import java.applet.*; import java.awt.*; import java.awt.event.*; import java.io.*; import java.net.*; import Vertex3D; import Point3D; import Triangle; import Matrix3D; import Light; import Surface; import ZRaster; public class Pipeline extends Applet { final static int CHUNKSIZE = 100; ZRaster raster; Image screen; Vertex3D vertList[]; Vertex3D worldList[]; Vertex3D canonicalList[]; int vertices; Triangle triList[]; int triangles; Matrix3D view; Matrix3D model; Matrix3D project; boolean cull = true; Light lightList[]; int lights; Surface surfaceList[]; int surfaces; Point3D eye, lookat, up; Point3D initEye, initLookat; float fov; public void SetupWindow(){ Panel p1=new Panel(); Button none = new Button("No Light"); Button flat = new Button("Flat"); Button gouraud = new Button("Gouraud"); p1.add(none); p1.add(flat); p1.add(gouraud); add(p1); // load with orthographic bounded by area of perspective frustum at location of object // for the two cases we know it is object is at z=-10 eye space none.addActionListener(new ActionListener() { public void actionPerformed(ActionEvent e){ triList[0].LightModel=Triangle.NONE; DrawObject(); } } ); flat.addActionListener(new ActionListener() { public void actionPerformed(ActionEvent e){ triList[0].LightModel=Triangle.FLAT; DrawObject(); } } ); gouraud.addActionListener(new ActionListener() { public void actionPerformed(ActionEvent e){ triList[0].LightModel=Triangle.GOURAUD; DrawObject(); } } ); } public void init( ) { raster = new ZRaster(size().width, size().height); // initialize viewing parameters to default // values in case they are not defined by the // input file eye = new Point3D(0, 0, -10); lookat = new Point3D(0, 0, 0); up = new Point3D(0, 1, 0); fov = 30; vertList = new Vertex3D[CHUNKSIZE]; vertices = 0; triList = new Triangle[CHUNKSIZE]; triangles = 0; lightList = new Light[CHUNKSIZE]; lights = 0; surfaceList = new Surface[CHUNKSIZE]; surfaces = 0; String filename = getParameter("datafile"); showStatus("Reading "+filename); InputStream is = null; try { is = new URL(getDocumentBase(), filename).openStream(); ReadInput(is); is.close(); } catch (IOException e) { showStatus("Error reading "+filename); } if (getParameter("cull") != null) if (getParameter("cull").equals("false")) cull = false; canonicalList = new Vertex3D[vertList.length]; worldList = new Vertex3D[vertList.length]; for (int i = 0; i < vertices; i++) { canonicalList[i] = new Vertex3D(); worldList[i] = new Vertex3D(); } initEye = new Point3D(eye); initLookat = new Point3D(lookat); project = new Matrix3D(raster); view = new Matrix3D(); float t = (float) Math.sin(Math.PI*(fov/2)/180); float s = (t*size().height)/size().width; view.perspective(-t, t, -s, s, -1, -200); view.lookAt(eye.x, eye.y, eye.z, lookat.x, lookat.y, lookat.z, up.x, up.y, up.z); model = new Matrix3D(); SetupWindow(); // This code fragment appears in the // init method of the Pipeline applet for (int i = 0; i < vertices; i++) { vertList[i].averageNormals(); } DrawObject(); } private double getNumber(StreamTokenizer st) throws IOException { if (st.nextToken() != StreamTokenizer.TT_NUMBER) { System.err.println("ERROR: line "+st.lineno()+": expected number"); throw new IOException(st.toString()); } return st.nval; } private void growList() { Triangle newList[] = new Triangle[triList.length+CHUNKSIZE]; System.arraycopy(triList, 0, newList, 0, triList.length); triList = newList; } public void ReadInput(InputStream is) throws IOException { StreamTokenizer st = new StreamTokenizer(is); st.commentChar('#'); scan: while (true) { switch (st.nextToken()) { default: break scan; case StreamTokenizer.TT_WORD: if (st.sval.equals("v")) { float x = (float) getNumber(st); float y = (float) getNumber(st); float z = (float) getNumber(st); if (vertices == vertList.length) { Vertex3D newList[] = new Vertex3D[vertList.length+CHUNKSIZE]; System.arraycopy(vertList, 0, newList, 0, vertList.length); vertList = newList; } vertList[vertices++] = new Vertex3D(x, y, z); } else /* if (st.sval.equals("f")) { int faceTris = 0; int v0 = (int) getNumber(st); int v1 = (int) getNumber(st); while (st.nextToken() == StreamTokenizer.TT_NUMBER) { st.pushBack(); int v2 = (int) getNumber(st); if (v2 == v0) continue; if (triangles == triList.length) growList(); triList[triangles] = new Triangle(v0, v1, v2); if (surfaces == 0) { surfaceList[surfaces] = new Surface(0.5f, 0.5f, 0.5f, 1.0f, 1.0f, 1.0f, 5.0f); surfaces += 1; } triList[triangles].setSurface(surfaceList[surfaces-1]); v1 = v2; faceTris += 1; triangles += 1; } st.pushBack(); } else */ // This code fragment replaces corresponding code // in the ReadInput method of the Pipeline applet if (st.sval.equals("f")) { int faceTris = 0; int v0 = (int) getNumber(st); int v1 = (int) getNumber(st); while (st.nextToken() == StreamTokenizer.TT_NUMBER) { st.pushBack(); int v2 = (int) getNumber(st); if (v2 == v0) continue; if (triangles == triList.length) growList(); triList[triangles] = new Triangle(v0, v1, v2); float nx = (vertList[v1].z - vertList[v0].z) * (vertList[v2].y - vertList[v1].y) - (vertList[v1].y - vertList[v0].y) * (vertList[v2].z - vertList[v1].z); float ny = (vertList[v1].x - vertList[v0].x) * (vertList[v2].z - vertList[v1].z) - (vertList[v1].z - vertList[v0].z) * (vertList[v2].x - vertList[v1].x); float nz = (vertList[v1].y - vertList[v0].y) * (vertList[v2].x - vertList[v1].x) - (vertList[v1].x - vertList[v0].x) * (vertList[v2].y - vertList[v1].y); if (faceTris == 0) { // the normal could be computed here instead if all // facets are planar... I'll just play it safe vertList[v0].addNormal(-nx, -ny, -nz); vertList[v1].addNormal(-nx, -ny, -nz); } if (surfaces == 0) { surfaceList[surfaces] = new Surface(0.5f, 0.5f, 0.5f, 1.0f, 1.0f, 1.0f, 5.0f); surfaces += 1; } triList[triangles].setSurface(surfaceList[surfaces-1]); vertList[v2].addNormal(-nx, -ny, -nz); v1 = v2; faceTris += 1; triangles += 1; } st.pushBack(); } else if (st.sval.equals("eye")) { eye.x = (float) getNumber(st); eye.y = (float) getNumber(st); eye.z = (float) getNumber(st); } else if (st.sval.equals("look")) { lookat.x = (float) getNumber(st); lookat.y = (float) getNumber(st); lookat.z = (float) getNumber(st); } else if (st.sval.equals("up")) { up.x = (float) getNumber(st); up.y = (float) getNumber(st); up.z = (float) getNumber(st); } else if (st.sval.equals("fov")) { fov = (float) getNumber(st); } else if (st.sval.equals("la")) { // ambient light source float r = (float) getNumber(st); float g = (float) getNumber(st); float b = (float) getNumber(st); lightList[lights] = new Light(Light.AMBIENT, 0, 0, 0, r, g, b); lights += 1; } else if (st.sval.equals("ld")) { // directional light source float r = (float) getNumber(st); float g = (float) getNumber(st); float b = (float) getNumber(st); float x = (float) getNumber(st); float y = (float) getNumber(st); float z = (float) getNumber(st); lightList[lights] = new Light(Light.DIRECTIONAL, x, y, z, r, g, b); lights += 1; } else if (st.sval.equals("lp")) { // point light source float r = (float) getNumber(st); float g = (float) getNumber(st); float b = (float) getNumber(st); float x = (float) getNumber(st); float y = (float) getNumber(st); float z = (float) getNumber(st); lightList[lights] = new Light(Light.POINT, x, y, z, r, g, b); lights += 1; } else if (st.sval.equals("surf")) { float r = (float) getNumber(st); float g = (float) getNumber(st); float b = (float) getNumber(st); float ka = (float) getNumber(st); float kd = (float) getNumber(st); float ks = (float) getNumber(st); float ns = (float) getNumber(st); surfaceList[surfaces] = new Surface(r, g, b, ka, kd, ks, ns); surfaces += 1; } else { System.err.println("ERROR: line "+st.lineno()+": unexpected token :"+st.sval); break scan; } break; } if (triangles % 100 == 0) showStatus("triangles = "+triangles); } is.close(); if (st.ttype != StreamTokenizer.TT_EOF) { throw new IOException(st.toString()); } } public void paint(Graphics g) { g.drawImage(screen, 0, 0, this); } public void update(Graphics g) { paint(g); } int oldx, oldy; public boolean mouseDown(Event e, int x, int y) { if (e.metaDown()) { System.out.println("Reset view matrix"); eye.copy(initEye); lookat.copy(initLookat); view.loadIdentity(); float t = (float) Math.sin(Math.PI*(fov/2)/180); float s = (t*size().height)/size().width; view.perspective(-t, t, -s, s, -1, -200); view.lookAt(eye.x, eye.y, eye.z, lookat.x, lookat.y, lookat.z, up.x, up.y, up.z); DrawObject(); } oldx = x; oldy = y; return true; } public boolean mouseDrag(Event e, int x, int y) { if (e.metaDown()) { System.out.println("Resetting view matrix"); } else { float ax = lookat.x - eye.x; float ay = lookat.y - eye.y; float az = lookat.z - eye.z; float t = (float) (getSize().width / (2*Math.tan(((fov * Math.PI)/180)/2))); Matrix3D r = new Matrix3D( ); t = (float) (Math.atan((double)(x - oldx)/t)); r.rotate(up.x, up.y, up.z, t); eye.x = eye.x + ax*(oldy - y)/size().height; eye.y = eye.y + ay*(oldy - y)/size().height; eye.z = eye.z + az*(oldy - y)/size().height; lookat.x = r.get(0,0)*ax + r.get(1,0)*ay + r.get(2,0)*az; lookat.y = r.get(0,1)*ax + r.get(1,1)*ay + r.get(2,1)*az; lookat.z = r.get(0,2)*ax + r.get(1,2)*ay + r.get(2,2)*az; lookat.x += eye.x; lookat.y += eye.y; lookat.z += eye.z; t = (float) Math.sin(Math.PI*(fov/2)/180); float s = (t*size().height)/size().width; view.loadIdentity(); view.perspective(-t, t, -s, s, -1, -200); view.lookAt(eye.x, eye.y, eye.z, lookat.x, lookat.y, lookat.z, up.x, up.y, up.z); oldx = x; oldy = y; DrawObject(); } return true; } void DrawObject() { int triview=0; long time = System.currentTimeMillis(); showStatus("Drawing "+triangles+" triangles ..."); /* ... cull and illuminate in world space ... */ model.transform(vertList, worldList, vertices); triList[0].setVertexList(worldList); for (int i = 0; i < triangles; i++) { triList[i].Illuminate(lightList, lights, eye, cull); if(triList[i].isVisible()){ triview++; } } /* .... clip in canonical eye coordinates ... */ view.transform(worldList, canonicalList, vertices); triList[0].setVertexList(canonicalList); raster.fill(Color.white); raster.resetz(); for (int i = 0; i < triangles; i++) { // check if trivially rejected if (triList[i].isVisible()) { triList[i].ClipAndDraw(raster, project); } } time = System.currentTimeMillis() - time; showStatus("Time = "+time+" ms"+" Drew "+triview+" triangles ..."); screen = raster.toImage( ); repaint(); } }