Java SubmatrixOps.setSubMatrix Examples

Programming Language: Java

Namespace/Package Name: org.ejml.alg.dense.mult

Class/Type: SubmatrixOps

Method/Function: setSubMatrix

Examples at hotexamples.com: 2

Java SubmatrixOps.setSubMatrix - 2 examples found. These are the top rated real world Java examples of org.ejml.alg.dense.mult.SubmatrixOps.setSubMatrix extracted from open source projects. You can rate examples to help us improve the quality of examples.

Frequently Used Methods

Show Hide

setSubMatrix(2)

Frequently Used Methods

setSubMatrix (2)

Example #1

Show file

File: TestAdjLinearSolverQr.java Project: jeppe/LinUCB

  @Test
  public void removeRowFromA() {
    int remove = 2;
    int m = 5;
    int n = 3;

    DenseMatrix64F A = RandomMatrices.createRandom(m, n, rand);

    // create the modified A
    DenseMatrix64F A_e = RandomMatrices.createRandom(m - 1, n, rand);
    SubmatrixOps.setSubMatrix(A, A_e, 0, 0, 0, 0, remove, n);
    SubmatrixOps.setSubMatrix(A, A_e, remove + 1, 0, remove, 0, m - remove - 1, n);

    // Compute the solution to the modified system
    DenseMatrix64F X = RandomMatrices.createRandom(n, 2, rand);
    DenseMatrix64F Y = new DenseMatrix64F(A_e.numRows, X.numCols);
    CommonOps.mult(A_e, X, Y);

    // create the solver from the original system then modify it
    AdjustableLinearSolver adjSolver = new AdjLinearSolverQr();

    adjSolver.setA(A);
    adjSolver.removeRowFromA(remove);

    // see if it produces the epected results

    // solve the system and see if it gets the expected solution
    DenseMatrix64F X_found = RandomMatrices.createRandom(X.numRows, X.numCols, rand);
    adjSolver.solve(Y, X_found);

    // see if they produce the same results
    assertTrue(MatrixFeatures.isIdentical(X_found, X, 1e-8));
  }

Example #2

Show file

File: TestAdjLinearSolverQr.java Project: jeppe/LinUCB

  @Test
  public void addRowToA() {
    int insert = 2;
    int m = 5;
    int n = 3;

    DenseMatrix64F A = RandomMatrices.createRandom(m, n, rand);
    double row[] = new double[] {1, 2, 3};

    // create the modified A
    DenseMatrix64F A_e = RandomMatrices.createRandom(m + 1, n, rand);
    SubmatrixOps.setSubMatrix(A, A_e, 0, 0, 0, 0, insert, n);
    System.arraycopy(row, 0, A_e.data, insert * n, n);
    SubmatrixOps.setSubMatrix(A, A_e, insert, 0, insert + 1, 0, m - insert, n);

    // Compute the solution to the modified  system
    DenseMatrix64F X = RandomMatrices.createRandom(n, 2, rand);
    DenseMatrix64F Y = new DenseMatrix64F(A_e.numRows, X.numCols);
    CommonOps.mult(A_e, X, Y);

    // create the solver from A then add a A.  The solver
    // should be equivalent to one created from A_e
    AdjustableLinearSolver adjSolver = new AdjLinearSolverQr();

    assertTrue(adjSolver.setA(A));
    adjSolver.addRowToA(row, insert);

    // solve the system and see if it gets the expected solution
    DenseMatrix64F X_found = RandomMatrices.createRandom(X.numRows, X.numCols, rand);
    adjSolver.solve(Y, X_found);

    // see if they produce the same results
    assertTrue(MatrixFeatures.isIdentical(X_found, X, 1e-8));
  }