int Game_Init(void *parms) { // this function is where you do all the initialization // for your game // start up DirectDraw (replace the parms as you desire) DDraw_Init(WINDOW_WIDTH, WINDOW_HEIGHT, WINDOW_BPP, WINDOWED_APP); // initialize directinput DInput_Init(); // acquire the keyboard DInput_Init_Keyboard(); // add calls to acquire other directinput devices here... // initialize directsound and directmusic DSound_Init(); DMusic_Init(); // hide the mouse if (!WINDOWED_APP) ShowCursor(FALSE); // seed random number generator srand(Start_Clock()); Open_Error_File("ERROR.TXT"); // initialize math engine Build_Sin_Cos_Tables(); // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles NULL, // no target 50.0, // near and far clipping planes 500.0, 90.0, // field of view in degrees WINDOW_WIDTH, // size of final screen viewport WINDOW_HEIGHT); // load the cube Load_OBJECT4DV1_PLG(&obj, "cube2.plg",&vscale, &vpos, &vrot); // set the position of the cube in the world obj.world_pos.x = 0; obj.world_pos.y = 0; obj.world_pos.z = 100; // return success return(1); } // end Game_Init
static void resize(int width, int height) { //glViewport(0, 0, width, height); g_width = width; g_height = height; min_clip_y = 0; max_clip_y = height; min_clip_x = 0; max_clip_x = width; Init_CAM4DV1(&cam, CAM_MODEL_EULER, &cam.pos, &cam.dir, &cam.target, 1.0f, 1000.0f, 90, width, height); AllocBuffer(width * height); }
void cam3D_init(void) { // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles NULL, // no target 50.0, // near and far clipping planes 500.0, 90.0, // field of view in degrees GRAPHICS_RIGHT, // size of final screen viewport GRAPHICS_BOTTOM); }
int Game_Init(void *parms) { // this function is where you do all the initialization // for your game int index; // looping var // start up DirectDraw (replace the parms as you desire) DDraw_Init(WINDOW_WIDTH, WINDOW_HEIGHT, WINDOW_BPP, WINDOWED_APP); // initialize directinput DInput_Init(); // acquire the keyboard DInput_Init_Keyboard(); // add calls to acquire other directinput devices here... // initialize directsound and directmusic DSound_Init(); DMusic_Init(); // hide the mouse if (!WINDOWED_APP) ShowCursor(FALSE); // seed random number generator srand(Start_Clock()); Open_Error_File("ERROR.TXT"); // initialize math engine Build_Sin_Cos_Tables(); // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles &cam_target, // no target 200.0, // near and far clipping planes 12000.0, 120.0, // field of view in degrees WINDOW_WIDTH, // size of final screen viewport WINDOW_HEIGHT); // load the master tank object VECTOR4D_INITXYZ(&vscale,0.75,0.75,0.75); Load_OBJECT4DV1_PLG(&obj_tank, "tank2.plg",&vscale, &vpos, &vrot); // load player object for 3rd person view VECTOR4D_INITXYZ(&vscale,0.75,0.75,0.75); Load_OBJECT4DV1_PLG(&obj_player, "tank3.plg",&vscale, &vpos, &vrot); // load the master tower object VECTOR4D_INITXYZ(&vscale,1.0, 2.0, 1.0); Load_OBJECT4DV1_PLG(&obj_tower, "tower1.plg",&vscale, &vpos, &vrot); // load the master ground marker VECTOR4D_INITXYZ(&vscale,3.0,3.0,3.0); Load_OBJECT4DV1_PLG(&obj_marker, "marker1.plg",&vscale, &vpos, &vrot); // position the tanks for (index = 0; index < NUM_TANKS; index++) { // randomly position the tanks tanks[index].x = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); tanks[index].y = 0; // obj_tank.max_radius; tanks[index].z = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); tanks[index].w = RAND_RANGE(0,360); } // end for // position the towers for (index = 0; index < NUM_TOWERS; index++) { // randomly position the tower towers[index].x = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); towers[index].y = 0; // obj_tower.max_radius; towers[index].z = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); } // end for // return success return(1); } // end Game_Init
int Game_Init(void *parms) { // this function is where you do all the initialization // for your game int index; // looping var // start up DirectDraw (replace the parms as you desire) DDraw_Init2(WINDOW_WIDTH, WINDOW_HEIGHT, WINDOW_BPP, WINDOWED_APP,0); // initialize directinput DInput_Init(); // acquire the keyboard DInput_Init_Keyboard(); // add calls to acquire other directinput devices here... // initialize directsound and directmusic DSound_Init(); DMusic_Init(); // hide the mouse if (!WINDOWED_APP) ShowCursor(FALSE); // seed random number generator srand(Start_Clock()); Open_Error_File("MD2ERROR.TXT"); // initialize math engine Build_Sin_Cos_Tables(); // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles &cam_target, // no target 10.0, // near and far clipping planes 12000.0, 90.0, // field of view in degrees WINDOW_WIDTH, // size of final screen viewport WINDOW_HEIGHT); VECTOR4D terrain_pos = {0,0,0,0}; Generate_Terrain_OBJECT4DV2(&obj_terrain, // pointer to object TERRAIN_WIDTH, // width in world coords on x-axis TERRAIN_HEIGHT, // height (length) in world coords on z-axis TERRAIN_SCALE, // vertical scale of terrain "height_grass_40_40_01.bmp", // filename of height bitmap encoded in 256 colors "stone256_256_01.bmp", // "grass256_256_01.bmp", //"checker2562562.bmp", // filename of texture map RGB16Bit(255,255,255), // color of terrain if no texture &terrain_pos, // initial position NULL, // initial rotations POLY4DV2_ATTR_RGB16 //| POLY4DV2_ATTR_SHADE_MODE_FLAT | POLY4DV2_ATTR_SHADE_MODE_GOURAUD | POLY4DV2_ATTR_SHADE_MODE_TEXTURE); // set a scaling vector VECTOR4D_INITXYZ(&vscale, 20, 20, 20); // load all the light objects in for (int index_obj=0; index_obj < NUM_LIGHT_OBJECTS; index_obj++) { Load_OBJECT4DV2_COB2(&obj_light_array[index_obj], object_light_filenames[index_obj], &vscale, &vpos, &vrot, VERTEX_FLAGS_INVERT_WINDING_ORDER | VERTEX_FLAGS_TRANSFORM_LOCAL | VERTEX_FLAGS_TRANSFORM_LOCAL_WORLD ,0 ); } // end for index // set current object curr_light_object = 0; obj_light = &obj_light_array[curr_light_object]; // set up lights Reset_Lights_LIGHTV2(lights2, MAX_LIGHTS); // create some working colors white.rgba = _RGBA32BIT(255,255,255,0); gray.rgba = _RGBA32BIT(100,100,100,0); black.rgba = _RGBA32BIT(0,0,0,0); red.rgba = _RGBA32BIT(255,0,0,0); green.rgba = _RGBA32BIT(0,255,0,0); blue.rgba = _RGBA32BIT(0,0,255,0); orange.rgba = _RGBA32BIT(255,128,0,0); yellow.rgba = _RGBA32BIT(255,255,0,0); // ambient light Init_Light_LIGHTV2(lights2, AMBIENT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_AMBIENT, // ambient light type gray, black, black, // color for ambient term only NULL, NULL, // no need for pos or dir 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D dlight_dir = {-1,1,-1,1}; // directional light Init_Light_LIGHTV2(lights2, INFINITE_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_INFINITE, // infinite light type black, gray, black, // color for diffuse term only NULL, &dlight_dir, // need direction only 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D plight_pos = {0,500,0,1}; // point light Init_Light_LIGHTV2(lights2, POINT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_POINT, // pointlight type black, orange, black, // color for diffuse term only &plight_pos, NULL, // need pos only 0,.001,0, // linear attenuation only 0,0,1); // spotlight info NA // point light Init_Light_LIGHTV2(lights2, POINT_LIGHT2_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_POINT, // pointlight type black, yellow, black, // color for diffuse term only &plight_pos, NULL, // need pos only 0,.002,0, // linear attenuation only 0,0,1); // spotlight info NA VECTOR4D slight2_pos = {0,200,0,1}; VECTOR4D slight2_dir = {-1,1,-1,1}; // create lookup for lighting engine RGB_16_8_IndexedRGB_Table_Builder(DD_PIXEL_FORMAT565, // format we want to build table for palette, // source palette rgblookup); // lookup table // create the z buffer Create_Zbuffer(&zbuffer, WINDOW_WIDTH, WINDOW_HEIGHT, ZBUFFER_ATTR_32BIT); // build alpha lookup table RGB_Alpha_Table_Builder(NUM_ALPHA_LEVELS, rgb_alpha_table); // load background sounds wind_sound_id = DSound_Load_WAV("STATIONTHROB.WAV"); // start the sounds DSound_Play(wind_sound_id, DSBPLAY_LOOPING); DSound_Set_Volume(wind_sound_id, 100); #if 0 // load in the cockpit image Create_BOB(&cockpit, 0,0,800,600,2, BOB_ATTR_VISIBLE | BOB_ATTR_SINGLE_FRAME, DDSCAPS_SYSTEMMEMORY, 0, 16); Load_Bitmap_File(&bitmap16bit, "lego02.BMP"); Load_Frame_BOB16(&cockpit, &bitmap16bit,0,0,0,BITMAP_EXTRACT_MODE_ABS); Unload_Bitmap_File(&bitmap16bit); Load_Bitmap_File(&bitmap16bit, "lego02b.BMP"); Load_Frame_BOB16(&cockpit, &bitmap16bit,1,0,0,BITMAP_EXTRACT_MODE_ABS); Unload_Bitmap_File(&bitmap16bit); #endif // load background image that scrolls Load_Bitmap_File(&bitmap16bit, "sunset800_600_03.bmp"); Create_Bitmap(&background_bmp,0,0,800,600,16); Load_Image_Bitmap16(&background_bmp, &bitmap16bit,0,0,BITMAP_EXTRACT_MODE_ABS); Unload_Bitmap_File(&bitmap16bit); static VECTOR4D vs = {4,4,4,1}; static VECTOR4D vp = {0,0,0,1}; // load the md2 object Load_Object_MD2(&obj_md2, // the loaded md2 file placed in container "./md2/q2mdl-tekkblade/tris.md2", // "D:/Games/quakeII/baseq2/players/male/tris.md2", // the filename of the .MD2 model &vs, &vp, NULL, "./md2/q2mdl-tekkblade/blade_black.bmp", //"D:/Games/quakeII/baseq2/players/male/claymore.bmp", // the texture filename for the model POLY4DV2_ATTR_RGB16 | POLY4DV2_ATTR_SHADE_MODE_FLAT | POLY4DV2_ATTR_SHADE_MODE_TEXTURE, RGB16Bit(255,255,255), VERTEX_FLAGS_SWAP_YZ); // control ordering etc. // prepare OBJECT4DV2 for md2 Prepare_OBJECT4DV2_For_MD2(&obj_model, // pointer to destination object &obj_md2); // md2 object to extract frame from // set the animation Set_Animation_MD2(&obj_md2,MD2_ANIM_STATE_STANDING_IDLE, MD2_ANIM_LOOP); #if 0 // play with these for more speed :) // set single precission _control87( _PC_24, _MCW_PC ); // set to flush mode _control87( _DN_FLUSH, _MCW_DN ); // set rounding mode _control87( _RC_NEAR, _MCW_RC ); #endif // return success return(1); } // end Game_Init
int Game_Init(void *parms) { // this function is where you do all the initialization // for your game int index; // looping var // start up DirectDraw (replace the parms as you desire) DDraw_Init(WINDOW_WIDTH, WINDOW_HEIGHT, WINDOW_BPP, WINDOWED_APP); // initialize directinput DInput_Init(); // acquire the keyboard DInput_Init_Keyboard(); // add calls to acquire other directinput devices here... // initialize directsound and directmusic DSound_Init(); DMusic_Init(); // hide the mouse if (!WINDOWED_APP) ShowCursor(FALSE); // seed random number generator srand(Start_Clock()); Open_Error_File("ERROR.TXT"); // initialize math engine Build_Sin_Cos_Tables(); // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles &cam_target, // no target 200.0, // near and far clipping planes 12000.0, 120.0, // field of view in degrees WINDOW_WIDTH, // size of final screen viewport WINDOW_HEIGHT); // load constant shaded water VECTOR4D_INITXYZ(&vscale,10.00,10.00,10.00); Load_OBJECT4DV2_COB(&obj_constant_water,"water_constant_01.cob", &vscale, &vpos, &vrot, VERTEX_FLAGS_SWAP_YZ | VERTEX_FLAGS_TRANSFORM_LOCAL | VERTEX_FLAGS_TRANSFORM_LOCAL_WORLD ); // load flat shaded water VECTOR4D_INITXYZ(&vscale,10.00,10.00,10.00); Load_OBJECT4DV2_COB(&obj_flat_water,"water_flat_01.cob", &vscale, &vpos, &vrot, VERTEX_FLAGS_SWAP_YZ | VERTEX_FLAGS_TRANSFORM_LOCAL | VERTEX_FLAGS_TRANSFORM_LOCAL_WORLD ); // load gouraud shaded water VECTOR4D_INITXYZ(&vscale,10.00,10.00,10.00); Load_OBJECT4DV2_COB(&obj_gouraud_water,"water_gouraud_01.cob", &vscale, &vpos, &vrot, VERTEX_FLAGS_SWAP_YZ | VERTEX_FLAGS_TRANSFORM_LOCAL | VERTEX_FLAGS_TRANSFORM_LOCAL_WORLD ); // set up lights Reset_Lights_LIGHTV1(); // create some working colors white.rgba = _RGBA32BIT(255,255,255,0); gray.rgba = _RGBA32BIT(100,100,100,0); black.rgba = _RGBA32BIT(0,0,0,0); red.rgba = _RGBA32BIT(255,0,0,0); green.rgba = _RGBA32BIT(0,255,0,0); blue.rgba = _RGBA32BIT(0,0,255,0); // ambient light Init_Light_LIGHTV1(AMBIENT_LIGHT_INDEX, LIGHTV1_STATE_ON, // turn the light on LIGHTV1_ATTR_AMBIENT, // ambient light type gray, black, black, // color for ambient term only NULL, NULL, // no need for pos or dir 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D dlight_dir = {-1,0,-1,0}; // directional light Init_Light_LIGHTV1(INFINITE_LIGHT_INDEX, LIGHTV1_STATE_ON, // turn the light on LIGHTV1_ATTR_INFINITE, // infinite light type black, gray, black, // color for diffuse term only NULL, &dlight_dir, // need direction only 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D plight_pos = {0,200,0,0}; // point light Init_Light_LIGHTV1(POINT_LIGHT_INDEX, LIGHTV1_STATE_ON, // turn the light on LIGHTV1_ATTR_POINT, // pointlight type black, green, black, // color for diffuse term only &plight_pos, NULL, // need pos only 0,.001,0, // linear attenuation only 0,0,1); // spotlight info NA VECTOR4D slight2_pos = {0,200,0,0}; VECTOR4D slight2_dir = {-1,0,-1,0}; // spot light2 Init_Light_LIGHTV1(SPOT_LIGHT2_INDEX, LIGHTV1_STATE_ON, // turn the light on LIGHTV1_ATTR_SPOTLIGHT2, // spot light type 2 black, red, black, // color for diffuse term only &slight2_pos, &slight2_dir, // need pos only 0,.001,0, // linear attenuation only 0,0,1); // create lookup for lighting engine RGB_16_8_IndexedRGB_Table_Builder(DD_PIXEL_FORMAT565, // format we want to build table for palette, // source palette rgblookup); // lookup table // return success return(1); } // end Game_Init
int Game_Init(void *parms) { // this function is where you do all the initialization // for your game int index; // looping var // start up DirectDraw (replace the parms as you desire) DDraw_Init2(WINDOW_WIDTH, WINDOW_HEIGHT, WINDOW_BPP, WINDOWED_APP,1); // initialize directinput DInput_Init(); // acquire the keyboard DInput_Init_Keyboard(); // add calls to acquire other directinput devices here... // initialize directsound and directmusic DSound_Init(); DMusic_Init(); // hide the mouse if (!WINDOWED_APP) ShowCursor(FALSE); // seed random number generator srand(Start_Clock()); Open_Error_File("ERROR.TXT"); // initialize math engine Build_Sin_Cos_Tables(); // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles &cam_target, // no target 10.0, // near and far clipping planes 12000.0, 120.0, // field of view in degrees WINDOW_WIDTH, // size of final screen viewport WINDOW_HEIGHT); // set a scaling vector VECTOR4D_INITXYZ(&vscale,20.00,20.00,20.00); // load all the objects in for (int index_obj=0; index_obj < NUM_OBJECTS; index_obj++) { Load_OBJECT4DV2_COB2(&obj_array[index_obj], object_filenames[index_obj], &vscale, &vpos, &vrot, VERTEX_FLAGS_SWAP_YZ | VERTEX_FLAGS_TRANSFORM_LOCAL // | VERTEX_FLAGS_TRANSFORM_LOCAL_WORLD | VERTEX_FLAGS_INVERT_TEXTURE_V ,0 ); } // end for index_obj // set current object curr_object = 0; obj_work = &obj_array[curr_object]; // position the scenery objects randomly for (index = 0; index < NUM_SCENE_OBJECTS; index++) { // set master object link scene_objects[index].obj = obj_work; // randomly position object scene_objects[index].pos.x = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); scene_objects[index].pos.y = RAND_RANGE(-200, 200); scene_objects[index].pos.z = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); scene_objects[index].rot.y = RAND_RANGE(0,360); scene_objects[index].auxi[0] = RAND_RANGE(1,5); // set state of object container scene_objects[index].state = ((OBJECT4DV2_PTR)scene_objects[index].obj)->state; // set attributes scene_objects[index].attr = ((OBJECT4DV2_PTR)scene_objects[index].obj)->attr; } // end for // set up lights Reset_Lights_LIGHTV2(lights2, MAX_LIGHTS); // create some working colors white.rgba = _RGBA32BIT(255,255,255,0); gray.rgba = _RGBA32BIT(150,150,150,0); black.rgba = _RGBA32BIT(0,0,0,0); red.rgba = _RGBA32BIT(255,0,0,0); green.rgba = _RGBA32BIT(0,255,0,0); blue.rgba = _RGBA32BIT(0,0,255,0); // ambient light Init_Light_LIGHTV2(lights2, // array of lights to work with AMBIENT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_AMBIENT, // ambient light type gray, black, black, // color for ambient term only NULL, NULL, // no need for pos or dir 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D dlight_dir = {-1,0,-1,1}; // directional light Init_Light_LIGHTV2(lights2, // array of lights to work with INFINITE_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_INFINITE, // infinite light type black, gray, black, // color for diffuse term only NULL, &dlight_dir, // need direction only 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D plight_pos = {0,200,0,1}; // point light Init_Light_LIGHTV2(lights2, // array of lights to work with POINT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_POINT, // pointlight type black, green, black, // color for diffuse term only &plight_pos, NULL, // need pos only 0,.002,0, // linear attenuation only 0,0,1); // spotlight info NA VECTOR4D slight2_pos = {0,1000,0,1}; VECTOR4D slight2_dir = {-1,0,-1,1}; // spot light2 Init_Light_LIGHTV2(lights2, // array of lights to work with SPOT_LIGHT2_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_SPOTLIGHT2, // spot light type 2 black, red, black, // color for diffuse term only &slight2_pos, &slight2_dir, // need pos only 0,.001,0, // linear attenuation only 0,0,1); // create lookup for lighting engine RGB_16_8_IndexedRGB_Table_Builder(DD_PIXEL_FORMAT565, // format we want to build table for palette, // source palette rgblookup); // lookup table // create the z buffer Create_Zbuffer(&zbuffer, WINDOW_WIDTH, WINDOW_HEIGHT, ZBUFFER_ATTR_32BIT); // create the alpha lookup table RGB_Alpha_Table_Builder(NUM_ALPHA_LEVELS, rgb_alpha_table); // load in the background Create_BOB(&background, 0,0,800,600,1, BOB_ATTR_VISIBLE | BOB_ATTR_SINGLE_FRAME, DDSCAPS_SYSTEMMEMORY, 0, 16); Load_Bitmap_File(&bitmap16bit, "nebblue01.bmp"); Load_Frame_BOB16(&background, &bitmap16bit,0,0,0,BITMAP_EXTRACT_MODE_ABS); Unload_Bitmap_File(&bitmap16bit); // build the bounding hierarchical volume tree with 3 divisions per level BHV_Build_Tree(&bhv_tree, scene_objects, NUM_SCENE_OBJECTS, 0, 3, UNIVERSE_RADIUS); // return success return(1); } // end Game_Init
int Game_Init(void *parms) { // this function is where you do all the initialization // for your game int index; // looping var // start up DirectDraw (replace the parms as you desire) DDraw_Init2(WINDOW_WIDTH, WINDOW_HEIGHT, WINDOW_BPP, WINDOWED_APP,0); // initialize directinput DInput_Init(); // acquire the keyboard DInput_Init_Keyboard(); // add calls to acquire other directinput devices here... // initialize directsound and directmusic DSound_Init(); DMusic_Init(); // hide the mouse if (!WINDOWED_APP) ShowCursor(FALSE); // seed random number generator srand(Start_Clock()); Open_Error_File("ERROR.TXT"); // initialize math engine Build_Sin_Cos_Tables(); // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles &cam_target, // no target 10.0, // near and far clipping planes 12000.0, 120.0, // field of view in degrees WINDOW_WIDTH, // size of final screen viewport WINDOW_HEIGHT); #if 0 VECTOR4D terrain_pos = {0,0,0,0}; Generate_Terrain_OBJECT4DV2(&obj_terrain, // pointer to object TERRAIN_WIDTH, // width in world coords on x-axis TERRAIN_HEIGHT, // height (length) in world coords on z-axis TERRAIN_SCALE, // vertical scale of terrain "checkerheight05.bmp", // filename of height bitmap encoded in 256 colors "checker256256.bmp", // filename of texture map RGB16Bit(255,255,255), // color of terrain if no texture &terrain_pos, // initial position NULL, // initial rotations POLY4DV2_ATTR_RGB16 | POLY4DV2_ATTR_SHADE_MODE_CONSTANT // | POLY4DV2_ATTR_SHADE_MODE_FLAT // | POLY4DV2_ATTR_SHADE_MODE_GOURAUD | POLY4DV2_ATTR_SHADE_MODE_TEXTURE); #endif // set a scaling vector VECTOR4D_INITXYZ(&vscale,TERRAIN_WIDTH,1.00,TERRAIN_HEIGHT); // set position VECTOR4D_INITXYZ(&vpos, 0, 0, 0); Load_OBJECT4DV2_COB2(&obj_terrain, "plane01.cob", &vscale, &vpos, &vrot, VERTEX_FLAGS_SWAP_YZ | VERTEX_FLAGS_TRANSFORM_LOCAL /* VERTEX_FLAGS_TRANSFORM_LOCAL_WORLD*/,0 ); // set a scaling vector VECTOR4D_INITXYZ(&vscale,60.00,60.00,60.00); // load all the objects in for (int index_obj=0; index_obj < NUM_OBJECTS; index_obj++) { Load_OBJECT4DV2_COB2(&obj_array[index_obj], object_filenames[index_obj], &vscale, &vpos, &vrot, VERTEX_FLAGS_SWAP_YZ | VERTEX_FLAGS_TRANSFORM_LOCAL /* VERTEX_FLAGS_TRANSFORM_LOCAL_WORLD*/,0 ); } // end for index_obj // position the scenery objects randomly for (index = 0; index < NUM_SCENE_OBJECTS; index++) { // randomly position object scene_objects[index].x = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); scene_objects[index].y = 75; // RAND_RANGE(-(UNIVERSE_RADIUS/2), (UNIVERSE_RADIUS/2)); scene_objects[index].z = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); // select random object, use w to store value scene_objects[index].w = RAND_RANGE(0,NUM_OBJECTS-1); } // end for // select random velocities for (index = 0; index < NUM_SCENE_OBJECTS; index++) { // randomly position object scene_objects_vel[index].x = RAND_RANGE(-MAX_VEL, MAX_VEL); scene_objects_vel[index].y = 0; // RAND_RANGE(-MAX_VEL, MAX_VEL); scene_objects_vel[index].z = RAND_RANGE(-MAX_VEL, MAX_VEL); } // end for // set up lights Reset_Lights_LIGHTV2(lights2, MAX_LIGHTS); // create some working colors white.rgba = _RGBA32BIT(255,255,255,0); gray.rgba = _RGBA32BIT(150,150,150,0); black.rgba = _RGBA32BIT(0,0,0,0); red.rgba = _RGBA32BIT(255,0,0,0); green.rgba = _RGBA32BIT(0,255,0,0); blue.rgba = _RGBA32BIT(0,0,255,0); // ambient light Init_Light_LIGHTV2(lights2, // array of lights to work with AMBIENT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_AMBIENT, // ambient light type gray, black, black, // color for ambient term only NULL, NULL, // no need for pos or dir 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D dlight_dir = {-1,0,-1,1}; // directional light Init_Light_LIGHTV2(lights2, // array of lights to work with INFINITE_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_INFINITE, // infinite light type black, gray, black, // color for diffuse term only NULL, &dlight_dir, // need direction only 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D plight_pos = {0,200,0,1}; // point light Init_Light_LIGHTV2(lights2, // array of lights to work with POINT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_POINT, // pointlight type black, green, black, // color for diffuse term only &plight_pos, NULL, // need pos only 0,.002,0, // linear attenuation only 0,0,1); // spotlight info NA VECTOR4D slight2_pos = {0,1000,0,1}; VECTOR4D slight2_dir = {-1,0,-1,1}; // spot light2 Init_Light_LIGHTV2(lights2, // array of lights to work with SPOT_LIGHT2_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_SPOTLIGHT2, // spot light type 2 black, red, black, // color for diffuse term only &slight2_pos, &slight2_dir, // need pos only 0,.001,0, // linear attenuation only 0,0,1); // create lookup for lighting engine RGB_16_8_IndexedRGB_Table_Builder(DD_PIXEL_FORMAT565, // format we want to build table for palette, // source palette rgblookup); // lookup table // create the z buffer Create_Zbuffer(&zbuffer, WINDOW_WIDTH, WINDOW_HEIGHT, ZBUFFER_ATTR_32BIT); // build alpha lookup table RGB_Alpha_Table_Builder(NUM_ALPHA_LEVELS, rgb_alpha_table); // load in the background Create_BOB(&background, 0,0,800,600,1, BOB_ATTR_VISIBLE | BOB_ATTR_SINGLE_FRAME, DDSCAPS_SYSTEMMEMORY, 0, 16); Load_Bitmap_File(&bitmap16bit, "cloud03.bmp"); Load_Frame_BOB16(&background, &bitmap16bit,0,0,0,BITMAP_EXTRACT_MODE_ABS); Unload_Bitmap_File(&bitmap16bit); // return success return(1); } // end Game_Init
int Game_Init(void *parms) { // this function is where you do all the initialization // for your game int index; // looping var // start up DirectDraw (replace the parms as you desire) DDraw_Init(WINDOW_WIDTH, WINDOW_HEIGHT, WINDOW_BPP, WINDOWED_APP); // initialize directinput DInput_Init(); // acquire the keyboard DInput_Init_Keyboard(); // add calls to acquire other directinput devices here... // initialize directsound and directmusic DSound_Init(); DMusic_Init(); // hide the mouse if (!WINDOWED_APP) ShowCursor(FALSE); // seed random number generator srand(Start_Clock()); Open_Error_File("ERROR.TXT"); // initialize math engine Build_Sin_Cos_Tables(); // initialize the camera with 90 FOV, normalized coordinates Init_CAM4DV1(&cam, // the camera object CAM_MODEL_EULER, // the euler model &cam_pos, // initial camera position &cam_dir, // initial camera angles &cam_target, // no target 40.0, // near and far clipping planes 12000.0, 90.0, // field of view in degrees WINDOW_WIDTH, // size of final screen viewport WINDOW_HEIGHT); VECTOR4D terrain_pos = {0,0,0,0}; Generate_Terrain_OBJECT4DV2(&obj_terrain, // pointer to object TERRAIN_WIDTH, // width in world coords on x-axis TERRAIN_HEIGHT, // height (length) in world coords on z-axis TERRAIN_SCALE, // vertical scale of terrain "checkerheight01.bmp", // filename of height bitmap encoded in 256 colors "checker256256.bmp", // filename of texture map RGB16Bit(255,255,255), // color of terrain if no texture &terrain_pos, // initial position NULL, // initial rotations POLY4DV2_ATTR_RGB16 | POLY4DV2_ATTR_SHADE_MODE_FLAT // | POLY4DV2_ATTR_SHADE_MODE_GOURAUD | POLY4DV2_ATTR_SHADE_MODE_TEXTURE); // the shading attributes we would like // set up lights Reset_Lights_LIGHTV2(lights2, MAX_LIGHTS); // create some working colors white.rgba = _RGBA32BIT(255,255,255,0); gray.rgba = _RGBA32BIT(100,100,100,0); black.rgba = _RGBA32BIT(0,0,0,0); red.rgba = _RGBA32BIT(255,0,0,0); green.rgba = _RGBA32BIT(0,255,0,0); blue.rgba = _RGBA32BIT(0,0,255,0); // ambient light Init_Light_LIGHTV2(lights2, AMBIENT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_AMBIENT, // ambient light type gray, black, black, // color for ambient term only NULL, NULL, // no need for pos or dir 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D dlight_dir = {-1,1,-1,1}; // directional light Init_Light_LIGHTV2(lights2, INFINITE_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_INFINITE, // infinite light type black, gray, black, // color for diffuse term only NULL, &dlight_dir, // need direction only 0,0,0, // no need for attenuation 0,0,0); // spotlight info NA VECTOR4D plight_pos = {0,200,0,1}; // point light Init_Light_LIGHTV2(lights2, POINT_LIGHT_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_POINT, // pointlight type black, green, black, // color for diffuse term only &plight_pos, NULL, // need pos only 0,.001,0, // linear attenuation only 0,0,1); // spotlight info NA // point light Init_Light_LIGHTV2(lights2, POINT_LIGHT2_INDEX, LIGHTV2_STATE_ON, // turn the light on LIGHTV2_ATTR_POINT, // pointlight type black, blue, black, // color for diffuse term only &plight_pos, NULL, // need pos only 0,.002,0, // linear attenuation only 0,0,1); // spotlight info NA VECTOR4D slight2_pos = {0,200,0,1}; VECTOR4D slight2_dir = {-1,1,-1,1}; // create lookup for lighting engine RGB_16_8_IndexedRGB_Table_Builder(DD_PIXEL_FORMAT565, // format we want to build table for palette, // source palette rgblookup); // lookup table // create the z buffer Create_Zbuffer(&zbuffer, WINDOW_WIDTH, WINDOW_HEIGHT, ZBUFFER_ATTR_32BIT); // load background sounds wind_sound_id = DSound_Load_WAV("WIND.WAV"); // start the sounds DSound_Play(wind_sound_id, DSBPLAY_LOOPING); DSound_Set_Volume(wind_sound_id, 100); #if 0 // load in the cockpit image Load_Bitmap_File(&bitmap16bit, "lego01.BMP"); Create_BOB(&cockpit, 0,0,800,600,1, BOB_ATTR_VISIBLE | BOB_ATTR_SINGLE_FRAME, DDSCAPS_SYSTEMMEMORY, 0, 16); Load_Frame_BOB16(&cockpit, &bitmap16bit,0,0,0,BITMAP_EXTRACT_MODE_ABS); Unload_Bitmap_File(&bitmap16bit); #endif // set single precission //_control87( _PC_24, MCW_PC ); // return success return(1); } // end Game_Init
static void init() { Build_Sin_Cos_Tables(); RGB16Bit = RGB16Bit565; //glClearColor(0, 0, 0, 1); //glEnable(GL_CULL_FACE); //glCullFace(GL_BACK); //glEnable(GL_DEPTH_TEST); //glDepthFunc(GL_LESS); //glPolygonMode(GL_FRONT_AND_BACK, GL_LINE); VECTOR4D cam_pos = {0, 40, 40, 1}; VECTOR4D cam_dir = {0, 0, 0, 1}; VECTOR4D cam_tar = { 0, 0, 0, 1}; Init_CAM4DV1(&cam, CAM_MODEL_EULER, &cam_pos, &cam_dir, &cam_tar, 1.0f, 12000.0f, 90, WINDOW_WIDTH, WINDOW_HEIGHT); VECTOR4D vscale = { 1.0f, 1.0f, 1.0f, 1.0f }; VECTOR4D vpos = { 0.0f, 0, 0, 1.0f }; VECTOR4D vrot = { 0.0f, 180.0f, 0.0f, 1.0f }; //Load_OBJECT4DV1_PLG(&obj, "model/towerg1.plg", &vScale, &vPos, &vRot); // load the master tank object VECTOR4D_INITXYZ(&vscale, 0.75, 0.75, 0.75); Load_OBJECT4DV1_PLG(&obj_tank, "model/tank2.plg", &vscale, &vpos, &vrot); // load player object for 3rd person view VECTOR4D_INITXYZ(&vscale, 0.75, 0.75, 0.75); Load_OBJECT4DV1_PLG(&obj_player, "model/tank3.plg", &vscale, &vpos, &vrot); // load the master tower object VECTOR4D_INITXYZ(&vscale, 1.0, 2.0, 1.0); Load_OBJECT4DV1_PLG(&obj_tower, "model/tower1.plg", &vscale, &vpos, &vrot); // load the master ground marker VECTOR4D_INITXYZ(&vscale, 3.0, 3.0, 3.0); Load_OBJECT4DV1_PLG(&obj_marker, "model/marker1.plg", &vscale, &vpos, &vrot); // position the tanks for (int index = 0; index < NUM_TANKS; index++) { // randomly position the tanks tanks[index].x = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); tanks[index].y = 0; // obj_tank.max_radius; tanks[index].z = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); tanks[index].w = RAND_RANGE(0, 360); } // end for // position the towers for (int index = 0; index < NUM_TOWERS; index++) { // randomly position the tower towers[index].x = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); towers[index].y = 0; // obj_tower.max_radius; towers[index].z = RAND_RANGE(-UNIVERSE_RADIUS, UNIVERSE_RADIUS); } // end for RGBAV1 ambient; ambient.a = 255; ambient.r = 128; ambient.g = 128; ambient.b = 128; RGBAV1 diffuse; diffuse.a = 255; diffuse.r = 255; diffuse.g = 255; diffuse.b = 255; RGBAV1 specular; specular.a = 255; specular.r = 255; specular.g = 255; specular.b = 255; VECTOR4D lightPos = {200, 200, 200, 1}; VECTOR4D lightDir = { 1, 1, 1, 1 }; //Init_Light_LIGHTV1(0, LIGHTV1_STATE_ON, LIGHTV1_ATTR_AMBIENT, ambient, diffuse, specular, &lightPos, &lightDir, 0, 0, 0, 0, 0, 0); Init_Light_LIGHTV1(0, LIGHTV1_STATE_ON, LIGHTV1_ATTR_INFINITE, ambient, diffuse, specular, &lightPos, &lightDir, 0, 0, 0, 0, 0, 0); //Init_Light_LIGHTV1(0, LIGHTV1_STATE_ON, LIGHTV1_ATTR_POINT, ambient, diffuse, specular, &lightPos, &lightDir, 1, 0, 0, 0, 0, 0); //Init_Light_LIGHTV1(0, LIGHTV1_STATE_ON, LIGHTV1_ATTR_SPOTLIGHT1, ambient, diffuse, specular, &lightPos, &lightDir, 1, 0, 0, 5, 20, 10); //Init_Light_LIGHTV1(0, LIGHTV1_STATE_ON, LIGHTV1_ATTR_SPOTLIGHT2, ambient, diffuse, specular, &lightPos, &lightDir, 1, 0, 0, 30, 60, 10); //LoadBmp(); //indexBuffer = new GLuint[obj.num_polys * 3]; //glGenVertexArrays(NumVAOs, VAOs); //glBindVertexArray(VAOs[VAO_1]); //glGenBuffers(NumBuffers, Buffers); //glBindBuffer(GL_ARRAY_BUFFER, Buffers[ArrayBuffer]); //glBufferData(GL_ARRAY_BUFFER, sizeof(POINT4D)* obj.num_vertices, NULL, GL_DYNAMIC_DRAW); // //glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, Buffers[ElementBuffer]); //glVertexAttribPointer(vPosition, 4, GL_FLOAT, GL_FALSE, 0, 0); //glEnableVertexAttribArray(vPosition); //ShaderInfo shaders[] = { // { GL_VERTEX_SHADER, "shader/common.vert" }, // { GL_FRAGMENT_SHADER, "shader/common.frag" }, // { GL_NONE, NULL } //}; //GLuint program = LoadShaders(shaders); //glUseProgram(program); }