#include #include #include "unity.h" #include "test_utils.h" #include "esp_lcd_panel_rgb.h" #include "esp_lcd_panel_ops.h" #include "soc/soc_caps.h" #define TEST_LCD_H_RES (480) #define TEST_LCD_V_RES (272) #define TEST_LCD_VSYNC_GPIO (1) #define TEST_LCD_HSYNC_GPIO (2) #define TEST_LCD_DE_GPIO (-1) #define TEST_LCD_PCLK_GPIO (3) #define TEST_LCD_DATA0_GPIO (4) // B0 #define TEST_LCD_DATA1_GPIO (5) // B1 #define TEST_LCD_DATA2_GPIO (6) // B2 #define TEST_LCD_DATA3_GPIO (7) // B3 #define TEST_LCD_DATA4_GPIO (8) // B4 #define TEST_LCD_DATA5_GPIO (9) // G0 #define TEST_LCD_DATA6_GPIO (10) // G1 #define TEST_LCD_DATA7_GPIO (11) // G2 #define TEST_LCD_DATA8_GPIO (12) // G3 #define TEST_LCD_DATA9_GPIO (13) // G4 #define TEST_LCD_DATA10_GPIO (14) // G5 #define TEST_LCD_DATA11_GPIO (15) // R0 #define TEST_LCD_DATA12_GPIO (16) // R1 #define TEST_LCD_DATA13_GPIO (17) // R2 #define TEST_LCD_DATA14_GPIO (18) // R3 #define TEST_LCD_DATA15_GPIO (19) // R4 #define TEST_LCD_DISP_EN_GPIO (-1) #if SOC_LCD_RGB_SUPPORTED // RGB driver consumes a huge memory to save frame buffer, only test it with PSRAM enabled #if CONFIG_SPIRAM_USE_MALLOC TEST_CASE("lcd rgb lcd panel", "[lcd]") { #define TEST_IMG_SIZE (100 * 100 * sizeof(uint16_t)) uint8_t *img = malloc(TEST_IMG_SIZE); TEST_ASSERT_NOT_NULL(img); esp_lcd_panel_handle_t panel_handle = NULL; esp_lcd_rgb_panel_config_t panel_config = { .data_width = 16, .disp_gpio_num = TEST_LCD_DISP_EN_GPIO, .pclk_gpio_num = TEST_LCD_PCLK_GPIO, .vsync_gpio_num = TEST_LCD_VSYNC_GPIO, .hsync_gpio_num = TEST_LCD_HSYNC_GPIO, .de_gpio_num = TEST_LCD_DE_GPIO, .data_gpio_nums = { TEST_LCD_DATA0_GPIO, TEST_LCD_DATA1_GPIO, TEST_LCD_DATA2_GPIO, TEST_LCD_DATA3_GPIO, TEST_LCD_DATA4_GPIO, TEST_LCD_DATA5_GPIO, TEST_LCD_DATA6_GPIO, TEST_LCD_DATA7_GPIO, TEST_LCD_DATA8_GPIO, TEST_LCD_DATA9_GPIO, TEST_LCD_DATA10_GPIO, TEST_LCD_DATA11_GPIO, TEST_LCD_DATA12_GPIO, TEST_LCD_DATA13_GPIO, TEST_LCD_DATA14_GPIO, TEST_LCD_DATA15_GPIO, }, .timings = { .pclk_hz = 6000000, .h_res = TEST_LCD_H_RES, .v_res = TEST_LCD_V_RES, .hsync_back_porch = 43, .hsync_front_porch = 2, .hsync_pulse_width = 1, .vsync_back_porch = 12, .vsync_front_porch = 1, .vsync_pulse_width = 1, }, .flags.fb_in_psram = 1, }; // Test stream mode and one-off mode for (int i = 0; i < 2; i++) { panel_config.flags.relax_on_idle = i; TEST_ESP_OK(esp_lcd_new_rgb_panel(&panel_config, &panel_handle)); TEST_ESP_OK(esp_lcd_panel_reset(panel_handle)); TEST_ESP_OK(esp_lcd_panel_init(panel_handle)); for (int i = 0; i < 200; i++) { uint8_t color_byte = esp_random() & 0xFF; int x_start = esp_random() % (TEST_LCD_H_RES - 100); int y_start = esp_random() % (TEST_LCD_V_RES - 100); memset(img, color_byte, TEST_IMG_SIZE); esp_lcd_panel_draw_bitmap(panel_handle, x_start, y_start, x_start + 100, y_start + 100, img); } TEST_ESP_OK(esp_lcd_panel_del(panel_handle)); } free(img); #undef TEST_IMG_SIZE } // The following test shows a porting example of LVGL GUI library // To run the LVGL tests, you need to clone the LVGL library into components directory firstly #if CONFIG_LV_USE_USER_DATA #include "test_lvgl_port.h" static bool notify_lvgl_ready_to_flush(esp_lcd_panel_handle_t panel, void *user_data) { lv_disp_t *disp = *(lv_disp_t **)user_data; lv_disp_flush_ready(&disp->driver); return false; } TEST_CASE("lvgl gui with rgb interface", "[lcd][lvgl][ignore]") { // initialize LVGL graphics library lv_disp_t *disp = NULL; lv_init(); esp_lcd_panel_handle_t panel_handle = NULL; esp_lcd_rgb_panel_config_t panel_config = { .data_width = 16, .disp_gpio_num = -1, .pclk_gpio_num = TEST_LCD_PCLK_GPIO, .vsync_gpio_num = TEST_LCD_VSYNC_GPIO, .hsync_gpio_num = TEST_LCD_HSYNC_GPIO, .de_gpio_num = TEST_LCD_DE_GPIO, .data_gpio_nums = { TEST_LCD_DATA0_GPIO, TEST_LCD_DATA1_GPIO, TEST_LCD_DATA2_GPIO, TEST_LCD_DATA3_GPIO, TEST_LCD_DATA4_GPIO, TEST_LCD_DATA5_GPIO, TEST_LCD_DATA6_GPIO, TEST_LCD_DATA7_GPIO, TEST_LCD_DATA8_GPIO, TEST_LCD_DATA9_GPIO, TEST_LCD_DATA10_GPIO, TEST_LCD_DATA11_GPIO, TEST_LCD_DATA12_GPIO, TEST_LCD_DATA13_GPIO, TEST_LCD_DATA14_GPIO, TEST_LCD_DATA15_GPIO, }, .timings = { .pclk_hz = 6000000, .h_res = TEST_LCD_H_RES, .v_res = TEST_LCD_V_RES, .hsync_back_porch = 43, .hsync_front_porch = 2, .hsync_pulse_width = 1, .vsync_back_porch = 12, .vsync_front_porch = 1, .vsync_pulse_width = 1, }, .flags.fb_in_psram = 1, .on_frame_trans_done = notify_lvgl_ready_to_flush, .user_data = &disp, }; TEST_ESP_OK(esp_lcd_new_rgb_panel(&panel_config, &panel_handle)); TEST_ESP_OK(esp_lcd_panel_reset(panel_handle)); TEST_ESP_OK(esp_lcd_panel_init(panel_handle)); test_lvgl_task_loop(panel_handle, TEST_LCD_H_RES, TEST_LCD_V_RES, &disp); } #endif // CONFIG_LV_USE_USER_DATA #endif // CONFIG_SPIRAM_USE_MALLOC #endif // SOC_LCD_RGB_SUPPORTED