/* $XConsortium: surf_attrs_push.c,v 1.0 93/11/22 12:32:10 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 #include #include #include #include #define HPPEXHatchStyle45Degrees 0x80070001 #define HPPEXHatchStyle135Degrees 0x80070002 #include #define X_START 0.35 #define Y_START 0.95 #define X_SIZE 0.1 #define Y_SIZE 0.1 #define X_INCREMENT 0.2 #define Y_INCREMENT 0.15 #define AMBIENT_LIGHT 1 #define WIDTH_1 2.0 #define WIDTH_2 4.0 #define OFFSET_VERTICAL \ { \ int i; \ for (i=0; i<5; i++) \ { \ front_face[i].y -= Y_INCREMENT; \ back_face[i].y -= Y_INCREMENT; \ } \ } PEXCoord2D front_face[5] = {X_START , Y_START, X_START ,(Y_START-Y_SIZE), (X_START+X_SIZE),(Y_START-Y_SIZE), (X_START+X_SIZE), Y_START, X_START , Y_START}; PEXCoord2D back_face[5] = {(X_START+X_INCREMENT) , Y_START, (X_START+X_SIZE+X_INCREMENT), Y_START, (X_START+X_SIZE+X_INCREMENT),(Y_START-Y_SIZE), (X_START+X_INCREMENT) ,(Y_START-Y_SIZE), (X_START+X_INCREMENT) , Y_START}; void setup_attrs1(Display *dpy, XID resource_id, PEXOCRequestType request_type) { PEXTableIndex enable_lights[1] = {AMBIENT_LIGHT}; PEXSetBFSurfaceColorIndex (dpy, resource_id, request_type, BLUE); PEXSetSurfaceColorIndex (dpy, resource_id, request_type, RED); PEXSetSurfaceEdgeColorIndex(dpy, resource_id, request_type, YELLOW); PEXSetSurfaceEdgeFlag (dpy, resource_id, request_type, PEXOn); PEXSetSurfaceEdgeType (dpy, resource_id, request_type, PEXSurfaceEdgeDashed); PEXSetBFInteriorStyle (dpy, resource_id, request_type, PEXInteriorStyleHatch); PEXSetBFInteriorStyleIndex (dpy, resource_id, request_type, HPPEXHatchStyle135Degrees); PEXSetInteriorStyle (dpy, resource_id, request_type, PEXInteriorStyleHatch); PEXSetInteriorStyleIndex (dpy, resource_id, request_type, HPPEXHatchStyle45Degrees); PEXSetFacetCullingMode (dpy, resource_id, request_type, PEXNone); PEXSetFacetDistinguishFlag (dpy, resource_id, request_type, True); PEXSetSurfaceEdgeWidth (dpy, resource_id, request_type, WIDTH_1); PEXSetInteriorBundleIndex (dpy, resource_id, request_type, 1); PEXSetEdgeBundleIndex (dpy, resource_id, request_type, 1); PEXSetBFReflectionModel (dpy, resource_id, request_type, PEXReflectionNone); PEXSetReflectionModel (dpy, resource_id, request_type, PEXReflectionNone); PEXSetLightSourceState (dpy, resource_id, request_type, 1, enable_lights, 0, NULL); } void setup_attrs2(Display *dpy, XID resource_id, PEXOCRequestType request_type) { PEXSetBFSurfaceColorIndex (dpy, resource_id, request_type, CYAN); PEXSetSurfaceColorIndex (dpy, resource_id, request_type, GREEN); PEXSetSurfaceEdgeColorIndex(dpy, resource_id, request_type, WHITE); PEXSetSurfaceEdgeFlag (dpy, resource_id, request_type, PEXOff); PEXSetSurfaceEdgeType (dpy, resource_id, request_type, PEXSurfaceEdgeSolid); PEXSetBFInteriorStyle (dpy, resource_id, request_type, PEXInteriorStyleSolid); PEXSetBFInteriorStyleIndex (dpy, resource_id, request_type, HPPEXHatchStyle45Degrees); PEXSetInteriorStyle (dpy, resource_id, request_type, PEXInteriorStyleSolid); PEXSetInteriorStyleIndex (dpy, resource_id, request_type, HPPEXHatchStyle135Degrees); PEXSetFacetCullingMode (dpy, resource_id, request_type, PEXBackFaces); PEXSetFacetDistinguishFlag (dpy, resource_id, request_type, False); PEXSetSurfaceEdgeWidth (dpy, resource_id, request_type, WIDTH_2); PEXSetInteriorBundleIndex (dpy, resource_id, request_type, 2); PEXSetEdgeBundleIndex (dpy, resource_id, request_type, 2); PEXSetBFReflectionModel (dpy, resource_id, request_type, PEXReflectionAmbient); PEXSetReflectionModel (dpy, resource_id, request_type, PEXReflectionAmbient); } void set_bundled_attrs(Display *dpy, XID resource_id, PEXOCRequestType request_type) { /* * Set all InteriorBundle attributes to bundled */ PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFInteriorStyle, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFInteriorStyleIndex, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceColor, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFReflectionAttr, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFReflectionModel, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceInterp, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFInteriorStyle, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFInteriorStyleIndex, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFSurfaceColor, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFReflectionAttr, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFReflectionModel, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFSurfaceInterp, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceApprox, PEXBundled); /* * Set all EdgeBundle attributes to bundled */ PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdges, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdgeType, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdgeWidth, PEXBundled); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdgeColor, PEXBundled); } void set_individual_attrs(Display *dpy, XID resource_id, PEXOCRequestType request_type) { /* * Set all InteriorBundle attributes back to individual */ PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFInteriorStyle, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFInteriorStyleIndex, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceColor, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFReflectionAttr, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFReflectionModel, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceInterp, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFInteriorStyle, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFInteriorStyleIndex, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFSurfaceColor, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFReflectionAttr, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFReflectionModel, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFBFSurfaceInterp, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceApprox, PEXIndividual); /* * Set all EdgeBundle attributes back to Individual */ PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdges, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdgeType, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdgeWidth, PEXIndividual); PEXSetIndividualASF(dpy, resource_id, request_type, PEXASFSurfaceEdgeColor, PEXIndividual); } void draw_areas(Display *dpy, XID resource_id, PEXOCRequestType request_type) { set_individual_attrs(dpy, resource_id, request_type); PEXFillArea2D(dpy, resource_id, request_type, PEXShapeUnknown, False, 5, front_face); PEXFillArea2D(dpy, resource_id, request_type, PEXShapeUnknown, False, 5, back_face); OFFSET_VERTICAL set_bundled_attrs(dpy, resource_id, request_type); PEXFillArea2D(dpy, resource_id, request_type, PEXShapeUnknown, False, 5, front_face); PEXFillArea2D(dpy, resource_id, request_type, PEXShapeUnknown, False, 5, back_face); OFFSET_VERTICAL set_individual_attrs(dpy, resource_id, request_type); } void inquire_test_params(char *test_name, int *num_images, int *supported_modes, char *win_title) { strcpy(test_name, "surf_attrs_push"); *num_images = 1; *supported_modes = IMM_MODE | STR_MODE | WKS_MODE; strcpy(win_title, "Surf Attrs Push/Pop"); } void misc_setup(Display *dpy, Window window, PEXRenderer renderer, int cur_image) { } void execute_test(Display *dpy, XID resourceID, PEXOCRequestType req_type, int cur_image) { PEXStructure sid; sid = PEXCreateStructure(dpy); if (sid == None) { _hppex_stderr_print("PROCESS ERROR: create_structure failed\n"); exit (1); } describe_test("\nImage 1\n"); describe_test(" Row 1 - Front, red hatch 45, yellow edge\n"); describe_test(" Back, blue hatch 135, yellow edge\n"); describe_test(" Row 2 - Default interior/edge bundle entries\n"); describe_test(" Execute Structure\n"); describe_test(" Row 3 - Front, green, solid, no edges\n"); describe_test(" Back, CULLED\n"); describe_test(" Row 4 - Interior/edge bundle entry ambient grey, cyan edge\n"); describe_test(" Back, CULLED\n"); describe_test(" After pop_state\n"); describe_test(" Row 5 - Front, red hatch 45, yellow edge\n"); describe_test(" Back, blue hatch 135, yellow edge\n"); describe_test(" Row 6 - Default interior/edge bundle entries\n"); setup_attrs1(dpy, resourceID, req_type); draw_areas (dpy, resourceID, req_type); setup_attrs2(dpy, sid, PEXOCStore); draw_areas(dpy, sid, PEXOCStore); PEXExecuteStructure (dpy, resourceID, req_type, sid); draw_areas(dpy, resourceID, req_type); } void testproc(Display *dpy, Window window, int cur_image) { image_testproc("surf_attrs_push", "Surf Attrs Push/Pop", img_desc, dpy,window, 0, 0, glob_window_width, glob_window_height); }