Example usage for javax.media.j3d LineStripArray setCoordinates

List of usage examples for javax.media.j3d LineStripArray setCoordinates

Introduction

In this page you can find the example usage for javax.media.j3d LineStripArray setCoordinates.

Prototype

public void setCoordinates(int index, float coordinates[]) 

Source Link

Document

Sets the coordinates associated with the vertices starting at the specified index for this object.

Usage

From source file:GeomInfoApp.java

public BranchGroup createSceneGraph(boolean wireFrame) {
    int total = 0;

    System.out.println("\n --- geometry debug information --- \n");

    float[] coordinateData = null;
    coordinateData = createCoordinateData();
    int[] stripCount = { 17, 17, 5, 5, 5, 5, 5, 5, 5 }; // ******
    //        int[] stripCount = {17,17,17}; // ******

    for (int i = 0; i < stripCount.length; i++) {
        System.out.println("stripCount[" + i + "] = " + stripCount[i]);
        total += stripCount[i];//from w  w w. j a v  a  2 s .  c  o  m
    }

    if (total != coordinateData.length / 3) {
        System.out.println("  coordinateData vertex count: " + coordinateData.length / 3);
        System.out.println("stripCount total vertex count: " + total);
    }

    GeometryInfo gi = new GeometryInfo(GeometryInfo.POLYGON_ARRAY);
    gi.setCoordinates(coordinateData);
    gi.setStripCounts(stripCount);

    Triangulator tr = new Triangulator();
    //        Triangulator tr = new Triangulator(1);
    System.out.println("begin triangulation");
    tr.triangulate(gi);
    System.out.println("  END triangulation");
    gi.recomputeIndices();

    NormalGenerator ng = new NormalGenerator();
    ng.generateNormals(gi);
    gi.recomputeIndices();

    Stripifier st = new Stripifier();
    st.stripify(gi);
    gi.recomputeIndices();

    Shape3D part = new Shape3D();
    if (wireFrame == true)
        part.setAppearance(createWireFrameAppearance());
    else
        part.setAppearance(createMaterialAppearance());
    part.setGeometry(gi.getGeometryArray());

    /////////////////////////////

    BranchGroup contentRoot = new BranchGroup();

    // Create the transform group node and initialize it to the
    // identity. Add it to the root of the subgraph.
    TransformGroup objSpin = new TransformGroup();
    objSpin.setCapability(TransformGroup.ALLOW_TRANSFORM_WRITE);
    contentRoot.addChild(objSpin);

    objSpin.addChild(part);

    ////////////////////////
    LineStripArray lineArray = new LineStripArray(69, LineArray.COORDINATES, stripCount); //*****
    //        LineStripArray lineArray = new LineStripArray(51,
    // LineArray.COORDINATES, stripCount); //*****
    lineArray.setCoordinates(0, coordinateData);
    Appearance blueColorAppearance = new Appearance();
    ColoringAttributes blueColoring = new ColoringAttributes();
    blueColoring.setColor(0.0f, 0.0f, 1.0f);
    blueColorAppearance.setColoringAttributes(blueColoring);
    LineAttributes lineAttrib = new LineAttributes();
    lineAttrib.setLineWidth(2.0f);
    blueColorAppearance.setLineAttributes(lineAttrib);
    objSpin.addChild(new Shape3D(lineArray, blueColorAppearance));

    Alpha rotationAlpha = new Alpha(-1, 16000);

    RotationInterpolator rotator = new RotationInterpolator(rotationAlpha, objSpin);

    // a bounding sphere specifies a region a behavior is active
    // create a sphere centered at the origin with radius of 1
    BoundingSphere bounds = new BoundingSphere();
    rotator.setSchedulingBounds(bounds);
    objSpin.addChild(rotator);

    DirectionalLight lightD = new DirectionalLight();
    lightD.setDirection(new Vector3f(0.0f, -0.7f, -0.7f));
    lightD.setInfluencingBounds(bounds);
    contentRoot.addChild(lightD);

    AmbientLight lightA = new AmbientLight();
    lightA.setInfluencingBounds(bounds);
    contentRoot.addChild(lightA);

    Background background = new Background();
    background.setColor(1.0f, 1.0f, 1.0f);
    background.setApplicationBounds(bounds);
    contentRoot.addChild(background);

    // Let Java 3D perform optimizations on this scene graph.
    // contentRoot.compile();

    return contentRoot;
}

From source file:ViewProj.java

public BranchGroup createProjViewSG() {
    // Create the root of the branch graph
    BranchGroup objRoot = new BranchGroup();
    objRoot.setCapability(BranchGroup.ALLOW_DETACH);

    // setup a transform group to hold the scaled scene
    TransformGroup objTrans = new TransformGroup();
    Transform3D scale = new Transform3D();
    scale.set(0.9);/* w  ww  .  ja va2 s.  co m*/
    objTrans.setTransform(scale);
    objRoot.addChild(objTrans);

    // create the clip limits line
    Point3f[] cpPoints = new Point3f[5];
    cpPoints[0] = new Point3f(-1, -1, 0.1f);
    cpPoints[1] = new Point3f(1, -1, 0.1f);
    cpPoints[2] = new Point3f(1, 1, 0.1f);
    cpPoints[3] = new Point3f(-1, 1, 0.1f);
    cpPoints[4] = cpPoints[0];
    int[] cpLength = new int[1];
    cpLength[0] = 5;
    LineStripArray cpLines = new LineStripArray(5, LineArray.COORDINATES, cpLength);
    cpLines.setCoordinates(0, cpPoints);
    Appearance cpApp = new Appearance();
    ColoringAttributes cpCa = new ColoringAttributes(blue, ColoringAttributes.SHADE_FLAT);
    cpApp.setColoringAttributes(cpCa);
    LineAttributes cpLa = new LineAttributes();
    Shape3D cpShape = new Shape3D(cpLines, cpApp);
    objTrans.addChild(cpShape);

    // transform and render the clip grid points
    updateProjTrans();

    if (numClipGridPts > 0) {
        // transform the clipGridPts
        for (int i = 0; i < numClipGridPts; i++) {
            projectPoint(clipGridPtsVW[i], clipGridPtsProj[i]);
        }

        LineArray clipLn = new LineArray(numClipGridPts, LineArray.COORDINATES);
        clipLn.setCoordinates(0, clipGridPtsProj, 0, numClipGridPts);
        Appearance clipGridApp = new Appearance();
        ColoringAttributes clipCa = new ColoringAttributes(black, ColoringAttributes.SHADE_FLAT);
        clipGridApp.setColoringAttributes(clipCa);
        LineAttributes clipLa = new LineAttributes();
        Shape3D clipShape = new Shape3D(clipLn, clipGridApp);
        objTrans.addChild(clipShape);
    }

    // set up the circle
    Appearance circleApp = new Appearance();
    ColoringAttributes circleCa = new ColoringAttributes();
    circleCa.setColor(red);
    circleApp.setColoringAttributes(circleCa);
    PolygonAttributes pa = new PolygonAttributes();
    pa.setCullFace(PolygonAttributes.CULL_NONE);
    circleApp.setPolygonAttributes(pa);

    // transform the circlePts
    for (int i = 0; i < numCirclePts; i++) {
        projectPoint(circlePtsVW[i], circlePtsProj[i]);
    }

    int[] lineStripLength = new int[1];
    lineStripLength[0] = numCirclePts;
    //LineStripArray circleLineStrip = new LineStripArray(numCirclePts,
    //        LineArray.COORDINATES, lineStripLength);
    TriangleFanArray circleLineStrip = new TriangleFanArray(numCirclePts, LineArray.COORDINATES,
            lineStripLength);
    circleLineStrip.setCoordinates(0, circlePtsProj);
    Shape3D circleShape = new Shape3D(circleLineStrip, circleApp);
    objTrans.addChild(circleShape);

    return objRoot;
}

From source file:ViewProj.java

public BranchGroup createVWorldViewSG() {
    // Create the root of the branch graph
    BranchGroup objRoot = new BranchGroup();
    objRoot.setCapability(BranchGroup.ALLOW_DETACH);

    // setup a transform group to hold the scaled scene
    TransformGroup objTrans = new TransformGroup();
    objRoot.addChild(objTrans);//from  w  w  w  . j a  v  a2  s  .c  o m

    // get the eye point, field of view and clip distances
    float fov = (float) view.getFieldOfView();

    // figure out the angle factors to find points along the edges
    // of the FOV
    // X = fovSpreadX * (Y - eyeVW.y) + eyeVW.x;
    float fovSpreadX = (float) Math.tan(fov / 2);
    // Z = fovSpreadZ * (X - eyeVW.x) + eyeVW.z;
    float fovSpreadZ = 1.0f / fovSpreadX;
    //System.out.println("fovSpreadX = " + fovSpreadX);
    //System.out.println("fovSpreadZ = " + fovSpreadZ);

    Transform3D vpTransform = new Transform3D();
    viewingPlatform.getViewPlatformTransform().getTransform(vpTransform);
    Vector3f vpTranslation = new Vector3f();
    vpTransform.get(vpTranslation);
    eyePtVW.set(vpTranslation);
    eyePtVW.negate();
    // get the eye point in our 2D coord system.
    Point3f eyePt = new Point3f(0.0f, eyePtVW.z, 0.1f);
    float frontClipDist = (float) view.getFrontClipDistance();
    float backClipDist = (float) view.getBackClipDistance();

    // set up the clip plane lines
    Point3f[] cpPoints = new Point3f[5];
    cpPoints[0] = new Point3f(frontClipDist * fovSpreadX, eyePtVW.z + frontClipDist, 0.1f);
    cpPoints[1] = new Point3f(cpPoints[0]);
    cpPoints[1].x *= -1;
    Point3f backLeft = new Point3f(-backClipDist * fovSpreadX, eyePtVW.z + backClipDist, 0.1f);
    cpPoints[2] = backLeft;
    Point3f backRight = new Point3f(backLeft);
    backRight.x *= -1;
    cpPoints[3] = backRight;
    cpPoints[4] = cpPoints[0];
    //for (int i = 0; i < 4; i++) {
    //    System.out.println("cpPoints[" + i + "] = " + cpPoints[i]);
    //}
    int[] cpLength = new int[1];
    cpLength[0] = 5;
    LineStripArray cpLines = new LineStripArray(5, LineArray.COORDINATES, cpLength);
    cpLines.setCoordinates(0, cpPoints);
    Appearance cpApp = new Appearance();
    ColoringAttributes cpCa = new ColoringAttributes(blue, ColoringAttributes.SHADE_FLAT);
    cpApp.setColoringAttributes(cpCa);
    Shape3D cpShape = new Shape3D(cpLines, cpApp);
    objTrans.addChild(cpShape);

    // get the limits of the space
    float minY = eyePt.y;
    float maxY = backLeft.y;
    float minX = backLeft.x;
    float maxX = backRight.x;

    // figure out the X and Y extents and offsets
    float deltaX = maxX - minX;
    float deltaY = maxY - minY;
    float offsetX = -(maxX + minX) / 2.0f;
    float offsetY = -(maxY + minY) / 2.0f;
    float gridSize = Math.max(deltaX, deltaY);

    // scale the grid slightly to give a border around the edge
    gridSize *= 1.1f;

    //System.out.println("offsetX = " + offsetX);
    //System.out.println("offsetY = " + offsetY);

    // Scale the view to fit -1 to 1
    Transform3D trans = new Transform3D();
    trans.set(new Vector3f(offsetX, offsetY, 0.0f), 2.0f / gridSize);
    objTrans.setTransform(trans);

    // figure out a grid step that is a multiple of 10 which keeps the
    // number of steps less than 30.
    float gridStep = 1.0f;
    while ((gridSize / gridStep) > 30.0) {
        gridStep *= 10;
    }
    int gridNumSteps = (int) Math.ceil(gridSize / gridStep) + 1;

    // allocate the grid points array, four points for each step (x and y)
    // with a couple extra points for the extra grid points added
    // below
    int gridNumPoints = 4 * (gridNumSteps + 4);
    Point3f[] gridPts = new Point3f[gridNumPoints];
    for (int i = 0; i < gridNumPoints; i++) {
        gridPts[i] = new Point3f();
    }

    // find the grid limits. Add a step on each side to make sure
    // the grid is larger than the view
    float gridMinY = gridStepFloor(minY, gridStep) - gridStep;
    float gridMaxY = gridStepCeil(maxY, gridStep) + gridStep;
    float gridMinX = gridStepFloor(minX, gridStep) - gridStep;
    float gridMaxX = gridStepCeil(maxX, gridStep) + gridStep;
    //System.out.println("gridMinY = " + gridMinY);
    //System.out.println("gridMaxY = " + gridMaxY);
    //System.out.println("gridMinX = " + gridMinX);
    //System.out.println("gridMaxX = " + gridMaxX);

    // set up the background grid
    Appearance bgApp = new Appearance();
    ColoringAttributes bgCa = new ColoringAttributes();
    bgCa.setColor(grey);
    LineAttributes bgLa = new LineAttributes();
    bgApp.setColoringAttributes(bgCa);

    // clear out the clip grid point list
    numClipGridPts = 0;

    // set up the vertical lines
    int numPts = 0;
    for (float x = gridMinX; x <= gridMaxX; x += gridStep) {
        gridPts[numPts].x = x;
        gridPts[numPts].y = gridMinY;
        gridPts[numPts].z = -0.2f;
        gridPts[numPts + 1].x = x;
        gridPts[numPts + 1].y = gridMaxY;
        gridPts[numPts + 1].z = -0.2f;
        numPts += 2;

        // try to add a line to the clipped grid
        // find the intersection of the clipped line with the FOV sides
        // this is a distance relative to the eye
        float clipZ = fovSpreadZ * Math.abs(x - eyePtVW.x);
        if (clipZ < frontClipDist) { // clip to front clip plane
            clipZ = frontClipDist;
        }
        if (clipZ < backClipDist) { // clip to back clip plane
            // line is not clipped
            clipGridPtsVW[numClipGridPts].x = x;
            clipGridPtsVW[numClipGridPts].y = clipZ + eyePtVW.z;
            clipGridPtsVW[numClipGridPts].z = -0.1f;
            clipGridPtsVW[numClipGridPts + 1].x = x;
            clipGridPtsVW[numClipGridPts + 1].y = backClipDist + eyePtVW.z;
            clipGridPtsVW[numClipGridPts + 1].z = -0.1f;
            numClipGridPts += 2;
        }
    }
    LineArray vertLa = new LineArray(numPts, LineArray.COORDINATES);
    vertLa.setCoordinates(0, gridPts, 0, numPts);
    Shape3D vertShape = new Shape3D(vertLa, bgApp);
    objTrans.addChild(vertShape);

    // set up the horizontal lines
    numPts = 0;
    for (float y = gridMinY; y <= gridMaxY; y += gridStep) {
        gridPts[numPts].x = gridMinX;
        gridPts[numPts].y = y;
        gridPts[numPts++].z = -0.2f;
        gridPts[numPts].x = gridMaxX;
        gridPts[numPts].y = y;
        gridPts[numPts++].z = -0.2f;

        // try to add a line to the clipped grid
        // find the intersection of the clipped line with the FOV sides
        // this is a distance relative to the eye
        float clipDist = (y - eyePtVW.z);
        if ((clipDist > frontClipDist) && (clipDist < backClipDist)) {

            float clipX = fovSpreadX * clipDist;
            clipGridPtsVW[numClipGridPts].x = -clipX;
            clipGridPtsVW[numClipGridPts].y = y;
            clipGridPtsVW[numClipGridPts].z = -0.1f;
            clipGridPtsVW[numClipGridPts + 1].x = clipX;
            clipGridPtsVW[numClipGridPts + 1].y = y;
            clipGridPtsVW[numClipGridPts + 1].z = -0.1f;
            numClipGridPts += 2;
        }
    }
    LineArray horizLa = new LineArray(numPts, LineArray.COORDINATES);
    horizLa.setCoordinates(0, gridPts, 0, numPts);
    Shape3D horizShape = new Shape3D(horizLa, bgApp);
    objTrans.addChild(horizShape);

    // draw the clipped grid.
    if (numClipGridPts > 0) {
        LineArray clipLa = new LineArray(numClipGridPts, LineArray.COORDINATES);
        clipLa.setCoordinates(0, clipGridPtsVW, 0, numClipGridPts);
        Appearance clipGridApp = new Appearance();
        ColoringAttributes clipCa = new ColoringAttributes(black, ColoringAttributes.SHADE_FLAT);
        clipGridApp.setColoringAttributes(clipCa);
        LineAttributes clipGridLa = new LineAttributes();
        Shape3D clipShape = new Shape3D(clipLa, clipGridApp);
        objTrans.addChild(clipShape);
    }

    // set up the coordinate system
    Appearance coordSysApp = new Appearance();
    LineAttributes coordSysLa = new LineAttributes();
    coordSysLa.setLineWidth(3.0f);
    coordSysApp.setLineAttributes(coordSysLa);
    ColoringAttributes coordSysCa = new ColoringAttributes(grey, ColoringAttributes.SHADE_FLAT);
    coordSysApp.setColoringAttributes(coordSysCa);
    Point3f[] coordSysPts = new Point3f[4];
    coordSysPts[0] = new Point3f(gridMinX, 0, -0.5f);
    coordSysPts[1] = new Point3f(gridMaxX, 0, -0.5f);
    coordSysPts[2] = new Point3f(0, gridMinY, -0.5f);
    coordSysPts[3] = new Point3f(0, gridMaxY, -0.5f);
    LineArray coordSysLines = new LineArray(4, LineArray.COORDINATES);
    coordSysLines.setCoordinates(0, coordSysPts);
    Shape3D coordSysShape = new Shape3D(coordSysLines, coordSysApp);
    objTrans.addChild(coordSysShape);

    // set up the circle
    Appearance circleApp = new Appearance();
    ColoringAttributes circleCa = new ColoringAttributes();
    circleCa.setColor(red);
    circleApp.setColoringAttributes(circleCa);
    PolygonAttributes pa = new PolygonAttributes();
    pa.setCullFace(PolygonAttributes.CULL_NONE);
    circleApp.setPolygonAttributes(pa);
    int step = 360 / (numCirclePts - 1);
    for (int deg = 0; deg < 360; deg += step) {
        double angle = Math.toRadians(deg);
        circlePtsVW[deg / 10].x = sphereRadius * (float) Math.sin(angle);
        circlePtsVW[deg / 10].y = sphereRadius * (float) Math.cos(angle);
        circlePtsVW[deg / 10].z = -0.3f;
    }
    circlePtsVW[numCirclePts - 1].set(circlePtsVW[0]);
    int[] lineStripLength = new int[1];
    lineStripLength[0] = numCirclePts;
    //LineStripArray circleLineStrip = new LineStripArray(numCirclePts,
    //        LineArray.COORDINATES, lineStripLength);
    TriangleFanArray circleLineStrip = new TriangleFanArray(numCirclePts, LineArray.COORDINATES,
            lineStripLength);
    circleLineStrip.setCoordinates(0, circlePtsVW);
    Shape3D circleShape = new Shape3D(circleLineStrip, circleApp);
    objTrans.addChild(circleShape);

    return objRoot;
}

From source file:AppearanceExplorer.java

Shape3D createLineStripArray() {

    int[] stripLengths = new int[2];
    stripLengths[0] = 3;/*  w  w w  .  ja  v a  2  s. c o m*/
    stripLengths[1] = 2;
    Point3f pnt[] = new Point3f[5];
    // first line
    pnt[0] = new Point3f(-1.0f, -1.0f, 0.0f);
    pnt[1] = new Point3f(1.0f, -1.0f, 0.0f);
    pnt[2] = new Point3f(1.0f, 1.0f, 0.0f);
    // second line
    pnt[3] = new Point3f(0.5f, 0.5f, 0.0f);
    pnt[4] = new Point3f(-0.5f, -0.5f, 0.0f);

    LineStripArray lsa = new LineStripArray(5, GeometryArray.COORDINATES, stripLengths);
    lsa.setCoordinates(0, pnt);

    return new Shape3D(lsa, appearance);
}