/* testgdk -- validation program for GDK * Copyright (C) 2000 Tor Lillqvist * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* This program is intended to be used to validate the correctness of * the basic graphics operations in a GDK backend. The results of the * operations are compared against those produced by a correctly * functioning X11 backend (and X11 server). * * Obviously, only the most basic operations reasonably be expected to * produce pixel-by-pixel identical results as the X11 backend. We * don't even try to test the correctness of ellipses, tiles or * stipples. Not to mention fonts. * * But, for those operations we do test, we should try to test quite * many combinations of parameters. * * This is just a quick hack, and could be improved a lot. There are * copy-pasted code snippets all over that need to be factored out * into separate functions. */ #include "config.h" #include #include #include #include #include /* CQTESTF -- "Conditionally Quiet TEST with Fail message" * macro that prints PASS or FAIL messages * parms: quiet: if TRUE, only print FAIL messages * expr: the expression to test * failfmt:if expr is FALSE, print this message * (both format and args) */ #define CQTESTF(quiet, expr, failfmt) \ (tmpb = (expr), \ (tmpb ? (quiet ? 0 : printf ("PASS: %s %s\n", G_STRLOC, #expr)) \ : (printf ("FAIL: %s %s", G_STRLOC, #expr), \ printf failfmt, \ printf ("\n"), \ retval = FALSE, \ error (), \ return_value++)), \ tmpb) /* Variations with less parms */ #define CQTEST(quiet, expr) \ CQTESTF (quiet, expr, ("")) #define TEST(expr) \ CQTEST (FALSE, expr) #define QTEST(expr) \ CQTEST (TRUE, expr) #define TESTF(expr, failfmt) \ CQTESTF (FALSE, expr, failfmt) #define QTESTF(expr, failfmt) \ CQTESTF (TRUE, expr, failfmt) #ifndef _DEBUG #define ASSERT(expr) \ do { \ if (!QTEST (expr)) \ printf ("That is fatal. Goodbye\n"), exit (1);\ } while (0) #else static void my_break() { G_BREAKPOINT(); } #define ASSERT(expr) \ do { \ if (!QTEST (expr)) \ printf ("That is fatal. Goodbye\n"), my_break();\ } while (0) #endif #define N(a) (sizeof(a)/sizeof(*a)) static int return_value = 0; static gboolean retval; static gboolean tmpb; static GdkVisual *system_visual; static GdkVisual *best_visual; static GdkWindow *w; static GdkColormap *system_colourmap; static GdkColor white, black, red, green, blue, rand1_colour, rand2_colour; static GdkGC *black_gc, *white_gc, *red_gc, *rand1_gc, *rand2_gc; static GdkGC *gcs[5]; static GdkGC *black_bitmap_gc; static int error (void) { /* Place breakpoint here to catch failures */ return 0; } static gboolean test_visual_coherency (gboolean quiet, GdkVisual *visual) { gboolean retval = TRUE; CQTEST (quiet, visual->type >= GDK_VISUAL_STATIC_GRAY && visual->type <= GDK_VISUAL_DIRECT_COLOR); CQTEST (quiet, visual->depth >= 1 && visual->depth <= 32); CQTEST (quiet, visual->byte_order == GDK_LSB_FIRST || visual->byte_order == GDK_MSB_FIRST); return retval; } /* Test visuals */ static void test_visuals (void) { GdkVisual *visual; GList *visuals; system_visual = gdk_visual_get_system (); ASSERT (system_visual != NULL); TEST (test_visual_coherency (FALSE, system_visual)); best_visual = gdk_visual_get_best (); if (best_visual != system_visual) TEST (test_visual_coherency (TRUE, best_visual)); visuals = gdk_list_visuals (); while (visuals) { visual = visuals->data; TEST (test_visual_coherency (TRUE, visual)); visuals = visuals->next; } } /* Create a top-level window used by other tests */ static void test_first_window (void) { GdkWindowAttr wa; wa.width = 100; wa.height = 100; wa.window_type = GDK_WINDOW_TOPLEVEL; wa.wclass = GDK_INPUT_OUTPUT; w = gdk_window_new (NULL, &wa, 0); ASSERT (w != NULL); } /* Test colourmaps. */ static void test_colourmaps (void) { system_colourmap = gdk_colormap_get_system (); ASSERT (system_colourmap != NULL); } /* Test colours. */ static void test_colours (void) { ASSERT (gdk_color_white (system_colourmap, &white)); ASSERT (gdk_color_black (system_colourmap, &black)); red.red = 65535; red.green = red.blue = 0; TEST (gdk_colormap_alloc_color (system_colourmap, &red, FALSE, TRUE)); rand1_colour.red = rand () % 65536; rand1_colour.green = rand () % 65536; rand1_colour.blue = rand () % 65536; TEST (gdk_colormap_alloc_color (system_colourmap, &rand1_colour, FALSE, TRUE)); rand2_colour.red = rand () % 65536; rand2_colour.green = rand () % 65536; rand2_colour.blue = rand () % 65536; TEST (gdk_colormap_alloc_color (system_colourmap, &rand2_colour, FALSE, TRUE)); } static gboolean test_default_gc (GdkGCValues *gcvalues, gboolean quiet) { gboolean retval = TRUE; CQTEST (quiet, gcvalues->foreground.pixel == 0); CQTEST (quiet, gcvalues->background.pixel == 1); CQTEST (quiet, gcvalues->function == GDK_COPY); CQTEST (quiet, gcvalues->fill == GDK_SOLID); CQTEST (quiet, gcvalues->tile == NULL); CQTEST (quiet, gcvalues->stipple == NULL); CQTEST (quiet, gcvalues->clip_mask == NULL); CQTEST (quiet, gcvalues->subwindow_mode == GDK_CLIP_BY_CHILDREN); CQTEST (quiet, gcvalues->line_width == 0); CQTEST (quiet, gcvalues->line_style == GDK_LINE_SOLID); CQTEST (quiet, gcvalues->cap_style == GDK_CAP_BUTT); CQTEST (quiet, gcvalues->join_style == GDK_JOIN_MITER); return retval; } /* Create GdkGCs with various values, * check that gdk_gc_get_values returns the same, * or something reasonably close. */ static void test_gcs (void) { GdkPixmap *pixmap; GdkGC *gc; GdkGCValues gcvalues; GdkColor colour; GdkFunction function; GdkFill fill; gboolean retval; gc = gdk_gc_new (w); gdk_gc_get_values (gc, &gcvalues); test_default_gc (&gcvalues, FALSE); colour.pixel = 1234; gdk_gc_set_foreground (gc, &colour); gdk_gc_get_values (gc, &gcvalues); TEST (gcvalues.foreground.pixel == 1234); colour.pixel = 0; gdk_gc_set_foreground (gc, &colour); gdk_gc_get_values (gc, &gcvalues); TEST (test_default_gc (&gcvalues, TRUE)); colour.pixel = 5678; gdk_gc_set_background (gc, &colour); gdk_gc_get_values (gc, &gcvalues); TEST (gcvalues.background.pixel == 5678); colour.pixel = 1; gdk_gc_set_background (gc, &colour); gdk_gc_get_values (gc, &gcvalues); TEST (test_default_gc (&gcvalues, TRUE)); retval = TRUE; for (function = GDK_COPY; function <= GDK_SET; function++) { gdk_gc_set_function (gc, function); gdk_gc_get_values (gc, &gcvalues); QTEST (gcvalues.function == function); gdk_gc_set_function (gc, GDK_COPY); gdk_gc_get_values (gc, &gcvalues); QTEST (test_default_gc (&gcvalues, TRUE)); } TEST (retval); retval = TRUE; for (fill = GDK_SOLID; fill <= GDK_OPAQUE_STIPPLED; fill++) { gdk_gc_set_fill (gc, fill); gdk_gc_get_values (gc, &gcvalues); QTEST (gcvalues.fill == fill); gdk_gc_set_fill (gc, GDK_SOLID); gdk_gc_get_values (gc, &gcvalues); QTEST (test_default_gc (&gcvalues, TRUE)); } TEST (retval); black_gc = gdk_gc_new (w); gdk_gc_copy (black_gc, gc); gdk_gc_get_values (black_gc, &gcvalues); TEST (test_default_gc (&gcvalues, TRUE)); g_object_unref (gc); gdk_gc_set_foreground (black_gc, &black); gdk_gc_get_values (black_gc, &gcvalues); TEST (gcvalues.foreground.pixel == black.pixel); white_gc = gdk_gc_new (w); gdk_gc_set_foreground (white_gc, &white); gdk_gc_get_values (white_gc, &gcvalues); TEST (gcvalues.foreground.pixel == white.pixel); red_gc = gdk_gc_new (w); gdk_gc_set_foreground (red_gc, &red); gdk_gc_get_values (red_gc, &gcvalues); TEST (gcvalues.foreground.pixel == red.pixel); rand1_gc = gdk_gc_new (w); gdk_gc_set_foreground (rand1_gc, &rand1_colour); gdk_gc_get_values (rand1_gc, &gcvalues); TESTF (gcvalues.foreground.pixel == rand1_colour.pixel, (" %#06x != %#06x", gcvalues.foreground.pixel, rand1_colour.pixel)); rand2_gc = gdk_gc_new (w); gdk_gc_set_foreground (rand2_gc, &rand2_colour); gdk_gc_get_values (rand2_gc, &gcvalues); TESTF (gcvalues.foreground.pixel == rand2_colour.pixel, (" %#06x != %#06x", gcvalues.foreground.pixel, rand2_colour.pixel)); gcs[0] = black_gc; gcs[1] = white_gc; gcs[2] = red_gc; gcs[3] = rand1_gc; gcs[4] = rand2_gc; pixmap = gdk_pixmap_new (NULL, 1, 1, 1); black_bitmap_gc = gdk_gc_new (pixmap); g_object_unref (pixmap); } /* Create pixmaps, check that properties are as expected. * No graphic operations tested yet. */ static void test_pixmaps (gint depth) { GdkPixmap *pixmap; GdkImage *image; GdkGC *gc; gint width, height; gint w, h; gboolean retval = TRUE; for (width = 1; width <= 64; width += 2) for (height = 1; height <= 32; height += 3) { pixmap = gdk_pixmap_new (NULL, width, height, depth); ASSERT (pixmap != NULL); gdk_window_get_size (pixmap, &w, &h); QTESTF (w == width, (" w:%d", w)); QTESTF (h == height, (" h:%d", h)); image = gdk_drawable_get_image (pixmap, 0, 0, w, h); QTEST (image != NULL); QTEST (image->width == width); QTEST (image->height == height); QTEST (image->depth == depth); g_object_unref (image); g_object_unref (pixmap); } TEST (retval); } /* Ditto for images. */ static void test_images (void) { GdkImage *image; GdkImageType image_type; gint width, height; gboolean retval = TRUE; for (width = 1; width <= 64; width += 3) for (height = 1; height <= 32; height += 7) for (image_type = GDK_IMAGE_NORMAL; image_type <= GDK_IMAGE_FASTEST; image_type++) { image = gdk_image_new (image_type, system_visual, width, height); if (image == NULL && image_type == GDK_IMAGE_SHARED) /* Ignore failure to create shared image, * display might not be local. */ ; else { ASSERT (image != NULL); QTEST (image->width == width); QTEST (image->height == height); QTEST (image->depth == system_visual->depth); QTEST (image->bpp >= (image->depth-1)/8 + 1); QTEST (image->mem != NULL); g_object_unref (image); } } TEST (retval); } /* Test creating temp windows. */ static void test_temp_windows (void) { GdkWindow *window; GdkWindowAttr wa; GdkVisual *visual; gint width, height; gint w, h, x, y, d; gboolean retval = TRUE; wa.window_type = GDK_WINDOW_TEMP; wa.wclass = GDK_INPUT_OUTPUT; for (width = 1; width <= 64; width += 4) for (height = 1; height <= 32; height += 7) { wa.width = width; wa.height = height; window = gdk_window_new (NULL, &wa, 0); ASSERT (window != NULL); gdk_window_get_geometry (window, &x, &y, &w, &h, &d); QTESTF (w == width, ("w:%d", w)); QTESTF (h == height, ("h:%d", h)); gdk_window_show (window); gdk_window_get_geometry (window, &x, &y, &w, &h, &d); QTESTF (w == width, ("w:%d", w)); QTESTF (h == height, ("h:%d", h)); gdk_window_resize (window, 37, 19); gdk_window_get_geometry (window, &x, &y, &w, &h, &d); QTESTF (w == 37, ("w:%d", w)); QTESTF (h == 19, ("h:%d", h)); visual = gdk_window_get_visual (window); QTEST (visual == system_visual); gdk_window_hide (window); gdk_window_unref (window); } TEST (retval); } static void test_gc_function (GdkFunction function, guint32 oldpixel, guint32 newpixel, guint32 foreground, guint32 mask) { switch (function) { case GDK_COPY: QTEST (newpixel == (foreground & mask)); break; case GDK_INVERT: QTEST (newpixel == ((~oldpixel) & mask)); break; case GDK_XOR: QTEST (newpixel == ((oldpixel ^ foreground) & mask)); break; case GDK_CLEAR: QTEST (newpixel == 0); break; case GDK_AND: QTEST (newpixel == ((oldpixel & foreground) & mask)); break; case GDK_AND_REVERSE: QTEST (newpixel == (((~oldpixel) & foreground) & mask)); break; case GDK_AND_INVERT: QTEST (newpixel == ((oldpixel & (~foreground)) & mask)); break; case GDK_NOOP: QTEST (newpixel == (oldpixel & mask)); break; case GDK_OR: QTEST (newpixel == ((oldpixel | foreground) & mask)); break; case GDK_EQUIV: QTEST (newpixel == ((oldpixel ^ (~foreground)) & mask)); break; case GDK_OR_REVERSE: QTEST (newpixel == (((~oldpixel) | foreground) & mask)); break; case GDK_COPY_INVERT: QTEST (newpixel == ((~foreground) & mask)); break; case GDK_OR_INVERT: QTEST (newpixel == ((oldpixel | (~foreground)) & mask)); break; case GDK_NAND: QTEST (newpixel == (((~oldpixel) | (~foreground)) & mask)); break; case GDK_NOR: QTEST (newpixel == (~oldpixel & ~mask)); break; case GDK_SET: QTEST (newpixel == ((~0) & mask)); break; default: ASSERT (FALSE); } } static void test_one_point_on_drawable (GdkDrawable *drawable, GdkGC *gc, int depth) { GdkImage *image; GdkGCValues gcvalues; gint xoff, yoff; guint32 oldpixels[3][3], newpixel, mask; const gint x = 4; const gint y = 5; gdk_gc_get_values (gc, &gcvalues); image = gdk_drawable_get_image (drawable, x+-1, y+-1, 3, 3); QTEST (image != NULL); for (xoff = -1; xoff <= 1; xoff++) for (yoff = -1; yoff <= 1; yoff++) { oldpixels[xoff+1][yoff+1] = gdk_image_get_pixel (image, xoff+1, yoff+1); } g_object_unref (image); if (depth == 32) mask = 0xFFFFFFFF; else mask = (1 << depth) - 1; gdk_draw_point (drawable, gc, x, y); image = gdk_drawable_get_image (drawable, x-1, y-1, 3, 3); QTEST (image != NULL); for (xoff = -1; xoff <= 1; xoff++) for (yoff = -1; yoff <= 1; yoff++) { newpixel = gdk_image_get_pixel (image, xoff+1, yoff+1); if (xoff == 0 && yoff == 0) test_gc_function (gcvalues.function, oldpixels[1][1], newpixel, gcvalues.foreground.pixel, mask); else QTEST (newpixel == oldpixels[xoff+1][yoff+1]); } g_object_unref (image); } /* Test drawing points. */ static void test_points (void) { GdkPixmap *pixmap; GdkWindow *window; GdkFunction function; gint width, height; int i, j; width = 8; height = 8; pixmap = gdk_pixmap_new (w, width, height, -1); for (i = 0; i < N(gcs); i++) for (j = 0; j < N(gcs); j++) for (function = GDK_COPY; function <= GDK_SET; function++) { gdk_draw_rectangle (pixmap, gcs[i], TRUE, 0, 0, width, height); gdk_gc_set_function (gcs[j], function); test_one_point_on_drawable (pixmap, gcs[j], system_visual->depth); gdk_gc_set_function (gcs[j], GDK_COPY); } g_object_unref (pixmap); pixmap = gdk_pixmap_new (w, width, height, 1); test_one_point_on_drawable (pixmap, black_bitmap_gc, 1); for (function = GDK_COPY; function <= GDK_SET; function++) { gdk_gc_set_function (black_bitmap_gc, function); test_one_point_on_drawable (pixmap, black_bitmap_gc, 1); } g_object_unref (pixmap); } static void test_one_line_on_drawable (GdkDrawable *drawable, GdkGC *gc, int depth, gboolean horisontal) { GdkImage *oldimage, *newimage; GdkGCValues gcvalues; gint line_width; gint w, h; gint w_up, w_down, w_left, w_right; gint x, y; guint32 oldpixel, newpixel, mask; gdk_gc_get_values (gc, &gcvalues); line_width = gcvalues.line_width > 0 ? gcvalues.line_width : 1; w_up = w_left = line_width/2; w_down = w_right = (line_width & 1) ? line_width/2 : line_width/2-1; gdk_window_get_size (drawable, &w, &h); oldimage = gdk_drawable_get_image (drawable, 0, 0, w, h); if (depth == 32) mask = 0xFFFFFFFF; else mask = (1 << depth) - 1; if (horisontal) { const gint x1 = 10; const gint y1 = 10; const gint x2 = 13; const gint y2 = y1; gdk_draw_line (drawable, gc, x1, y1, x2, y2); newimage = gdk_drawable_get_image (drawable, 0, 0, w, h); for (x = x1-1; x <= x2+1; x++) for (y = y1-w_up-1; y <= y1+w_down+1; y++) { oldpixel = gdk_image_get_pixel (oldimage, x, y); newpixel = gdk_image_get_pixel (newimage, x, y); if (x >= x1 && x < x2 && y >= y1-w_up && y <= y1+w_down) test_gc_function (gcvalues.function, oldpixel, newpixel, gcvalues.foreground.pixel, mask); else QTEST (oldpixel == newpixel); } } else /* vertical */ { const gint x1 = 10; const gint y1 = 10; const gint x2 = 10; const gint y2 = 13; gdk_draw_line (drawable, gc, x1, y1, x2, y2); newimage = gdk_drawable_get_image (drawable, 0, 0, w, h); for (x = x1-w_left-1; x <= x1+w_right+1; x++) for (y = y1-1; y <= y2+1; y++) { oldpixel = gdk_image_get_pixel (oldimage, x, y); newpixel = gdk_image_get_pixel (newimage, x, y); if (x >= x1-w_left && x <= x1+w_right && y >= y1 && y < y2) test_gc_function (gcvalues.function, oldpixel, newpixel, gcvalues.foreground.pixel, mask); else QTEST (oldpixel == newpixel); } } g_object_unref (oldimage); g_object_unref (newimage); } /* Test drawing lines. */ static void test_lines (void) { GdkPixmap *pixmap; GdkFunction function; gint width; int i, j; gboolean horisontal = TRUE; pixmap = gdk_pixmap_new (w, 30, 30, -1); for (i = 0; i < N(gcs); i++) for (j = 0; j < N(gcs); j++) for (function = GDK_COPY; function <= GDK_SET; function++) for (width = 1; width <= 4; width++) { gdk_draw_rectangle (pixmap, gcs[i], TRUE, 0, 0, 30, 30); gdk_gc_set_function (gcs[j], function); gdk_gc_set_line_attributes (gcs[j], width, GDK_LINE_SOLID, GDK_CAP_BUTT, GDK_JOIN_MITER); test_one_line_on_drawable (pixmap, gcs[j], system_visual->depth, horisontal); /* Toggle between horisontal and vertical... */ horisontal = !horisontal; gdk_gc_set_function (gcs[j], GDK_COPY); } g_object_unref (pixmap); } static void test_one_rectangle_on_drawable (GdkDrawable *drawable, GdkGC *gc, int depth, gboolean filled) { GdkImage *oldimage, *newimage; GdkGCValues gcvalues; gint line_width; gint w, h; gint w_up, w_down, w_left, w_right; gint x, y; guint32 oldpixel, newpixel, mask; const gint x0 = 10; const gint y0 = 13; const gint width = 7; const gint height = 9; gdk_gc_get_values (gc, &gcvalues); if (!filled) { line_width = gcvalues.line_width > 0 ? gcvalues.line_width : 1; w_up = w_left = line_width/2; w_down = w_right = (line_width & 1) ? line_width/2 : line_width/2-1; } gdk_window_get_size (drawable, &w, &h); oldimage = gdk_drawable_get_image (drawable, 0, 0, w, h); if (depth == 32) mask = 0xFFFFFFFF; else mask = (1 << depth) - 1; gdk_draw_rectangle (drawable, gc, filled, x0, y0, width, height); newimage = gdk_drawable_get_image (drawable, 0, 0, w, h); for (x = x0 - 1; x <= x0 + width + 1; x++) for (y = y0 - 1; y < y0 + height + 1; y++) { oldpixel = gdk_image_get_pixel (oldimage, x, y); newpixel = gdk_image_get_pixel (newimage, x, y); if (filled) { if (x >= x0 && x < x0+width && y >= y0 && y < y0+height) test_gc_function (gcvalues.function, oldpixel, newpixel, gcvalues.foreground.pixel, mask); else QTEST (oldpixel == newpixel); } else { if ((x >= x0-w_left && x <= x0+width+w_right && y >= y0-w_up && y <= y0+w_down) || (x >= x0-w_left && x <= x0+width+w_right && y >= y0+height-w_up && y <= y0+height+w_down) || (x >= x0-w_left && x <= x0+w_right && y >= y0-w_up && y <= y0+height+w_down) || (x >= x0+width-w_left && x <= x0+width+w_right && y >= y0-w_up && y <= y0+height+w_down)) test_gc_function (gcvalues.function, oldpixel, newpixel, gcvalues.foreground.pixel, mask); else QTEST (oldpixel == newpixel); } } g_object_unref (oldimage); g_object_unref (newimage); } /* Test drawing rectangles. */ static void test_rectangles (void) { GdkPixmap *pixmap; GdkFunction function; gint width; int i, j; gboolean filled = FALSE; pixmap = gdk_pixmap_new (w, 30, 30, -1); for (i = 0; i < N(gcs); i++) for (j = 0; j < N(gcs); j++) for (function = GDK_COPY; function <= GDK_SET; function++) for (width = 1; width <= 4; width++) { gdk_draw_rectangle (pixmap, gcs[i], TRUE, 0, 0, 30, 30); gdk_gc_set_function (gcs[j], function); gdk_gc_set_line_attributes (gcs[j], width, GDK_LINE_SOLID, GDK_CAP_BUTT, GDK_JOIN_MITER); test_one_rectangle_on_drawable (pixmap, gcs[j], system_visual->depth, filled); filled = !filled; gdk_gc_set_function (gcs[j], GDK_COPY); } g_object_unref (pixmap); } static void test_some_arcs_on_drawable (GdkDrawable *drawable, GdkGC *gc, int depth, gboolean filled) { GdkImage *oldimage, *newimage; GdkGCValues gcvalues; gint line_width; gint w, h; gint w_up, w_down, w_left, w_right; gint x, y; guint32 oldpixel, newpixel, mask; /* XXX */ const gint x0 = 10; const gint y0 = 13; const gint width = 7; const gint height = 9; gdk_gc_get_values (gc, &gcvalues); if (!filled) { line_width = gcvalues.line_width > 0 ? gcvalues.line_width : 1; w_up = w_left = line_width/2; w_down = w_right = (line_width & 1) ? line_width/2 : line_width/2-1; } gdk_window_get_size (drawable, &w, &h); oldimage = gdk_drawable_get_image (drawable, 0, 0, w, h); if (depth == 32) mask = 0xFFFFFFFF; else mask = (1 << depth) - 1; /* XXX */ newimage = gdk_drawable_get_image (drawable, 0, 0, w, h); for (x = x0 - 1; x <= x0 + width + 1; x++) for (y = y0 - 1; y < y0 + height + 1; y++) { oldpixel = gdk_image_get_pixel (oldimage, x, y); newpixel = gdk_image_get_pixel (newimage, x, y); if (filled) { /* XXX */ } else { /* XXX */ } } g_object_unref (oldimage); g_object_unref (newimage); } /* Test drawing arcs. Results don't have to be exactly as on X11, * but "close". */ static void test_arcs (void) { GdkPixmap *pixmap; GdkFunction function; gint width; int i, j; gboolean filled = FALSE; pixmap = gdk_pixmap_new (w, 30, 30, -1); for (i = 0; i < N(gcs); i++) for (j = 0; j < N(gcs); j++) for (function = GDK_COPY; function <= GDK_SET; function++) for (width = 1; width <= 4; width++) { gdk_draw_rectangle (pixmap, gcs[i], TRUE, 0, 0, 30, 30); gdk_gc_set_function (gcs[j], function); gdk_gc_set_line_attributes (gcs[j], width, GDK_LINE_SOLID, GDK_CAP_BUTT, GDK_JOIN_MITER); test_some_arcs_on_drawable (pixmap, gcs[j], system_visual->depth, filled); filled = !filled; gdk_gc_set_function (gcs[j], GDK_COPY); } g_object_unref (pixmap); } /* Test region operations. */ static void test_regions (void) { } static void tests (void) { srand (time (NULL)); test_visuals (); test_first_window (); test_colourmaps (); test_colours (); test_gcs (); test_pixmaps (1); test_pixmaps (system_visual->depth); if (best_visual->depth != system_visual->depth) test_pixmaps (best_visual->depth); test_images (); test_temp_windows (); test_points (); test_lines (); test_rectangles (); test_arcs (); test_regions (); } int main (int argc, char **argv) { GLogLevelFlags fatal_mask; gdk_init (&argc, &argv); fatal_mask = g_log_set_always_fatal (G_LOG_FATAL_MASK); fatal_mask |= G_LOG_LEVEL_WARNING | G_LOG_LEVEL_CRITICAL; g_log_set_always_fatal (fatal_mask); tests (); return return_value; }