Beispiel #1
0
 @Override
 public void setDiffOrder(int partDiffOrder) {
   if (partDiffOrder < 0 || partDiffOrder >= 2) {
     throw new UnsupportedOperationException();
   }
   this.diffOrder = partDiffOrder;
   weightFunction.setDiffOrder(partDiffOrder);
   basesFunction.setDiffOrder(partDiffOrder);
   euclideanDistSqFun.setDiffOrder(partDiffOrder);
   nodesWeightsCache = new TDoubleArrayList[CommonUtils.len2DBase(partDiffOrder)];
   distSquaresCache = new TDoubleArrayList[nodesWeightsCache.length];
   for (int i = 0; i < nodesWeightsCache.length; i++) {
     nodesWeightsCache[i] = new TDoubleArrayList(ShapeFunctionUtils2D.MAX_NODES_SIZE_GUESS);
     distSquaresCache[i] = new TDoubleArrayList(ShapeFunctionUtils2D.MAX_NODES_SIZE_GUESS);
   }
 }
Beispiel #2
0
 @Override
 public TDoubleArrayList[] values(
     Coordinate pos,
     List<? extends Coordinate> nodes,
     TDoubleArrayList[] distSquares,
     TDoubleArrayList infRads,
     TDoubleArrayList[] results) {
   if (null == distSquares) {
     distSquares = this.distSquaresCache;
     euclideanDistSqFun.setPosition(pos);
     euclideanDistSqFun.sqValues(nodes, distSquares);
   }
   int ndsNum = nodes.size();
   weightFunction.values(distSquares, infRads, nodesWeightsCache);
   results = ShapeFunctionUtils2D.init4Output(results, diffOrder, ndsNum);
   int diffDim = CommonUtils.len2DBase(diffOrder);
   int baseDim = basesFunction.getDim();
   Coordinate zero = new Coordinate(0, 0, 0);
   Coordinate radCoord = new Coordinate(0, 0, 0);
   for (int i = 0; i < diffDim; i++) {
     As[i].zero();
     ArrayList<TDoubleArrayList> tB = Bs.get(i);
     for (int j = 0; j < baseDim; j++) {
       TDoubleArrayList v = tB.get(j);
       v.resetQuick();
       v.ensureCapacity(ndsNum);
       v.fill(0, ndsNum, 0);
     }
   }
   basesFunction.setDiffOrder(0);
   for (int diffDimIdx = 0; diffDimIdx < diffDim; diffDimIdx++) {
     TDoubleArrayList weights_d = nodesWeightsCache[diffDimIdx];
     DenseMatrix64F A_d = As[diffDimIdx];
     ArrayList<TDoubleArrayList> B_d = Bs.get(diffDimIdx);
     double[] tp = ps_arr[0];
     int ndIdx = 0;
     for (Coordinate nd : nodes) {
       if (areBasesRelative) {
         GeometryMath.minus(nd, pos, radCoord);
         basesFunction.values(radCoord, ps_arr);
       } else {
         basesFunction.values(nd, ps_arr);
       }
       double weight_d = weights_d.getQuick(ndIdx);
       for (int i = 0; i < baseDim; i++) {
         double p_i = tp[i];
         for (int j = 0; j < baseDim; j++) {
           double p_ij = p_i * tp[j];
           A_d.add(i, j, weight_d * p_ij);
         }
         B_d.get(i).set(ndIdx, weight_d * p_i);
       }
       ndIdx++;
     }
   }
   basesFunction.setDiffOrder(diffOrder);
   if (areBasesRelative) {
     basesFunction.values(zero, ps_arr);
   } else {
     basesFunction.values(pos, ps_arr);
   }
   A_bak.set(A);
   luSolver.setA(A_bak);
   tv.set(p);
   luSolver.solve(tv, gamma);
   //            CommonOps.solve(A, p, gamma);
   ShapeFunctionUtils2D.multAddTo(gamma, B, results[0]);
   if (diffOrder < 1) {
     return results;
   }
   tv.zero();
   CommonOps.mult(-1, A_x, gamma, tv);
   CommonOps.add(p_x, tv, tv);
   luSolver.solve(tv, gamma_x);
   //            CommonOps.solve(A, tv, gamma_x);
   tv.zero();
   CommonOps.mult(-1, A_y, gamma, tv);
   CommonOps.add(p_y, tv, tv);
   luSolver.solve(tv, gamma_y);
   //            CommonOps.solve(A, tv, gamma_y);
   ShapeFunctionUtils2D.multAddTo(gamma_x, B, results[1]);
   ShapeFunctionUtils2D.multAddTo(gamma, B_x, results[1]);
   ShapeFunctionUtils2D.multAddTo(gamma_y, B, results[2]);
   ShapeFunctionUtils2D.multAddTo(gamma, B_y, results[2]);
   return results;
 }