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16.4.4 The CALL Command

A matrix function returns a single result. The CALL command implements procedures, which take a similar syntactic form to functions but yield results by modifying their arguments rather than returning a value.

Output arguments to a CALL procedure must be a single variable name.

The following procedures are implemented via CALL to allow them to return multiple results. For these procedures, the output arguments need not name existing variables; if they do, then their previous values are replaced:

CALL EIGEN(M, evec, eval)

Computes the eigenvalues and eigenvector of symmetric n×n matrix M. Assigns the eigenvectors of M to the columns of n×n matrix evec and the eigenvalues in descending order to n-element column vector eval.

Use the EVAL function (see EVAL) to compute just the eigenvalues of a symmetric matrix.

For example, the following matrix language commands:

CALL EIGEN({1, 0; 0, 1}, evec, eval).
PRINT evec.
PRINT eval.

CALL EIGEN({3, 2, 4; 2, 0, 2; 4, 2, 3}, evec2, eval2).
PRINT evec2.
PRINT eval2.

yield this output:

evec
  1  0
  0  1

eval
  1
  1

evec2
  -.6666666667   .0000000000   .7453559925
  -.3333333333  -.8944271910  -.2981423970
  -.6666666667   .4472135955  -.5962847940

eval2
  8.0000000000
 -1.0000000000
 -1.0000000000
CALL SVD(M, U, S, V)

Computes the singular value decomposition of n×k matrix M, assigning S a n×k diagonal matrix and to U and V unitary k×k matrices such that M = U×S×V^T. The main diagonal of Q contains the singular values of M.

Use the SVAL function (see SVAL) to compute just the singular values of a matrix.

For example, the following matrix program:

CALL SVD({3, 2, 2; 2, 3, -2}, u, s, v).
PRINT (u * s * T(v))/FORMAT F5.1.

yields this output:

(u * s * T(v))
   3.0   2.0   2.0
   2.0   3.0  -2.0

The final procedure is implemented via CALL to allow it to modify a matrix instead of returning a modified version. For this procedure, the output argument must name an existing variable.

CALL SETDIAG(M, V)

Replaces the main diagonal of n×p matrix M by the contents of k-element vector V. If k = 1, so that V is a scalar, replaces all of the diagonal elements of M by V. If k < \min(n,p), only the upper k diagonal elements are replaced; if k > \min(n,p), then the extra elements of V are ignored.

Use the MDIAG function (see MDIAG) to construct a new matrix with a specified main diagonal.

For example, this matrix program:

COMPUTE x={1, 2, 3; 4, 5, 6; 7, 8, 9}.
CALL SETDIAG(x, 10).
PRINT x.

outputs the following:

x
  10   2   3
   4  10   6
   7   8  10

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