#include #include #include "test-conform-common.h" #define BLOCK_SIZE 16 /* Number of pixels at the border of a block quadrant to skip when verifying */ #define TEST_INSET 1 static const ClutterColor stage_color = { 0x0, 0x0, 0x0, 0xff }; static const ClutterColor block_color = { 0xff, 0xff, 0xff, 0xff }; typedef struct _TestState { ClutterActor *stage; guint frame; } TestState; static void draw_path_at (int x, int y) { cogl_push_matrix (); cogl_translate (x * BLOCK_SIZE, y * BLOCK_SIZE, 0.0f); cogl_path_fill (); cogl_pop_matrix (); } static void verify_block (int block_x, int block_y, int block_mask) { guint8 data[BLOCK_SIZE * BLOCK_SIZE * 4]; int qx, qy; /* Block mask represents which quarters of the block should be filled. The bits from 0->3 represent the top left, top right, bottom left and bottom right respectively */ cogl_read_pixels (block_x * BLOCK_SIZE, block_y * BLOCK_SIZE, BLOCK_SIZE, BLOCK_SIZE, COGL_READ_PIXELS_COLOR_BUFFER, COGL_PIXEL_FORMAT_RGBA_8888_PRE, data); for (qy = 0; qy < 2; qy++) for (qx = 0; qx < 2; qx++) { int bit = qx | (qy << 1); const ClutterColor *color = ((block_mask & (1 << bit)) ? &block_color : &stage_color); int x, y; for (x = 0; x < BLOCK_SIZE / 2 - TEST_INSET * 2; x++) for (y = 0; y < BLOCK_SIZE / 2 - TEST_INSET * 2; y++) { const guint8 *p = data + (qx * BLOCK_SIZE / 2 * 4 + qy * BLOCK_SIZE * 4 * BLOCK_SIZE / 2 + (x + TEST_INSET) * 4 + (y + TEST_INSET) * BLOCK_SIZE * 4); g_assert_cmpint (p[0], ==, color->red); g_assert_cmpint (p[1], ==, color->green); g_assert_cmpint (p[2], ==, color->blue); } } } static void on_paint (ClutterActor *actor, TestState *state) { CoglHandle path_a, path_b, path_c; if (state->frame++ < 2) return; cogl_set_source_color4ub (255, 255, 255, 255); /* Create a path filling just a quarter of a block. It will use two rectangles so that we have a sub path in the path */ cogl_path_new (); cogl_path_rectangle (BLOCK_SIZE * 3 / 4, BLOCK_SIZE / 2, BLOCK_SIZE, BLOCK_SIZE); cogl_path_rectangle (BLOCK_SIZE / 2, BLOCK_SIZE / 2, BLOCK_SIZE * 3 / 4, BLOCK_SIZE); path_a = cogl_handle_ref (cogl_path_get ()); draw_path_at (0, 0); /* Create another path filling the whole block */ cogl_path_rectangle (0, 0, BLOCK_SIZE, BLOCK_SIZE); path_b = cogl_handle_ref (cogl_path_get ()); draw_path_at (1, 0); /* Draw the first path again */ cogl_path_set (path_a); draw_path_at (2, 0); /* Draw a copy of path a */ path_c = cogl_path_copy (path_a); cogl_path_set (path_c); draw_path_at (3, 0); /* Add another rectangle to path a. We'll use line_to's instead of cogl_rectangle so that we don't create another sub-path because that is more likely to break the copy */ cogl_path_set (path_a); cogl_path_line_to (0, BLOCK_SIZE / 2); cogl_path_line_to (0, 0); cogl_path_line_to (BLOCK_SIZE / 2, 0); cogl_path_line_to (BLOCK_SIZE / 2, BLOCK_SIZE / 2); draw_path_at (4, 0); /* Draw the copy again. It should not have changed */ cogl_path_set (path_c); draw_path_at (5, 0); /* Add another rectangle to path c. It will be added in two halves, one as an extension of the previous path and the other as a new sub path */ cogl_path_set (path_c); cogl_path_line_to (BLOCK_SIZE / 2, 0); cogl_path_line_to (BLOCK_SIZE * 3 / 4, 0); cogl_path_line_to (BLOCK_SIZE * 3 / 4, BLOCK_SIZE / 2); cogl_path_line_to (BLOCK_SIZE / 2, BLOCK_SIZE / 2); cogl_path_rectangle (BLOCK_SIZE * 3 / 4, 0, BLOCK_SIZE, BLOCK_SIZE / 2); draw_path_at (6, 0); /* Draw the original path again. It should not have changed */ cogl_path_set (path_a); draw_path_at (7, 0); cogl_handle_unref (path_a); cogl_handle_unref (path_b); cogl_handle_unref (path_c); /* Draw a self-intersecting path. The part that intersects should be inverted */ cogl_path_rectangle (0, 0, BLOCK_SIZE, BLOCK_SIZE); cogl_path_line_to (0, BLOCK_SIZE / 2); cogl_path_line_to (BLOCK_SIZE / 2, BLOCK_SIZE / 2); cogl_path_line_to (BLOCK_SIZE / 2, 0); cogl_path_close (); draw_path_at (8, 0); /* Draw two sub paths. Where the paths intersect it should be inverted */ cogl_path_rectangle (0, 0, BLOCK_SIZE, BLOCK_SIZE); cogl_path_rectangle (BLOCK_SIZE / 2, BLOCK_SIZE / 2, BLOCK_SIZE, BLOCK_SIZE); draw_path_at (9, 0); verify_block (0, 0, 0x8 /* bottom right */); verify_block (1, 0, 0xf /* all of them */); verify_block (2, 0, 0x8 /* bottom right */); verify_block (3, 0, 0x8 /* bottom right */); verify_block (4, 0, 0x9 /* top left and bottom right */); verify_block (5, 0, 0x8 /* bottom right */); verify_block (6, 0, 0xa /* bottom right and top right */); verify_block (7, 0, 0x9 /* top_left and bottom right */); verify_block (8, 0, 0xe /* all but top left */); verify_block (9, 0, 0x7 /* all but bottom right */); /* Comment this out if you want visual feedback of what this test * paints. */ clutter_main_quit (); } static gboolean queue_redraw (gpointer stage) { clutter_actor_queue_redraw (CLUTTER_ACTOR (stage)); return TRUE; } void test_cogl_path (TestConformSimpleFixture *fixture, gconstpointer data) { TestState state; unsigned int idle_source; unsigned int paint_handler; state.stage = clutter_stage_get_default (); clutter_stage_set_color (CLUTTER_STAGE (state.stage), &stage_color); /* We force continuous redrawing of the stage, since we need to skip * the first few frames, and we wont be doing anything else that * will trigger redrawing. */ idle_source = g_idle_add (queue_redraw, state.stage); paint_handler = g_signal_connect_after (state.stage, "paint", G_CALLBACK (on_paint), &state); clutter_actor_show (state.stage); clutter_main (); g_signal_handler_disconnect (state.stage, paint_handler); g_source_remove (idle_source); if (g_test_verbose ()) g_print ("OK\n"); }