceneManagerIdStack_it(scene_it, scene_manager->scene_id_stack);
SceneManagerIdStack_next(scene_it);
// Remove all scene id from navigation stack until first scene
SceneManagerIdStack_pop_until(scene_manager->scene_id_stack, scene_it);
// Add next scene
SceneManagerIdStack_push_back(scene_manager->scene_id_stack, scene_id);
scene_manager->scene_handlers->on_exit_handlers[cur_scene_id](scene_manager->context);
scene_manager->scene_handlers->on_enter_handlers[scene_id](scene_manager->context);
return true;
} else {
return false;
}
}
void scene_manager_stop(SceneManager* scene_manager) {
furi_assert(scene_manager);
if(SceneManagerIdStack_size(scene_manager->scene_id_stack) > 0) {
uint32_t cur_scene_id = *SceneManagerIdStack_back(scene_manager->scene_id_stack);
scene_manager->scene_handlers->on_exit_handlers[cur_scene_id](scene_manager->context);
}
}