#include #include #include #include "Tactility/lvgl/Toolbar.h" #include #include #include #include namespace tt::app::gpio { extern const AppManifest manifest; class GpioApp : public App { lv_obj_t* lvPins[GPIO_NUM_MAX] = { nullptr }; uint8_t pinStates[GPIO_NUM_MAX] = { 0 }; std::unique_ptr timer; Mutex mutex; static lv_obj_t* createGpioRowWrapper(lv_obj_t* parent); void onTimer(); public: void onShow(AppContext& app, lv_obj_t* parent) override; void onHide(AppContext& app) override; void startTask(); void stopTask(); void updatePinStates(); void updatePinWidgets(); }; void GpioApp::updatePinStates() { mutex.lock(); // Update pin states for (int i = 0; i < GPIO_NUM_MAX; ++i) { #ifdef ESP_PLATFORM pinStates[i] = gpio_get_level(static_cast(i)); #else pinStates[i] = gpio_get_level(i); #endif } mutex.unlock(); } void GpioApp::updatePinWidgets() { auto scoped_lvgl_lock = lvgl::getSyncLock()->asScopedLock(); auto scoped_gpio_lock = mutex.asScopedLock(); if (scoped_gpio_lock.lock() && scoped_lvgl_lock.lock(lvgl::defaultLockTime)) { for (int j = 0; j < GPIO_NUM_MAX; ++j) { int level = pinStates[j]; lv_obj_t* label = lvPins[j]; void* label_user_data = lv_obj_get_user_data(label); // The user data stores the state, so we can avoid unnecessary updates if (reinterpret_cast(level) != label_user_data) { lv_obj_set_user_data(label, reinterpret_cast(level)); if (level == 0) { lv_obj_set_style_text_color(label, lv_color_background_darkest(), LV_STATE_DEFAULT); } else { lv_obj_set_style_text_color(label, lv_color_make(0, 200, 0), LV_STATE_DEFAULT); } } } } } lv_obj_t* GpioApp::createGpioRowWrapper(lv_obj_t* parent) { lv_obj_t* wrapper = lv_obj_create(parent); lv_obj_set_style_pad_all(wrapper, 0, LV_STATE_DEFAULT); lv_obj_set_style_border_width(wrapper, 0, LV_STATE_DEFAULT); lv_obj_set_size(wrapper, LV_SIZE_CONTENT, LV_SIZE_CONTENT); return wrapper; } // region Task void GpioApp::onTimer() { updatePinStates(); updatePinWidgets(); } void GpioApp::startTask() { mutex.lock(); assert(timer == nullptr); timer = std::make_unique(Timer::Type::Periodic, [this] { onTimer(); }); timer->start(100 / portTICK_PERIOD_MS); mutex.unlock(); } void GpioApp::stopTask() { assert(timer); timer->stop(); timer = nullptr; } // endregion Task static int getSquareSpacing(hal::UiScale uiScale) { if (uiScale == hal::UiScale::Smallest) { return 0; } else { return 4; } } void GpioApp::onShow(AppContext& app, lv_obj_t* parent) { auto ui_scale = hal::getConfiguration()->uiScale; lv_obj_set_flex_flow(parent, LV_FLEX_FLOW_COLUMN); lv_obj_set_style_pad_row(parent, 0, LV_STATE_DEFAULT); auto* toolbar = lvgl::toolbar_create(parent, app); lv_obj_align(toolbar, LV_ALIGN_TOP_MID, 0, 0); // Main content wrapper, enables scrolling content without scrolling the toolbar auto* expansion_wrapper = lv_obj_create(parent); lv_obj_set_width(expansion_wrapper, LV_PCT(100)); lv_obj_set_flex_grow(expansion_wrapper, 1); lv_obj_set_style_border_width(expansion_wrapper, 0, LV_STATE_DEFAULT); lv_obj_set_style_pad_all(expansion_wrapper, 0, LV_STATE_DEFAULT); auto* centering_wrapper = lv_obj_create(expansion_wrapper); lv_obj_set_size(centering_wrapper, LV_SIZE_CONTENT, LV_SIZE_CONTENT); lv_obj_set_align(centering_wrapper, LV_ALIGN_CENTER); lv_obj_set_style_border_width(centering_wrapper, 0, LV_STATE_DEFAULT); lv_obj_set_style_pad_all(centering_wrapper, 0, LV_STATE_DEFAULT); auto* display = lv_obj_get_display(parent); auto horizontal_px = lv_display_get_horizontal_resolution(display); auto vertical_px = lv_display_get_vertical_resolution(display); bool is_landscape_display = horizontal_px > vertical_px; constexpr auto block_width = 16; const auto square_spacing = getSquareSpacing(ui_scale); int32_t x_spacing = block_width + square_spacing; uint8_t column = 0; const uint8_t column_limit = is_landscape_display ? 10 : 5; auto* row_wrapper = createGpioRowWrapper(centering_wrapper); lv_obj_align(row_wrapper, LV_ALIGN_TOP_MID, 0, 0); mutex.lock(); for (int i = GPIO_NUM_MIN; i < GPIO_NUM_MAX; ++i) { constexpr uint8_t offset_from_left_label = 4; // Add the GPIO number before the first item on a row if (column == 0) { auto* prefix = lv_label_create(row_wrapper); lv_label_set_text_fmt(prefix, "%02d", i); } // Add a new GPIO status indicator auto* status_label = lv_label_create(row_wrapper); lv_obj_set_pos(status_label, (column+1) * x_spacing + offset_from_left_label, 0); lv_label_set_text_fmt(status_label, "%s", LV_SYMBOL_STOP); lv_obj_set_style_text_color(status_label, lv_color_background_darkest(), LV_STATE_DEFAULT); lvPins[i] = status_label; column++; if (column >= column_limit) { // Add the GPIO number after the last item on a row auto* postfix = lv_label_create(row_wrapper); lv_label_set_text_fmt(postfix, "%02d", i); lv_obj_set_pos(postfix, (column + 1) * x_spacing + offset_from_left_label, 0); // Add a new row wrapper underneath the last one auto* new_row_wrapper = createGpioRowWrapper(centering_wrapper); lv_obj_align_to(new_row_wrapper, row_wrapper, LV_ALIGN_BOTTOM_LEFT, 0, square_spacing); row_wrapper = new_row_wrapper; column = 0; } } mutex.unlock(); startTask(); } void GpioApp::onHide(AppContext& app) { stopTask(); } extern const AppManifest manifest = { .id = "Gpio", .name = "GPIO", .icon = TT_ASSETS_APP_ICON_GPIO, .type = Type::System, .createApp = create }; } // namespace