int main(int argc, char* argv[]) { // Build your scene and setup your camera here, by calling // functions from Raytracer. The code here sets up an example // scene and renders it from two different view points, DO NOT // change this if you're just implementing part one of the // assignment. Raytracer raytracer; int width = 320; int height = 240; if (argc == 3) { width = atoi(argv[1]); height = atoi(argv[2]); } // Camera parameters. Point3D eye(0., 0., 1.); Vector3D view(0., 0., -1.); Vector3D up(0., 1., 0.); double fov = 60; // Defines a material for shading. Material::Ptr gold = std::make_shared<Material>( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2 ); Material::Ptr jade = std::make_shared<Material>( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), Colour(0.316228, 0.316228, 0.316228), 12.8 ); // Defines a point light source. raytracer.addLightSource( std::make_shared<PointLight>(Point3D(0., 0., 5.), Colour(0.9, 0.9, 0.9) ) ); // Add a unit square into the scene with material mat. SceneDagNode::Ptr sphere = raytracer.addObject( std::make_shared<UnitSphere>(), gold ); SceneDagNode::Ptr plane = raytracer.addObject( std::make_shared<UnitSquare>(), jade ); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 6.0 }; raytracer.translate(sphere, Vector3D(0., 0., -5.)); raytracer.rotate(sphere, 'x', -45); raytracer.rotate(sphere, 'z', 45); raytracer.scale(sphere, Point3D(0., 0., 0.), factor1); raytracer.translate(plane, Vector3D(0., 0., -7.)); raytracer.rotate(plane, 'z', 45); raytracer.scale(plane, Point3D(0., 0., 0.), factor2); // Render the scene, feel free to make the image smaller for // testing purposes. raytracer.render(width, height, eye, view, up, fov, "view1.bmp"); // Render it from a different point of view. Point3D eye2(4., 2., 1.); Vector3D view2(-4., -2., -6.); raytracer.render(width, height, eye2, view2, up, fov, "view2.bmp"); return 0; }
int main(int argc, char* argv[]) { // Build your scene and setup your camera here, by calling // functions from Raytracer. The code here sets up an example // scene and renders it from two different view points, DO NOT // change this if you're just implementing part one of the // assignment. Raytracer raytracer; int width = 320; int height = 240; int aa = 2; int sceneNum = 0; double toRadian = 2*M_PI/360.0; fprintf(stderr, "Using options:\n"); #ifdef USE_EXTENDEDLIGHTS fprintf(stderr, "\tExtended light sources\n"); #else fprintf(stderr, "\tPoint light sources\n"); #endif #ifdef USE_REFRACTIONS fprintf(stderr, "\tRefractions\n"); #else fprintf(stderr, "\tNo refractions\n"); #endif #ifdef USE_REFLECTIONS fprintf(stderr, "\tReflections\n"); #else fprintf(stderr, "\tNo reflections\n"); #endif #ifdef IGNORE_SHADOWS fprintf(stderr, "\tNo shadows\n"); #else { #ifdef USE_TRANSMISSIONSHADOWS fprintf(stderr, "\tTransmission-based shadows\n"); #else fprintf(stderr, "\tSimple shadows\n"); #endif } #endif #ifdef USE_FINERFLUX fprintf(stderr, "\tFiner numerical flux intergrations\n"); #else fprintf(stderr, "\tCoarser numerical flux intergrations\n"); #endif if (argc == 3) { width = atoi(argv[1]); height = atoi(argv[2]); } else if (argc == 4) { width = atoi(argv[1]); height = atoi(argv[2]); aa = atoi(argv[3]); } else if (argc == 5) { width = atoi(argv[1]); height = atoi(argv[2]); aa = atoi(argv[3]); sceneNum = atoi(argv[4]); } // SceneNum should not exceed total scenes if ((sceneNum > 3)|| (sceneNum <0)) { sceneNum = 0; } // Camera parameters. Point3D eye(0, 0, 1); Vector3D view(0, 0, -1); Vector3D up(0, 1, 0); double fov = 60; // Defines materials for shading. Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2, 0.001, 0.0, 1/2.4 ); Material jade( Colour(0.22, 0.38, 0.33), Colour(0.52, 0.73, 0.57), Colour(0.316228, 0.316228, 0.316228), 12.8, 0.2 , 0.0, 0.0 ); Material polishedGold( Colour(0.24725, 0.2245, 0.0645), Colour(0.34615, 0.3143, 0.0903), Colour(0.797357, 0.723991, 0.208006), 83.2, 0.01,0.0,0.0); Material glass( Colour(0.15, 0.15, 0.15), Colour(0.08, 0.08, 0.08), Colour(0.2, 0.2, 0.2), 50.1,0.08,0.9,0.6667 ); Material glass1( Colour(0.2, 0.2, 0.2), Colour(0.2, 0.2, 0.2), Colour(0.7, 0.7, 0.7), 10.1,0.03,0.9,0.6667 ); Material steel( Colour(0.1, 0.1, 0.1), Colour(0.1, 0.1, 0.1), Colour(0.8, 0.8, 0.8), 80, 0.03, 0.0, 1.0 ); Material blueSolid( Colour(0, 0, 1), Colour(0, 0, 1), Colour(0, 0, 0), 0, 0.0, 0.0, 1.0 ); Material redSolid( Colour(1, 0, 0), Colour(1, 0, 0), Colour(0, 0, 0), 0, 0.0, 0.0, 1.0 ); Material chrome( Colour(0.25, 0.25, 0.25), Colour(0.4,0.4,0.4), Colour(0.7746, 0.7746, 0.7746), 77, 0.42, 0.0, 1.0); Material ruby( Colour(0.1745, 0.01175, 0.01175), Colour(0.61424, 0.04136, 0.04136), Colour(0.727811, 0.626959, 0.626959) , 76.8, 0.01, 0.0, 0.565); Material pearl( Colour(0.25, 0.20725, 0.20725), Colour(1, 0.829, 0.829), Colour(0.296648, 0.296648, 0.296648), 11.264, 0.1,0.0,1.0 ); Material silver(Colour(0.23125, 0.23125, 0.23125), Colour(0.2775, 0.2775, 0.2775), Colour(0.773911, 0.773911, 0.773911), 89.6, 0.4,0.0, 1.0); Material emerald(Colour(0.0215, 0.1745, 0.0215),Colour(0.07568, 0.61424, 0.07568), Colour(0.633, 0.727811, 0.633), 76.8, 0.1, 0.25, 0.637); Material brass(Colour(0.329412, 0.223529, 0.027451),Colour(0.780392, 0.568627, 0.113725), Colour(0.992157, 0.941176, 0.807843),27.8974, 0.3, 0.0, 1.0 ); Material bronze(Colour(0.2125, 0.1275, 0.054), Colour(0.714, 0.4284, 0.18144), Colour(0.393548, 0.271906, 0.166721), 25.6, 0.1, 0.0, 1.0 ); Material bronzeShiny(Colour(0.25, 0.148, 0.06475), Colour(0.4, 0.2368, 0.1036), Colour(0.774597, 0.458561, 0.200621), 76.86, 0.15, 0.0, 1.0 ); Material turquoise(Colour(0.1, 0.18725, 0.1745), Colour(0.396, 0.74151, 0.69102), Colour(0.297254, 0.30829, 0.306678), 12.8, 0.01, 0.2, 0.9); Material obsidian(Colour(0.05375, 0.05, 0.06625), Colour(0.18275, 0.17, 0.22525), Colour(0.332741, 0.328634, 0.346435), 38.4, 0.05, 0.18, 0.413); Material copper(Colour(0.19125, 0.0735, 0.0225), Colour(0.7038, 0.27048, 0.0828), Colour(0.256777, 0.137622, 0.086014), 12.8, 0.1, 0.0, 1.0 ); Material copperPolished(Colour(0.2295, 0.08825, 0.0275), Colour(0.5508, 0.2118, 0.066), Colour(0.580594, 0.223257, 0.0695701), 51.2, 0.15, 0.0, 1.0 ); Material pewter(Colour(0.105882, 0.058824, 0.113725), Colour(0.427451, 0.470588, 0.541176), Colour(0.333333, 0.333333, 0.521569), 9.84615, 0.0, 0.0, 1.0 ); // Light Sources //===================== //raytracer.addLightSource( new PointLight(Point3D(1, 1, 2),Colour(0.5, 0.5, 0.5)) ); #ifdef USE_EXTENDEDLIGHTS // Defines a ball light source raytracer.addLightSource( new BallLight(Point3D(-1, 1, 1), 2.0, Colour(0.9, 0.9, 0.9), 4) ); #else // Defines a point light source. raytracer.addLightSource( new PointLight(Point3D(0, 0, 5), Colour(0.9, 0.9,0.9) ) ); #endif if (sceneNum==0) { // Defines a point light source. //raytracer.addLightSource( new PointLight(Point3D(0, 0, 5), // Colour(0.9, 0.9, 0.9) ) ); // Add a unit square into the scene with material mat. SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &gold); SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade ); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 1.0 }; double factor3[3] = { 4.0, 4.0, 4.0 }; double factor4[3] = { 3.7, 3.7, 3.7 }; raytracer.translate(sphere, Vector3D(0, 0, -5)); raytracer.rotate(sphere, 'x', -45); raytracer.rotate(sphere, 'z', 45); raytracer.scale(sphere, Point3D(0, 0, 0), factor1); raytracer.translate(plane, Vector3D(0, 0, -7)); raytracer.rotate(plane, 'z', 45); raytracer.scale(plane, Point3D(0, 0, 0), factor2); /* SceneDagNode* bigSphere = raytracer.addObject( new UnitSphere(), &glass1); raytracer.scale(bigSphere, Point3D(0, 0, 0), factor3); raytracer.translate(bigSphere, Vector3D(0, 0, -7)); SceneDagNode* bigSphere2 = raytracer.addObject( new UnitSphere(), &glass1); raytracer.scale(bigSphere2, Point3D(0, 0, 0), factor4); raytracer.translate(bigSphere2, Vector3D(0, 0, -7)); */ }// end of scene 0 if (sceneNum==1) { /* raytracer.addLightSource( new BallLight(Point3D(-1, 1, 1), 5.0, Colour(0.9, 0.9, 0.9), 0.888) ); raytracer.addLightSource( new PointLight(Point3D(0, 0, 2),Colour(0.5, 0.5, 0.5)) ); */ // Add a unit square into the scene with material mat. SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &glass); SceneDagNode* sphere1 = raytracer.addObject( new UnitSphere(), &brass); SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade); SceneDagNode* cylinder = raytracer.addObject( new UnitCylinder(), &brass); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 1.0 }; double factor3[3] = { 0.5, 0.5, 2.0 }; raytracer.translate(sphere, Vector3D(0, 0, -5)); raytracer.rotate(sphere, 'x', -45); raytracer.rotate(sphere, 'z', 45); raytracer.scale(sphere, Point3D(0, 0, 0), factor1); raytracer.translate(sphere1, Vector3D(-2.5, 0, -5)); raytracer.translate(plane, Vector3D(0, 0, -7)); raytracer.rotate(plane, 'z', 45); raytracer.scale(plane, Point3D(0, 0, 0), factor2); raytracer.translate(cylinder, Vector3D(3, 0, -5)); //raytracer.rotate(cylinder, 'y', -20); raytracer.rotate(cylinder, 'z', 45); raytracer.rotate(cylinder, 'x', -75); raytracer.scale(cylinder, Point3D(0, 0, 0), factor3); }// end of scene1 //=============== Scene 2 ============================== //===================================================== if(sceneNum == 2) { /* raytracer.addLightSource( new BallLight(Point3D(-1, 1, 1), 5.0, Colour(0.9, 0.9, 0.9), 0.888) );*/ //raytracer.addLightSource( new PointLight(Point3D(0, 0, 2),Colour(0.5, 0.5, 0.5)) ); //Set up walls //======================================================== SceneDagNode* planeBack = raytracer.addObject( new UnitSquare(), &brass); SceneDagNode* planeBottom = raytracer.addObject( new UnitSquare(), &chrome); SceneDagNode* planeTop = raytracer.addObject( new UnitSquare(), &copperPolished); SceneDagNode* planeLeft = raytracer.addObject( new UnitSquare(), &bronzeShiny); SceneDagNode* planeRight = raytracer.addObject( new UnitSquare(), &brass); SceneDagNode* planeRear = raytracer.addObject( new UnitSquare(), &brass); double scaleFactor[3] = {8.0,8.0,1.0}; double scaleFactor1[3] = {20.01,20.01,1.0}; raytracer.translate(planeBottom, Vector3D(0, -10, 0)); raytracer.translate(planeTop, Vector3D(0, 10, 0)); raytracer.translate(planeLeft, Vector3D(-10, 0, 0)); raytracer.translate(planeRight, Vector3D(10, 0, 0)); raytracer.translate(planeBack, Vector3D(0, 0, -19.9)); raytracer.translate(planeBottom, Vector3D(0, 0, -10)); raytracer.translate(planeTop, Vector3D(0, 0, -10)); raytracer.translate(planeLeft, Vector3D(0, 0, -10)); raytracer.translate(planeRight, Vector3D(0, 0, -10)); raytracer.translate(planeRear, Vector3D(0, 0, 20)); raytracer.rotate(planeTop, 'x', 90); raytracer.rotate(planeBottom, 'x',-90); raytracer.rotate(planeLeft, 'y', -90); raytracer.rotate(planeRight, 'y', 90); raytracer.rotate(planeRear, 'x', 180); raytracer.scale(planeBack, Point3D(0, 0, 0), scaleFactor1); raytracer.scale(planeBottom, Point3D(0, 0, 0), scaleFactor1); raytracer.scale(planeTop, Point3D(0, 0, 0), scaleFactor1); raytracer.scale(planeLeft, Point3D(0, 0, 0), scaleFactor1); raytracer.scale(planeRight, Point3D(0, 0, 0), scaleFactor1); raytracer.scale(planeRear, Point3D(0, 0, 0), scaleFactor1); //=========================================================== double scaleEgg[3] = { 1.0, 1.5, 1.0 }; double scaleBall[3] = {2,2,2}; SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &glass1); SceneDagNode* sphere1 = raytracer.addObject( new UnitSphere(), &ruby); SceneDagNode* sphere2 = raytracer.addObject( new UnitSphere(), &chrome); //SceneDagNode* cone = raytracer.addObject(sphere, new UnitCone(), &emerald); //raytracer.translate(cone, Vector3D(0,0,-2)); raytracer.translate(sphere, Vector3D(-1,-1,-11)); raytracer.scale(sphere, Point3D(0,0,0), scaleBall); raytracer.translate(sphere1, Vector3D(2.5,-1,-11)); raytracer.translate(sphere2, Vector3D(2,3,-11)); //raytracer.translate(cone, Vector3D(-1,-1,-12)); raytracer.rotate(sphere1, 'z', -45); raytracer.scale(sphere1, Point3D(0,0,0), scaleEgg); //raytracer.rotate(cone, 'x', 90); }//end of scene 2 //==================== Scene 3 ================= //=============================================== if(sceneNum == 3) { #ifdef USE_EXTENDEDLIGHTS raytracer.addLightSource( new BallLight(Point3D(-5, 5, -3), 2.0, Colour(0.4, 0.4, 0.4), 2) ); raytracer.addLightSource( new BallLight(Point3D(5, 5, -3), 2.0, Colour(0.4, 0.4, 0.4), 2) ); #else raytracer.addLightSource( new PointLight(Point3D(-5, 5, 0), Colour(0.5, 0.0, 0.0) ) ); raytracer.addLightSource( new PointLight(Point3D(5, 5, 0), Colour(0.0, 0.5, 0.0) ) ); raytracer.addLightSource( new PointLight(Point3D(0, -5, 0), Colour(0.0, 0.0, 0.5) ) ); #endif double planeScale[3] = {10.0, 10.0, 1.0}; double sphereScale[3]= {1.5,1.5,1.5}; double coneScale[3] = {1.5,1.5,5}; SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &pearl); SceneDagNode* sphere1 = raytracer.addObject( new UnitSphere(), &chrome); SceneDagNode* sphere2 = raytracer.addObject( new UnitSphere(), &brass); //SceneDagNode* cone = raytracer.addObject( new UnitCone(), &turquoise); raytracer.translate(sphere1, Vector3D(1, 1.5, -6.5)); raytracer.translate(sphere2, Vector3D(-1, -1.5, -6.5)); raytracer.scale(sphere2, Point3D(0,0,0), sphereScale); raytracer.scale(sphere1, Point3D(0,0,0), sphereScale); raytracer.rotate(plane, 'z', 45); raytracer.scale(plane, Point3D(0,0,0), planeScale); raytracer.translate(plane, Vector3D(0, 0, -8)); /* raytracer.translate(cone, Vector3D(2.0,-1.0,-3)); raytracer.rotate(cone, 'x', 180); raytracer.scale(cone, Point3D(0,0,0), coneScale); */ } // Render the scene, feel free to make the image smaller for // testing purposes. raytracer.render(width, height, eye, view, up, fov, aa, "sig1.bmp", 's'); //raytracer.render(width, height, eye, view, up, fov, aa, "diffuse1.bmp",'d'); //raytracer.render(width, height, eye, view, up, fov, aa, "view1.bmp",'p'); // Render it from a different point of view. Point3D eye2(4, 2, 1); Vector3D view2(-4, -2, -6); raytracer.render(width, height, eye2, view2, up, fov, aa, "sig2.bmp", 's'); //raytracer.render(width, height, eye2, view2, up, fov, aa, "diffuse2.bmp",'d'); //raytracer.render(width, height, eye2, view2, up, fov, aa, "view2.bmp",'p'); Point3D eye3(-4, -2, 1); Vector3D view3(4, 2, -6); raytracer.render(width, height, eye3, view3, up, fov, aa, "sig3.bmp", 's'); //raytracer.render(width, height, eye3, view3, up, fov, aa, "diffuse3.bmp",'d'); raytracer.render(width, height, eye3, view3, up, fov, aa, "view3.bmp",'p'); return 0; }
int main(int argc, char* argv[]) { // Build your scene and setup your camera here, by calling // functions from Raytracer. The code here sets up an example // scene and renders it from two different view points, DO NOT // change this if you're just implementing part one of the // assignment. Raytracer raytracer; int width = 320; int height = 240; if (argc == 3) { width = atoi(argv[1]); height = atoi(argv[2]); } /***********************************************************Testing ******************************** // Camera parameters. Point3D eye(0, 0, 1); Vector3D view(0, 0, -1); Vector3D up(0, 1, 0); double fov = 60; // Defines a material for shading. Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2,0.3,0,NULL ); Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), Colour(0.316228, 0.316228, 0.316228), 12.8,0.3,0,NULL); // Defines a point light source. raytracer.addLightSource( new PointLight(Point3D(0.0, 0, 5), Colour(0.9, 0.9, 0.9) ) ); // Add a unit square into the scene with material mat. SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &gold ); SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade ); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 6.0 }; raytracer.translate(sphere, Vector3D(0, 0, -5)); raytracer.rotate(sphere, 'x', -45); raytracer.rotate(sphere, 'z', 45); raytracer.scale(sphere, Point3D(0, 0, 0), factor1); raytracer.translate(plane, Vector3D(0, 0, -7)); raytracer.rotate(plane, 'z', 45); raytracer.scale(plane, Point3D(0, 0, 0), factor2); // Render the scene, feel free to make the image smaller for // testing purposes. raytracer.render(width, height, eye, view, up, fov, "view4.bmp"); // Render it from a different point of view. Point3D eye2(4, 2, 1); Vector3D view2(-4, -2, -6); raytracer.render(width, height, eye2, view2, up, fov, "view5.bmp"); ***********************************************************Testing ********************************/ /***********************************************************Final Scene********************************/ // Camera parameters. // Point3D eye(0, 8, -3); // Vector3D view(0, -1,0); Point3D eye(0, 0, 1); Vector3D view(0, 0, -1); Vector3D up(0, 1, 0); double fov = 60; // Defines a material for shading. Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2,0.2,NULL); // Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), // Colour(0.316228, 0.316228, 0.316228), // 12.8,0.5,NULL); Material jade( Colour(0, 0, 0), Colour(0.47, 0.576, 0.859), Colour(0.316228, 0.316228, 0.316228), 12.8,0.5,NULL); Material red( Colour(0.3, 0.3, 0.3), Colour(1, 0, 0), Colour(0.628281, 0.555802, 0.366065), 51.2,0.2,NULL); Material white( Colour(0.3, 0.3, 0.3), Colour(1, 0.8549, 0.7255), Colour(0.628281, 0.555802, 0.366065), 51.2,0.2,NULL); Material pink( Colour(0.3, 0.3, 0.3), Colour(0.9412, 0.502, 0.502), Colour(0.628281, 0.555802, 0.366065), 51.2,0.2,NULL); Material mirror( Colour(0.0, 0.0, 0.0), Colour(0.0, 0.0, 0.0), Colour(0.0, 0.0, 0.0), 51.2,1,NULL); Material glass( Colour(0.3, 0.3, 0.3), Colour(1, 1, 1), Colour(0.628281, 0.555802, 0.366065), 51.2,0,1,NULL); glass.R_index = 1.3; glass.transparency_coef=1; // Defines a point light source. raytracer.addLightSource( new PointLight(Point3D(0, 0, 5), Colour(0.9, 0.9, 0.9) ) ); raytracer.addLightSource( new PointLight(Point3D(0, 6, -1), Colour(0.9, 0.3, 0.1) ) ); Material test( Colour(0.3, 0.3, 0.3), Colour(0.3, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2 ,0.1,NULL); Material test3( Colour(0.3, 0.3, 0.3), Colour(0.3, 0.5, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2,1,NULL ); Material test2( Colour(0, 0, 0), Colour(0.3, 0.3, 0.3), Colour(1.0, 1.0, 1.0), 51.2,0,NULL ); Texture sky("/Users/bingxu/Documents/graphics/COMP3271_assignment_4_template/raytracerMacOS/sky.bmp"); Texture board("/Users/bingxu/Documents/graphics/COMP3271_assignment_4_template/raytracerMacOS/board.bmp"); Material starrysky(Colour(0, 0, 0),Colour(0, 0, 0), Colour(0.1, 0.1, 0.1), 11.264, 0, &sky); Material board_mat(Colour(0, 0, 0),Colour(0, 0, 0), Colour(0.1, 0.1, 0.1), 11.264, 1, &board); SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade ); SceneDagNode* plane1 = raytracer.addObject( new UnitSquare(), &jade ); SceneDagNode* plane2 = raytracer.addObject( new UnitSquare(), &board_mat );//the bottom SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &mirror); SceneDagNode* sphere1 = raytracer.addObject( new UnitSphere(), &white ); SceneDagNode* mars = raytracer.addObject( new UnitSphere(), &glass ); SceneDagNode* earth = raytracer.addObject( new UnitSphere(), &pink ); SceneDagNode* cylinder1 = raytracer.addObject( new UnitFiniteCylinder(), &gold ); SceneDagNode* cylinder2 = raytracer.addObject( new UnitFiniteCylinder(), &gold ); SceneDagNode* cylinder3 = raytracer.addObject( new UnitFiniteCylinder(), &gold ); SceneDagNode* cone = raytracer.addObject( new UnitFiniteCone(), &red ); double factor1[3] = { 2.0, 2.0, 2.0 }; double factor2[3] = {50,50,50}; double factor3[3] = { 1.0, 1.0, 1.0}; double factor4[3] = { 1.0, 2, 1.0}; double factor5[3] = {0.5,0.5,0.5}; double factor6[3] = {0.5,1.5,0.5}; double factor7[3] = {1.0,4.0,1.0}; //3 squares raytracer.translate(plane, Vector3D(0, 0, -15)); raytracer.scale(plane, Point3D(0, 0, 0), factor2); raytracer.translate(plane1, Vector3D(-15, 0, 0)); raytracer.rotate(plane1, 'y', 90); raytracer.scale(plane1, Point3D(0, 0, 0), factor2); raytracer.translate(plane2, Vector3D(0, -8, 0)); raytracer.rotate(plane2, 'x', -90); raytracer.scale(plane2, Point3D(0, 0, 0), factor2); //four balls raytracer.translate(sphere, Vector3D(-1, -6, -2)); raytracer.scale(sphere, Point3D(0, 0, 0), factor3); raytracer.translate(sphere1,Vector3D(-4.5, -6, 1)); raytracer.scale(sphere1, Point3D(0, 0, 0), factor3); raytracer.translate(mars, Vector3D(3, -3, -1)); raytracer.scale(mars, Point3D(0, 0, 0), factor3); raytracer.translate(earth, Vector3D(-8, -6, -2)); raytracer.scale(earth, Point3D(0, 0, 0), factor3); raytracer.rotate(cylinder1, 'z', -30); //raytracer.rotate(cylinder1, 'x', -15); raytracer.translate(cylinder1, Vector3D(0, -4, -2)); raytracer.scale(cylinder1, Point3D(0, 0, 0), factor7); raytracer.rotate(cylinder2, 'z', -30); raytracer.translate(cylinder2, Vector3D(1.5, -3, -2)); raytracer.scale(cylinder2, Point3D(0, 0, 0), factor6); raytracer.rotate(cylinder3, 'z', -30); raytracer.translate(cylinder3, Vector3D(-1.5, -3, -2)); raytracer.scale(cylinder3, Point3D(0, 0, 0), factor6); raytracer.rotate(cone, 'z', -30); raytracer.translate(cone, Vector3D(0, 2, -2)); raytracer.scale(cone, Point3D(0, 0, 0), factor4); std::clock_t start; double duration; start = std::clock(); // raytracer.render(width, height, eye, view, up, fov, "view4.bmp"); duration = ( std::clock() - start ) / (double) CLOCKS_PER_SEC; //std::cout<<"The rendering duration 1 is .......: "<< duration <<'\n'; // Render it from a different point of view. Point3D eye2(3, 1, 5); Vector3D view2(-10, -8, -15); std::clock_t start1; double duration1; start1 = std::clock(); raytracer.render(width, height, eye2, view2, up, fov, "view5.bmp"); duration1 = ( std::clock() - start1 ) / (double) CLOCKS_PER_SEC; // std::cout<<"The rendering duration 2 is .......: "<< duration1 <<'\n'; /***********************************************************Final Scene********************************/ return 0; }
int main(int argc, char* argv[]) { // Build your scene and setup your camera here, by calling // functions from Raytracer. The code here sets up an example // scene and renders it from two different view points, DO NOT // change this if you're just implementing part one of the // assignment. Raytracer raytracer; //_render_mode = MODE_SIGNATURE; //_render_mode = MODE_SPECULAR; _render_mode = MODE_FULL_PHONG; //_render_mode = (mode)(MODE_AMBIENT | MODE_DIFFUSE); int width = 320; int height = 240; if (argc == 3) { width = atoi(argv[1]); height = atoi(argv[2]); } // Camera parameters. Point3D eye(0, 0, 1); Vector3D view(0, 0, -1); Vector3D up(0, 1, 0); double fov = 60; // Defines a material for shading. Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2 ); Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), Colour(0.316228, 0.316228, 0.316228), 12.8 ); // Defines a point light source. raytracer.addLightSource( new PointLight(Point3D(0, 0, 5), Colour(0.9, 0.9, 0.9) ) ); // Add a unit square into the scene with material mat. SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &gold ); SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade ); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 6.0 }; raytracer.translate(sphere, Vector3D(0, 0, -5)); raytracer.rotate(sphere, 'x', -45); raytracer.rotate(sphere, 'z', 45); raytracer.scale(sphere, Point3D(0, 0, 0), factor1); raytracer.translate(plane, Vector3D(0, 0, -7)); raytracer.rotate(plane, 'z', 45); raytracer.scale(plane, Point3D(0, 0, 0), factor2); // Render the scene, feel free to make the image smaller for // testing purposes. raytracer.render(width, height, eye, view, up, fov, "phong1.bmp"); // Render it from a different point of view. Point3D eye2(4, 2, 1); Vector3D view2(-4, -2, -6); raytracer.render(width, height, eye2, view2, up, fov, "phong2.bmp"); return 0; }
int main(int argc, char* argv[]) { // Build your scene and setup your camera here, by calling // functions from Raytracer. The code here sets up an example // scene and renders it from two different view points, DO NOT // change this if you're just implementing part one of the // assignment. Raytracer raytracer; int width = 160; int height = 120; if (argc == 3) { width = atoi(argv[1]); height = atoi(argv[2]); } // Camera parameters. Point3D eye(0, 0, 1); Vector3D view(0, 0, -1); Vector3D up(0, 1, 0); double fov = 60; // Defines a material for shading. Material chrome( Colour(0.25, 0.25, 0.25), Colour(0.4, 0.4, 0.4), Colour(0.774597, 0.774597, 0.774597), 51.2 ); Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), Colour(0.316228, 0.316228, 0.316228), 12.8 ); // Defines a point light source. raytracer.addLightSource( new PointLight(Point3D(0, 3, 2), Colour(0.9, 0.9, 0.9) ) ); // Add a unit square into the scene with material mat. SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &chrome ); SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade ); //SceneDagNode* sphere2 = raytracer.addObject( new UnitSphere(), &chrome ); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 6.0 }; raytracer.translate(sphere, Vector3D(0, 0, -5)); raytracer.rotate(sphere, 'x', -45); raytracer.rotate(sphere, 'z', 45); //raytracer.scale(sphere, Point3D(0, 0, 0), factor1); //raytracer.translate(sphere2, Vector3D(0, 0, -2)); //raytracer.rotate(sphere2, 'x', -45); //raytracer.rotate(sphere2, 'z', 45); raytracer.translate(plane, Vector3D(0, -3, -5)); raytracer.rotate(plane, 'x', -80); raytracer.scale(plane, Point3D(0, 0, 0), factor2); // Render the scene, feel free to make the image smaller for // testing purposes. raytracer.render(width, height, eye, view, up, fov, "view1.bmp", 3, 5, true); // Render it from a different point of view. Point3D eye2(4, 2, 1); Vector3D view2(-4, -2, -6); //raytracer.render(width, height, eye2, view2, up, fov, "view2.bmp", 3, 15, false); //std::cin.get(); return 0; }
int main(int argc, char* argv[]) { // Build your scene and setup your camera here, by calling // functions from Raytracer. The code here sets up an example // scene and renders it from two different view points, DO NOT // change this if you're just implementing part one of the // assignment. Raytracer raytracer; int width = 16 * 20 * 2; int height = 12 * 20 * 2; if (argc == 3) { width = atoi(argv[1]); height = atoi(argv[2]); } // Camera parameters. Point3D eye1(0, 0, 1), eye2(4, 2, 1); Vector3D view1(0, 0, -1), view2(-4, -2, -6); // Point3D eye1(0, 0, 1), eye2(4, 2, -6); // Vector3D view1(0, 0, -1), view2(-4, -2, 1); Vector3D up(0, 1, 0); double fov = 60; // Defines a material for shading. Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2, LARGE_SPH_REFLECT, LARGE_SPH_REFRAC_INDX, LARGE_SPH_REFRACT); Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), Colour(0.316228, 0.316228, 0.316228), 12.8); Material red( Colour(0, 0, 0), Colour(0.9, 0.05, 0.05), Colour(0.4, 0.2, 0.2), 12.8); // Defines a point light source. Point3D light_pos; if (LIGHT_DEFAULT) { light_pos = Point3D(0, 0, 5); } else { light_pos = LIGHT_POS_TEST; } PointLight * light0 = new PointLight( light_pos, Colour(0.9, 0.9, 0.9), 0.1); raytracer.addLightSource(light0); // Add a unit square into the scene with material mat. SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &gold ); SceneDagNode* sphere2 = raytracer.addObject( new UnitSphere(), &gold ); SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade ); //set the texture map for the objects of interest in the scene if texture map flag is ON if (TEXTURE_MAP_FLAG) { // load texture image TextureMap txtmp; txtmp = TextureMap(TEXTURE_IMG); raytracer.setTextureMap(txtmp); //for now, we are only using texture map for sphere sphere->useTextureMapping = true; sphere->obj->setTextureMap(txtmp); } // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 6.0 }; raytracer.translate(sphere, Vector3D(0, 0, -5)); raytracer.rotate(sphere, 'x', -45); raytracer.rotate(sphere, 'z', 45); raytracer.scale(sphere, Point3D(0, 0, 0), factor1); raytracer.translate(plane, Vector3D(0, 0, -7)); raytracer.rotate(plane, 'z', 45); raytracer.scale(plane, Point3D(0, 0, 0), factor2); double f[3] = { 0.5, 0.5, 0.5 }; raytracer.translate(sphere2, Vector3D(0, 0, -8)); raytracer.scale(sphere2, Point3D(0, 0, 0), f); bool DO_SIGNATURE = false; bool DO_SIGNATURE_SS = false; bool DO_DIFFUSE = false; bool DO_PHONG = false; bool DO_PHONG_SS = false; bool DO_FULL_FEATURED = false; bool DO_WOODEN_MONKEY_SCENES = true; bool DO_REFRACTION_SCENE = false; bool RENDER_FIRST_VIEW = true; bool RENDER_SECOND_VIEW = true; raytracer.setReflDepth(0); raytracer.setEnvMapMode(Raytracer::NONE); // render signature if ( DO_SIGNATURE ) { raytracer.setAAMode(Raytracer::NONE); raytracer.setShadingMode(Raytracer::SCENE_MODE_SIGNATURE); if ( RENDER_FIRST_VIEW ) raytracer.render(width, height, eye1, view1, up, fov, "sig1.bmp"); if ( RENDER_SECOND_VIEW ) raytracer.render(width, height, eye2, view2, up, fov, "sig2.bmp"); } // render signature with SS AA if ( DO_SIGNATURE_SS ) { raytracer.setAAMode(Raytracer::AA_SUPER_SAMPLING); raytracer.setShadingMode(Raytracer::SCENE_MODE_SIGNATURE); if ( RENDER_FIRST_VIEW ) raytracer.render(width, height, eye1, view1, up, fov, "sigSS1.bmp"); if ( RENDER_SECOND_VIEW ) raytracer.render(width, height, eye2, view2, up, fov, "sigSS2.bmp"); } // render diffuse if ( DO_DIFFUSE ) { raytracer.setAAMode(Raytracer::NONE); raytracer.setShadingMode(Raytracer::SCENE_MODE_DIFFUSE); if ( RENDER_FIRST_VIEW ) raytracer.render(width, height, eye1, view1, up, fov, "diffuse1.bmp"); if ( RENDER_SECOND_VIEW ) raytracer.render(width, height, eye2, view2, up, fov, "diffuse2.bmp"); } // render phong if ( DO_PHONG ) { raytracer.setAAMode(Raytracer::NONE); raytracer.setShadingMode(Raytracer::SCENE_MODE_PHONG); if ( RENDER_FIRST_VIEW ) raytracer.render(width, height, eye1, view1, up, fov, "phong1.bmp"); if ( RENDER_SECOND_VIEW ) raytracer.render(width, height, eye2, view2, up, fov, "phong2.bmp"); } // phong with super sampling AA if ( DO_PHONG_SS ) { raytracer.setAAMode(Raytracer::AA_SUPER_SAMPLING); raytracer.setShadingMode(Raytracer::SCENE_MODE_PHONG); if ( RENDER_FIRST_VIEW ) raytracer.render(width, height, eye1, view1, up, fov, "phongSS1.bmp"); if ( RENDER_SECOND_VIEW ) raytracer.render(width, height, eye2, view2, up, fov, "phongSS2.bmp"); } // refraction if it's turned on if (REFRACTION_FLAG) { raytracer.setRefractionMode(REFRACTION_FLAG); } // all features enabled or turned to max if ( DO_FULL_FEATURED ) { raytracer.setAAMode(Raytracer::NONE); raytracer.setAAMode(Raytracer::AA_SUPER_SAMPLING); raytracer.setShadingMode(Raytracer::SCENE_MODE_PHONG); raytracer.setShadows(Raytracer::SHADOW_CAST); // raytracer.setShadows(Raytracer::NONE); raytracer.setEnvMapMode(Raytracer::ENV_MAP_CUBE_SKYBOX); // raytracer.setEnvMapMode(Raytracer::NONE); raytracer.setReflDepth(4); if ( raytracer.getEnvMapMode() != Raytracer::NONE ) { // load images EnvMap env; if ( _DEBUG ) { env = EnvMap( "EnvMaps/DebugMaps/posx.bmp", "EnvMaps/DebugMaps/posy.bmp", "EnvMaps/DebugMaps/posz.bmp", "EnvMaps/DebugMaps/negx.bmp", "EnvMaps/DebugMaps/negy.bmp", "EnvMaps/DebugMaps/negz.bmp" ); } else { env = EnvMap( "EnvMaps/SaintLazarusChurch/posx.bmp", "EnvMaps/SaintLazarusChurch/posy.bmp", "EnvMaps/SaintLazarusChurch/posz.bmp", "EnvMaps/SaintLazarusChurch/negx.bmp", "EnvMaps/SaintLazarusChurch/negy.bmp", "EnvMaps/SaintLazarusChurch/negz.bmp" ); } raytracer.setEnvMap(env); } // adjust lighting? if ( raytracer.getReflDepth() > 0 ) { double l0i = 0.5; light0->setAmbient(Colour(l0i, l0i, l0i)); } if ( RENDER_FIRST_VIEW ) raytracer.render(width, height, eye1, view1, up, fov, "all1.bmp"); if ( RENDER_SECOND_VIEW ) raytracer.render(width, height, eye2, view2, up, fov, "all2.bmp"); } // different scenes just for the wooden monkey thing if ( DO_WOODEN_MONKEY_SCENES ) { // wmonkey_scene_1(); wmonkey_scene_2(); // TODO add more scenes here as required... } //render the 2nd refraction scene if ( REFRACTION_FLAG && DO_REFRACTION_SCENE ) { refraction_scene_1(); } printf("Press enter to terminate...\n"); std::string s; std::getline(std::cin, s); return 0; }
/** * Wooden Monkey Scene 1 */ void wmonkey_scene_1() { printf("WOODEN MONKEY SCENE : 1 ----------------------------------\n\n"); Raytracer rt; int width = 16 * 20 * 2; int height = 12 * 20 * 2; // Camera parameters. Point3D eye1(0, 0, 1), eye2(4, 2, 1); Vector3D view1(0, 0, -1), view2(-4, -2, -6); Vector3D up(0, 1, 0); double fov = 60; // Defines a material for shading. Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2, 0.8 ); Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), Colour(0.316228, 0.316228, 0.316228), 12.8); // Defines a point light source. double l0c = 0.5; PointLight * light0 = new PointLight( Point3D(-2, 2, 5), Colour(l0c, l0c, l0c), 0.2); rt.addLightSource(light0); // Add a unit square into the scene with material mat. SceneDagNode* sphere = rt.addObject( new UnitSphere(), &gold ); SceneDagNode* sphere2 = rt.addObject( new UnitSphere(), &gold ); SceneDagNode* plane = rt.addObject( new UnitSquare(), &jade ); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 6.0 }; rt.translate(sphere, Vector3D(0, 0, -5)); rt.rotate(sphere, 'x', -45); rt.rotate(sphere, 'z', 45); rt.scale(sphere, Point3D(0, 0, 0), factor1); rt.translate(plane, Vector3D(0, 0, -7)); rt.rotate(plane, 'z', 45); rt.scale(plane, Point3D(0, 0, 0), factor2); double f[3] = { 0.5, 0.5, 0.5 }; rt.translate(sphere2, Vector3D(3, 0, -5)); rt.scale(sphere2, Point3D(0, 0, 0), f); rt.setAAMode(Raytracer::AA_SUPER_SAMPLING); rt.setShadingMode(Raytracer::SCENE_MODE_PHONG); rt.setShadows(Raytracer::SHADOW_CAST); rt.setEnvMapMode(Raytracer::ENV_MAP_CUBE_SKYBOX); rt.setColorSpaceMode(Raytracer::COLOR_ENC_SRGB_GAMMA_CORRECT); rt.setReflDepth(4); if ( rt.getEnvMapMode() != Raytracer::NONE ) { // load images EnvMap env; if ( _DEBUG ) { env = EnvMap( "EnvMaps/DebugMaps/posx.bmp", "EnvMaps/DebugMaps/posy.bmp", "EnvMaps/DebugMaps/posz.bmp", "EnvMaps/DebugMaps/negx.bmp", "EnvMaps/DebugMaps/negy.bmp", "EnvMaps/DebugMaps/negz.bmp" ); } else { env = EnvMap( "EnvMaps/SaintLazarusChurch/posx.bmp", "EnvMaps/SaintLazarusChurch/posy.bmp", "EnvMaps/SaintLazarusChurch/posz.bmp", "EnvMaps/SaintLazarusChurch/negx.bmp", "EnvMaps/SaintLazarusChurch/negy.bmp", "EnvMaps/SaintLazarusChurch/negz.bmp" ); } rt.setEnvMap(env); } printf("WOODEN MONKEY SCENE : 1 :: Rendering...\n"); rt.render(width, height, eye2, view2, up, fov, "wmonkey_1.bmp"); printf("WOODEN MONKEY SCENE : 1 :: Done!\n"); }
void wmonkey_scene_2() { printf("WOODEN MONKEY SCENE : 2 (path tracing) ----------------------------------\n\n"); Raytracer rt; int width = 16 * 20 * 2; int height = 12 * 20 * 2; // room dimensions double wDiameter = 20; double wRadius = wDiameter / 2; double wallSize[] = {wDiameter + DBL_EPSILON, wDiameter + DBL_EPSILON, wDiameter + DBL_EPSILON}; // Camera parameters. Point3D camera_pos(0, 0, 1); Vector3D camera_target(0, 0, -1); Vector3D up(0, 1, 0); double fov = 65; double l0c = .9; PointLight * light0 = new PointLight( // Point3D(-wDiameter - roomRad + (roomRad / 2), 50 * 2, 50 * 2), Point3D(0, wRadius - 5, 0), Colour(l0c, l0c, l0c), 0.2); rt.addLightSource(light0); // http://en.wikipedia.org/wiki/Cornell_Box // http://www.kevinbeason.com/smallpt/#moreinfo Material matLight( Colour(1, 1, 1) // ambient , Colour(1, 1, 1) // diffuse , Colour(1, 1, 1) // spec , 0, 0, 0, 0 ); Material matMirror( Colour(0.3, 0.3, 0.3) // ambient , Colour(0.1, 0.1, 0.1) // diffuse , Colour(0.628281, 0.555802, 0.366065) // spec , 51.2, 1.0 ); Material matGlass( Colour(0, 0, 0) // ambient , Colour(0.1, 0.1, 0.1) // diffuse , Colour(1.0, 1.0, 1.0) // spec , 100, 0.0, 1.01, 0.9 ); Material matBeige( Colour(0.607843, 0.549019, 0.372549) // ambient , Colour(0.741176, 0.686274, 0.525490) // diffuse , Colour(0.933333, 0.901960, 0.807843) // spec , 12.8 ); Material matReddishWall( Colour(.25, .25, .25) // ambient , Colour(.75, .25, .25) // diffuse , Colour(.3, .3, .3) // spec , 2, 0, 0, 0 ); Material matBluishWall( Colour(.25, .25, .25) // ambient , Colour(.25, .25, .75) // diffuse , Colour(.3, .3, .3) // spec , 2, 0, 0, 0 ); Material matGreenishWall( Colour(.25, .25, .25) // ambient , Colour(.25, .75, .25) // diffuse , Colour(.3, .3, .3) // spec , 2, 0, 0, 0 ); Material matBaseWall( Colour(.25, .25, .25) // ambient , Colour(.25, .25, .25) // diffuse , Colour(.6, .6, .6) // spec , 2, 0, 0, 0 ); // create and position the box SceneDagNode* wallLeft = rt.addObject( new UnitSquare(), &matReddishWall ); SceneDagNode* wallRight = rt.addObject( new UnitSquare(), &matBluishWall ); SceneDagNode* wallFront = rt.addObject( new UnitSquare(), &matBaseWall ); SceneDagNode* wallTop = rt.addObject( new UnitSquare(), &matLight ); SceneDagNode* wallBot = rt.addObject( new UnitSquare(), &matGreenishWall ); rt.translate(wallFront, Vector3D(0, 0, -wDiameter - wRadius + DBL_EPSILON)); rt.scale(wallFront, Point3D(0, 0, 0), wallSize); rt.translate(wallRight, Vector3D(wRadius, 0, -wDiameter + DBL_EPSILON)); rt.rotate(wallRight, 'y', -90); rt.scale(wallRight, Point3D(0, 0, 0), wallSize); rt.translate(wallLeft, Vector3D(-wRadius, 0, -wDiameter + DBL_EPSILON)); rt.rotate(wallLeft, 'y', 90); rt.scale(wallLeft, Point3D(0, 0, 0), wallSize); rt.translate(wallTop, Vector3D(0, wRadius, -wDiameter + DBL_EPSILON)); rt.rotate(wallTop, 'x', 90); rt.scale(wallTop, Point3D(0, 0, 0), wallSize); rt.translate(wallBot, Vector3D(0, -wRadius, -wDiameter + DBL_EPSILON)); rt.rotate(wallBot, 'x', -90); rt.scale(wallBot, Point3D(0, 0, 0), wallSize); // create some objects within the box... SceneDagNode* sphere_chrome = rt.addObject( new UnitSphere(), &matGlass ); double _sChrome_size = 2; double _sChrome[] = {_sChrome_size, _sChrome_size, _sChrome_size}; rt.translate(sphere_chrome, Vector3D(wRadius / 3 * 2, -wRadius + (_sChrome_size), -wDiameter + (wRadius / 3))); rt.scale(sphere_chrome, Point3D(0, 0, 0), _sChrome); SceneDagNode* sphere_glass = rt.addObject( new UnitSphere(), &matMirror ); double _sGlass_size = 2.5; double _sGlass[] = {_sGlass_size, _sGlass_size, _sGlass_size}; rt.translate(sphere_glass, Vector3D(-wRadius / 3 * 2, -wRadius + (_sGlass_size), -wDiameter - (wRadius / 3))); rt.scale(sphere_glass, Point3D(0, 0, 0), _sGlass); SceneDagNode* sphere_beige = rt.addObject( new UnitSphere(), &matBeige ); double _sBeige_size = 3.5; double _sBeige[] = {_sBeige_size, _sBeige_size, _sBeige_size}; rt.translate(sphere_beige, Vector3D(wRadius / 3 * 2, -wRadius + (_sGlass_size * 2), -wDiameter - (wRadius / 3))); rt.scale(sphere_beige, Point3D(0, 0, 0), _sBeige); rt.setAAMode(Raytracer::AA_SUPER_SAMPLING); rt.setAAMode(Raytracer::NONE); rt.setShadingMode(Raytracer::SCENE_MODE_DIFFUSE); rt.setShadows(Raytracer::SHADOW_CAST); rt.setEnvMapMode(Raytracer::ENV_MAP_CUBE_SKYBOX); // rt.setColorSpaceMode(Raytracer::COLOR_ENC_SRGB_GAMMA_CORRECT); rt.setReflDepth(4); // refraction if it's turned on if (REFRACTION_FLAG) { rt.setRefractionMode(REFRACTION_FLAG); } if ( rt.getEnvMapMode() != Raytracer::NONE ) { // load images EnvMap env; if ( _DEBUG ) { env = EnvMap( "EnvMaps/DebugMaps/posx.bmp", "EnvMaps/DebugMaps/posy.bmp", "EnvMaps/DebugMaps/posz.bmp", "EnvMaps/DebugMaps/negx.bmp", "EnvMaps/DebugMaps/negy.bmp", "EnvMaps/DebugMaps/negz.bmp" ); } else { env = EnvMap( "EnvMaps/SaintLazarusChurch/posx.bmp", "EnvMaps/SaintLazarusChurch/posy.bmp", "EnvMaps/SaintLazarusChurch/posz.bmp", "EnvMaps/SaintLazarusChurch/negx.bmp", "EnvMaps/SaintLazarusChurch/negy.bmp", "EnvMaps/SaintLazarusChurch/negz.bmp" ); } rt.setEnvMap(env); } printf("WOODEN MONKEY SCENE : 2 :: Rendering...\n"); rt.render(width, height, camera_pos, camera_target, up, fov, "wmonkey_2.bmp"); printf("WOODEN MONKEY SCENE : 2 :: Done!\n"); }
/** * Wooden Monkey Scene 1 */ void refraction_scene_1() { printf("REFRACTION SCENE : 1 ----------------------------------\n\n"); Raytracer rt; int width = 16 * 20 * 2; int height = 12 * 20 * 2; // Camera parameters. Point3D eye1(0, 0, 1), eye2(4, 2, 1); Vector3D view1(0, 0, -1), view2(-4, -2, -6); Vector3D up(0, 1, 0); double fov = 60; // Defines a material for shading. Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2, LARGE_SPH_REFLECT, LARGE_SPH_REFRAC_INDX, LARGE_SPH_REFRACT); Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63), Colour(0.316228, 0.316228, 0.316228), 12.8); // Defines a material for shading. Material gold_nonRefract( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648), Colour(0.628281, 0.555802, 0.366065), 51.2, 0.8 ); // Defines a point light source. double l0c = 0.5; PointLight * light0 = new PointLight( Point3D(-2, 2, 5), Colour(l0c, l0c, l0c), 0.2); rt.addLightSource(light0); // Add a unit square into the scene with material mat. SceneDagNode* sphere = rt.addObject( new UnitSphere(), &gold ); SceneDagNode* sphere2 = rt.addObject( new UnitSphere(), &gold_nonRefract ); SceneDagNode* plane = rt.addObject( new UnitSquare(), &jade ); SceneDagNode* sphere3 = rt.addObject( new UnitSphere(), &RED); SceneDagNode* sphere4 = rt.addObject( new UnitSphere(), &GREEN_TRANSP); SceneDagNode* plane2 = rt.addObject( new UnitSquare(), &jade ); // SceneDagNode* plane3 = rt.addObject( new UnitSquare(), &jade ); // SceneDagNode* plane4 = rt.addObject( new UnitSquare(), &jade ); // Apply some transformations to the unit square. double factor1[3] = { 1.0, 2.0, 1.0 }; double factor2[3] = { 6.0, 6.0, 6.0 }; rt.translate(sphere, Vector3D(0, 0, -5)); rt.rotate(sphere, 'x', -45); rt.rotate(sphere, 'z', 45); rt.scale(sphere, Point3D(0, 0, 0), factor1); rt.translate(plane, Vector3D(0, 0, -7)); rt.rotate(plane, 'z', 45); rt.scale(plane, Point3D(0, 0, 0), factor2); double f[3] = { 0.5, 0.5, 0.5 }; rt.translate(sphere2, Vector3D(3, 0, -5)); rt.scale(sphere2, Point3D(0, 0, 0), f); rt.translate(sphere3, Vector3D(0, 2, -5)); rt.scale(sphere3, Point3D(0, 0, 0), f); double f2[3] = { 0.6, 0.6, 0.6 }; rt.translate(sphere4, Vector3D(-2, 1, -3)); rt.scale(sphere4, Point3D(0, 0, 0), f2); double fp2[3] = { 3.0, 3.0, 3.0 }; rt.translate(plane2,Vector3D(-4,1,-5)); rt.rotate(plane2, 'z', 45); rt.rotate(plane2, 'y', 45); rt.scale(plane2, Point3D(0, 0, 0), fp2); // rt.translate(plane3,Vector3D(-2,0,-5)); // rt.rotate(plane2, 'z', 45); // rt.rotate(plane3, 'x', 90); // rt.scale(plane3, Point3D(0, 0, 0), fp2); // // rt.translate(plane4,Vector3D(-2,1,-5)); // rt.rotate(plane2, 'z', 45); // rt.rotate(plane4, 'y', 90); // rt.scale(plane4, Point3D(0, 0, 0), fp2); rt.setAAMode(Raytracer::AA_SUPER_SAMPLING); rt.setShadingMode(Raytracer::SCENE_MODE_PHONG); rt.setShadows(Raytracer::SHADOW_CAST); rt.setEnvMapMode(Raytracer::ENV_MAP_CUBE_SKYBOX); rt.setColorSpaceMode(Raytracer::COLOR_ENC_SRGB_GAMMA_CORRECT); rt.setReflDepth(4); //set the texture map for the objects of interest in the scene if texture map flag is ON if (TEXTURE_MAP_FLAG) { // load texture image TextureMap txtmp; txtmp = TextureMap(TEXTURE_IMG); TextureMap txtmp2 = TextureMap(TEXTURE_IMG2); TextureMap txtmp3 = TextureMap(TEXTURE_IMG3); //for now, we are only using texture map for sphere sphere->useTextureMapping = true; sphere->obj->setTextureMap(txtmp); sphere2->useTextureMapping = false; sphere4->useTextureMapping = true; sphere4->setTextMapOfObject(txtmp2); plane2->useTextureMapping = true; plane2->setTextMapOfObject(txtmp3); // plane3->useTextureMapping = true; // plane3->setTextMapOfObject(txtmp3); // // plane4->useTextureMapping = true; // plane4->setTextMapOfObject(txtmp3); } // refraction if it's turned on if (REFRACTION_FLAG) { rt.setRefractionMode(REFRACTION_FLAG); } if ( rt.getEnvMapMode() != Raytracer::NONE ) { // load images EnvMap env; if ( _DEBUG ) { env = EnvMap( "EnvMaps/DebugMaps/posx.bmp", "EnvMaps/DebugMaps/posy.bmp", "EnvMaps/DebugMaps/posz.bmp", "EnvMaps/DebugMaps/negx.bmp", "EnvMaps/DebugMaps/negy.bmp", "EnvMaps/DebugMaps/negz.bmp" ); } else { env = EnvMap( "EnvMaps/SaintLazarusChurch/posx.bmp", "EnvMaps/SaintLazarusChurch/posy.bmp", "EnvMaps/SaintLazarusChurch/posz.bmp", "EnvMaps/SaintLazarusChurch/negx.bmp", "EnvMaps/SaintLazarusChurch/negy.bmp", "EnvMaps/SaintLazarusChurch/negz.bmp" ); } rt.setEnvMap(env); } printf("REFRACTION SCENE : 1 :: Rendering...\n"); rt.render(width, height, eye2, view2, up, fov, "refraction_2.bmp"); Point3D eye3(0, 0, 1); Vector3D view3(0, 0, -1); printf("REFRACTION SCENE : 2 :: Rendering...\n"); rt.render(width, height, eye3, view3, up, fov, "refraction_1.bmp"); printf("REFRACTION SCENE : 1 :: Done!\n"); }