/* $XConsortium: pexocp.90.2.c,v 1.0 93/11/22 12:34:58 rws Exp $ */ /******************************************************************************/ /* */ /* (c) Copyright Hewlett-Packard Company, 1993, Fort Collins, Colorado */ /* */ /* All Rights Reserved */ /* */ /* Permission to use, copy, modify, and distribute this software and its */ /* documentation for any purpose and without fee is hereby granted, */ /* provided that the above copyright notices appear in all copies and that */ /* both the copyright notices and this permission notice appear in */ /* supporting documentation, and that the name of Hewlett-Packard not be */ /* used in advertising or publicity pertaining to distribution of the */ /* software without specific, written prior permission. */ /* */ /* HEWLETT-PACKARD MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS */ /* SOFTWARE, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF */ /* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Hewlett-Packard */ /* shall not be liable for errors contained herein or direct, indirect, */ /* special, incidental or consequential damages in connection with the */ /* furnishing, performance or use of this software. */ /* */ /******************************************************************************/ #include #include /* * PEXlib FillArea 2D: Test Case 2 (fewer than 3 vertices) */ draw_image (Display *dpy, XID resourceID, PEXOCRequestType req_type) { PEXCoord2D points_1[5], points_2[3], points_3[2]; PEXCoord2D points_4[1], points_6[5]; PEXCoord points_5[8]; PEXColor p_surface_color, p_edge_color; /* Set up some data. */ points_1[0].x = 0.1; points_1[0].y = 0.1; points_1[1].x = 0.3; points_1[1].y = 0.1; points_1[2].x = 0.3; points_1[2].y = 0.3; points_1[3].x = 0.1; points_1[3].y = 0.3; points_1[4].x = 0.1; points_1[4].y = 0.1; points_2[0].x = 0.7; points_2[0].y = 0.1; points_2[1].x = 0.9; points_2[1].y = 0.1; points_2[2].x = 0.9; points_2[2].y = 0.3; points_3[0].x = 0.7; points_3[0].y = 0.7; points_3[1].x = 0.9; points_3[1].y = 0.7; points_4[0].x = 0.1; points_4[0].y = 0.7; points_5[0].x = 0.45; points_5[0].y = 0.45; points_5[0].z = 0.5; points_5[1].x = 0.50; points_5[1].y = 0.25; points_5[1].z = 0.5; points_5[2].x = 0.55; points_5[2].y = 0.45; points_5[2].z = 0.5; points_5[3].x = 0.75; points_5[3].y = 0.50; points_5[3].z = 0.5; points_5[4].x = 0.55; points_5[4].y = 0.55; points_5[4].z = 0.5; points_5[5].x = 0.50; points_5[5].y = 0.75; points_5[5].z = 0.5; points_5[6].x = 0.45; points_5[6].y = 0.55; points_5[6].z = 0.5; points_5[7].x = 0.25; points_5[7].y = 0.50; points_5[7].z = 0.5; PEXSetSurfaceEdgeFlag(dpy, resourceID, req_type, PEXOn); p_surface_color.rgb.red = 1.0; p_surface_color.rgb.green = 0.0; p_surface_color.rgb.blue = 1.0; PEXSetSurfaceColor(dpy, resourceID, req_type, PEXColorTypeRGB, &p_surface_color); PEXSetInteriorStyle(dpy, resourceID, req_type, PEXInteriorStyleHollow); PEXFillArea2D(dpy, resourceID, req_type, PEXShapeNonConvex, True, 5, points_1); p_surface_color.rgb.red = 0.0; p_surface_color.rgb.green = 0.0; p_surface_color.rgb.blue = 1.0; PEXSetSurfaceColor(dpy, resourceID, req_type, PEXColorTypeRGB, &p_surface_color); PEXFillArea2D(dpy, resourceID, req_type, PEXShapeNonConvex, False, 3, points_2); PEXSetInteriorStyle(dpy, resourceID, req_type, PEXInteriorStyleSolid); PEXFillArea2D(dpy, resourceID, req_type, PEXShapeNonConvex, True, 2, points_3); PEXFillArea2D(dpy, resourceID, req_type, PEXShapeNonConvex, False, 1, points_4); p_edge_color.rgb.red = 1.0; p_edge_color.rgb.green = 0.0; p_edge_color.rgb.blue = 0.0; PEXSetSurfaceEdgeColor(dpy, resourceID, req_type, PEXColorTypeRGB, &p_edge_color); p_surface_color.rgb.red = 0.0; p_surface_color.rgb.green = 1.0; p_surface_color.rgb.blue = 0.0; PEXSetSurfaceColor(dpy, resourceID, req_type, PEXColorTypeRGB, &p_surface_color); PEXFillArea(dpy, resourceID, req_type, PEXShapeNonConvex, False, 8, points_5); p_edge_color.rgb.red = 1.0; p_edge_color.rgb.green = 0.0; p_edge_color.rgb.blue = 1.0; PEXSetSurfaceEdgeColor(dpy, resourceID, req_type, PEXColorTypeRGB, &p_edge_color); p_surface_color.rgb.red = 1.0; p_surface_color.rgb.green = 1.0; p_surface_color.rgb.blue = 1.0; PEXSetSurfaceColor(dpy, resourceID, req_type, PEXColorTypeRGB, &p_surface_color); PEXFillArea2D(dpy, resourceID, req_type, PEXShapeNonConvex, False, 0, NULL); } void inquire_test_params(char *test_name, int *num_images, int *supported_modes, char *win_title) { strcpy(test_name, "pexocp.90.2"); *num_images = 1; *supported_modes = IMM_MODE | STR_MODE | WKS_MODE; strcpy(win_title, "pexocp.90.2"); } void misc_setup(Display *dpy, Window window, PEXRenderer renderer, int cur_image) { unsigned long mask = PEXRAHLHSRMode; PEXRendererAttributes attrs; attrs.hlhsr_mode = PEXHLHSRZBuffer; PEXChangeRenderer(dpy, renderer, mask, &attrs); } void execute_test(Display *dpy, XID resourceID, PEXOCRequestType req_type, int cur_image) { describe_test(" \nPEXFillArea2D with RGB Colors (3 & fewer vertices)\n"); describe_test(" The image you should see consists of a solid green star\n"); describe_test(" with red edges in the middle of the screen.\n"); describe_test(" In the lower left corner is a hollow magenta square,\n"); describe_test(" and in the lower right corner is a hollow white \n"); describe_test(" triangle.\n\n"); draw_image(dpy, resourceID, req_type); } void testproc(Display *dpy, Window window, int cur_image) { image_testproc("pexocp.90.2", "pexocp.90.2", img_desc, dpy,window, 0, 0, glob_window_width, glob_window_height); }