ztrtrs function
void
ztrtrs()
Implementation
void ztrtrs(
final String UPLO,
final String TRANS,
final String DIAG,
final int N,
final int NRHS,
final Matrix<Complex> A_,
final int LDA,
final Matrix<Complex> B_,
final int LDB,
final Box<int> INFO,
) {
final A = A_.having(ld: LDA);
final B = B_.having(ld: LDB);
bool NOUNIT;
// Test the input parameters.
INFO.value = 0;
NOUNIT = lsame(DIAG, 'N');
if (!lsame(UPLO, 'U') && !lsame(UPLO, 'L')) {
INFO.value = -1;
} else if (!lsame(TRANS, 'N') && !lsame(TRANS, 'T') && !lsame(TRANS, 'C')) {
INFO.value = -2;
} else if (!NOUNIT && !lsame(DIAG, 'U')) {
INFO.value = -3;
} else if (N < 0) {
INFO.value = -4;
} else if (NRHS < 0) {
INFO.value = -5;
} else if (LDA < max(1, N)) {
INFO.value = -7;
} else if (LDB < max(1, N)) {
INFO.value = -9;
}
if (INFO.value != 0) {
xerbla('ZTRTRS', -INFO.value);
return;
}
// Quick return if possible
if (N == 0) return;
// Check for singularity.
if (NOUNIT) {
for (INFO.value = 1; INFO.value <= N; INFO.value++) {
if (A[INFO.value][INFO.value] == Complex.zero) return;
}
}
INFO.value = 0;
// Solve A * x = b, A**T * x = b, or A**H * x = b.
ztrsm('Left', UPLO, TRANS, DIAG, N, NRHS, Complex.one, A, LDA, B, LDB);
}