/** * Convert a PmCartesian to a crcl.PointType * * @param c Cartesian point to convert * @return Point equivalent of input cartesian */ public static PointType toPointType(PmCartesian c) { PointType pt = new PointType(); pt.setX(BigDecimal.valueOf(c.x)); pt.setY(BigDecimal.valueOf(c.y)); pt.setZ(BigDecimal.valueOf(c.z)); return pt; }
public static PoseType invert(PoseType p) { PoseType pOut = new PoseType(); VectorType xAxisIn = p.getXAxis(); VectorType zAxisIn = p.getZAxis(); VectorType yAxisIn = cross(p.getZAxis(), p.getXAxis()); VectorType xAxisOut = new VectorType(); xAxisOut.setI(p.getXAxis().getI()); xAxisOut.setJ(yAxisIn.getI()); xAxisOut.setK(p.getZAxis().getI()); pOut.setXAxis(xAxisOut); VectorType zAxisOut = new VectorType(); zAxisOut.setI(p.getXAxis().getK()); zAxisOut.setJ(yAxisIn.getK()); zAxisOut.setK(p.getZAxis().getK()); pOut.setZAxis(zAxisOut); // VectorType yAxisOut = cross(zAxisOut,xAxisOut); PointType pt = new PointType(); pt.setX(dot(xAxisIn, p.getPoint()).negate()); pt.setY(dot(yAxisIn, p.getPoint()).negate()); pt.setZ(dot(zAxisIn, p.getPoint()).negate()); pOut.setPoint(pt); return pOut; }
public static PoseType toPose(double mat[][]) { if (null == mat || mat.length != 4 || mat[0].length != 4 || mat[1].length != 4 || mat[2].length != 4 || mat[3].length != 4) { throw new IllegalArgumentException("toPose() matrix should be 4x4"); } PoseType newPose = new PoseType(); PointType pt = new PointType(); pt.setX(BigDecimal.valueOf(mat[0][3])); pt.setY(BigDecimal.valueOf(mat[1][3])); pt.setZ(BigDecimal.valueOf(mat[2][3])); newPose.setPoint(pt); VectorType xAxis = new VectorType(); xAxis.setI(BigDecimal.valueOf(mat[0][0])); xAxis.setJ(BigDecimal.valueOf(mat[0][1])); xAxis.setK(BigDecimal.valueOf(mat[0][2])); newPose.setXAxis(xAxis); VectorType zAxis = new VectorType(); zAxis.setI(BigDecimal.valueOf(mat[2][0])); zAxis.setJ(BigDecimal.valueOf(mat[2][1])); zAxis.setK(BigDecimal.valueOf(mat[2][2])); newPose.setZAxis(zAxis); return newPose; }
public static PointType multiply(BigDecimal dist, PointType p) { PointType out = new PointType(); out.setX(p.getX().multiply(dist)); out.setY(p.getY().multiply(dist)); out.setZ(p.getZ().multiply(dist)); return out; }
public static PointType multiply(final BigDecimal dist, final VectorType v) { PointType out = new PointType(); out.setX(v.getI().multiply(dist)); out.setY(v.getJ().multiply(dist)); out.setZ(v.getK().multiply(dist)); return out; }
public static PointType subtract(PointType p1, PointType p2) { PointType sum = new PointType(); sum.setX(p1.getX().subtract(p2.getX())); sum.setY(p1.getY().subtract(p2.getY())); sum.setZ(p1.getZ().subtract(p2.getZ())); return sum; }
public static PoseType identityPose() { PoseType newPose = new PoseType(); PointType pt = new PointType(); pt.setX(BigDecimal.ZERO); pt.setY(BigDecimal.ZERO); pt.setZ(BigDecimal.ZERO); newPose.setPoint(pt); VectorType xAxis = new VectorType(); xAxis.setI(BigDecimal.ONE); xAxis.setJ(BigDecimal.ZERO); xAxis.setK(BigDecimal.ZERO); newPose.setXAxis(xAxis); VectorType zAxis = new VectorType(); zAxis.setI(BigDecimal.ZERO); zAxis.setJ(BigDecimal.ZERO); zAxis.setK(BigDecimal.ONE); newPose.setZAxis(zAxis); return newPose; }
public static PoseType multiply(PoseType p1, PoseType p2) { PoseType poseOut = new PoseType(); VectorType yAxis1 = cross(p1.getZAxis(), p1.getXAxis()); VectorType yAxis2 = cross(p2.getZAxis(), p2.getXAxis()); VectorType xAxisOut = new VectorType(); VectorType zAxisOut = new VectorType(); PointType pt2 = p2.getPoint(); PointType pt2rot = new PointType(); pt2rot.setX( p1.getXAxis() .getI() .multiply(pt2.getX()) .add(yAxis1.getI().multiply(pt2.getY())) .add(p1.getZAxis().getI().multiply(pt2.getZ()))); pt2rot.setY( p1.getXAxis() .getJ() .multiply(pt2.getX()) .add(yAxis1.getJ().multiply(pt2.getY())) .add(p1.getZAxis().getJ().multiply(pt2.getZ()))); pt2rot.setZ( p1.getXAxis() .getK() .multiply(pt2.getX()) .add(yAxis1.getK().multiply(pt2.getY())) .add(p1.getZAxis().getK().multiply(pt2.getZ()))); PointType pt = add(p1.getPoint(), pt2rot); poseOut.setPoint(pt); // xAxisOut.setI( // p1.getXAxis().getI().multiply(p2.getXAxis().getI()) // .add(p1.getXAxis().getJ().multiply(yAxis2.getI())) // .add(p1.getXAxis().getK().multiply(p2.getZAxis().getI())) // ); // xAxisOut.setJ( // p1.getXAxis().getI().multiply(p2.getXAxis().getJ()) // .add(p1.getXAxis().getJ().multiply(yAxis2.getJ())) // .add(p1.getXAxis().getK().multiply(p2.getZAxis().getJ())) // ); // xAxisOut.setK( // p1.getXAxis().getI().multiply(p2.getXAxis().getK()) // .add(p1.getXAxis().getJ().multiply(yAxis2.getK())) // .add(p1.getXAxis().getK().multiply(p2.getZAxis().getK())) // ); xAxisOut.setI( p1.getXAxis() .getI() .multiply(p2.getXAxis().getI()) .add(yAxis1.getI().multiply(p2.getXAxis().getJ())) .add(p1.getZAxis().getI().multiply(p2.getXAxis().getK()))); xAxisOut.setJ( p1.getXAxis() .getJ() .multiply(p2.getXAxis().getI()) .add(yAxis1.getJ().multiply(p2.getXAxis().getJ())) .add(p1.getZAxis().getJ().multiply(p2.getXAxis().getK()))); xAxisOut.setK( p1.getXAxis() .getK() .multiply(p2.getXAxis().getI()) .add(yAxis1.getK().multiply(p2.getXAxis().getJ())) .add(p1.getZAxis().getK().multiply(p2.getXAxis().getK()))); poseOut.setXAxis(xAxisOut); zAxisOut.setI( p1.getXAxis() .getI() .multiply(p2.getZAxis().getI()) .add(yAxis1.getI().multiply(p2.getZAxis().getJ())) .add(p1.getZAxis().getI().multiply(p2.getZAxis().getK()))); zAxisOut.setJ( p1.getXAxis() .getJ() .multiply(p2.getZAxis().getI()) .add(yAxis1.getJ().multiply(p2.getZAxis().getJ())) .add(p1.getZAxis().getJ().multiply(p2.getZAxis().getK()))); zAxisOut.setK( p1.getXAxis() .getK() .multiply(p2.getZAxis().getI()) .add(yAxis1.getK().multiply(p2.getZAxis().getJ())) .add(p1.getZAxis().getK().multiply(p2.getZAxis().getK()))); poseOut.setZAxis(zAxisOut); return poseOut; }