/* This is a small demo of the high-performance GUIX graphics framework. */ #include #include "tx_api.h" #include "gx_api.h" #include "gx_validation_utility.h" TEST_PARAM test_parameter = { "guix_pixelmap_24xrgb", /* Test name */ 9, 5, 250, 168 /* Define the coordinates of the capture area. In this test, we only need to capture the pixelmap drawing area. */ }; static VOID control_thread_entry(ULONG); int main(int argc, char ** argv) { /* Parse the command line argument. */ gx_validation_setup(argc, argv); /* Start ThreadX system */ tx_kernel_enter(); return(0); } VOID tx_application_define(void *first_unused_memory) { /* Create a dedicated thread to perform various operations on the pixelmap drawing example. These operations simulate user input. */ gx_validation_control_thread_create(control_thread_entry); /* Termiante the test if it runs for more than 100 ticks */ /* This function is not implemented yet. */ gx_validation_watchdog_create(100); /* Call the actual line example routine. */ gx_validation_application_define(first_unused_memory); } /* Replace the default graphics driver with the validation driver. */ #ifdef win32_graphics_driver_setup_24xrgb #undef win32_graphics_driver_setup_24xrgb #endif #define win32_graphics_driver_setup_24xrgb gx_validation_graphics_driver_setup_24xrgb #ifdef WIN32 #undef WIN32 #endif #include "gx_validation_wrapper.h" #include "demo_guix_pixelmap_32bpp.c" /* Define the move values for the horizontal slider. */ static int horizontal_value[] = {1, 2, 3, 4, 5, 6, 7, 8, 9}; /* Define the move values for the vertical slider.*/ static int vertical_value[] = {1, 2, 3, 4, 5, 6, 7, 8, 9}; /* Define the alpha settings. */ static int alpha_value[] = {GX_TRUE, GX_FALSE}; /* Define the compressed settings. */ static int compressed_value[] = {GX_TRUE, GX_FALSE}; char test_comment[256]; /* This thread simulates user input. Its priority is lower than the GUIX thread, so that GUIX finishes an operation before this thread is able to issue the next command. */ static VOID control_thread_entry(ULONG input) { int horizontal_index, vertical_index, alpha_index, compressed_index; int frame_id = 1; GX_SLIDER *slider_h; GX_SLIDER *slider_v; gx_widget_find(pMainWin, ID_HORIZONTALMOVE, 0, &slider_h); gx_widget_find(pMainWin, ID_VERTICALMOVE, 0, &slider_v); for(alpha_index = 0; alpha_index < 2; alpha_index++) { alpha = alpha_value[alpha_index]; for(compressed_index = 0; compressed_index < 2; compressed_index++) { compressed = compressed_value[compressed_index]; for(horizontal_index = 0; horizontal_index < (INT)(sizeof(horizontal_value) / sizeof(int)); horizontal_index++) { gx_slider_value_set(slider_h, &slider_h -> gx_slider_info, horizontal_value[horizontal_index]); for(vertical_index = 0; vertical_index < (INT)(sizeof(vertical_value) / sizeof(int)); vertical_index++) { /* Inform the validation system (1) Frame ID, which identifies a specific test configuration; (2) Start recording frame on the next toggle operation. */ gx_validation_set_frame_id(frame_id); /* Set the vertical slider value */ gx_slider_value_set(slider_v, &slider_v -> gx_slider_info, vertical_value[vertical_index]); sprintf(test_comment, "xshift %d yshift %d ", horizontal_value[horizontal_index], vertical_value[vertical_index]); if(alpha) strcat(test_comment, "alpha "); else strcat(test_comment, "without alpha "); if(compressed) strcat(test_comment, "compressed "); else strcat(test_comment, "without compressed "); gx_validation_set_frame_comment(test_comment); /* Mark the window "dirty" */ gx_system_dirty_mark(pic_window); /* Force a screen refresh. */ gx_validation_screen_refresh(); /* Increment frame ID */ frame_id ++; } } } } /* Signal the end of the test case. Verify the output. */ gx_validation_end(); exit(0); }