24 #if defined (HAVE_CONFIG_H) 59 F77_INT min_mn = (m < n ? m : n);
80 lwork =
std::max (lwork, static_cast<F77_INT> (1));
96 jpvt -=
static_cast<F77_INT> (1);
127 F77_INT min_mn = (m < n ? m : n);
148 lwork =
std::max (lwork, static_cast<F77_INT> (1));
164 jpvt -=
static_cast<F77_INT> (1);
195 F77_INT min_mn = (m < n ? m : n);
221 lwork =
std::max (lwork, static_cast<F77_INT> (1));
229 lwork, rwork, info));
240 jpvt -=
static_cast<F77_INT> (1);
271 F77_INT min_mn = (m < n ? m : n);
297 lwork =
std::max (lwork, static_cast<F77_INT> (1));
305 lwork, rwork, info));
316 jpvt -=
static_cast<F77_INT> (1);
void resize(octave_idx_type nr, octave_idx_type nc, const FloatComplex &rfv=FloatComplex(0))
void resize(octave_idx_type nr, octave_idx_type nc, float rfv=0)
Template for N-dimensional array classes with like-type math operators.
void resize(octave_idx_type nr, octave_idx_type nc, double rfv=0)
qrp(const Matrix &a, type qr_type)
F77_RET_T const F77_REAL const F77_REAL F77_REAL &F77_RET_T const F77_DBLE const F77_DBLE F77_DBLE &F77_RET_T const F77_DBLE F77_DBLE &F77_RET_T const F77_REAL F77_REAL &F77_RET_T const F77_DBLE const F77_DBLE * f
OCTAVE_EXPORT octave_value_list while another program execution is suspended until the graphics object the function returns immediately In the second form
#define F77_DBLE_CMPLX_ARG(x)
const T * fortran_vec(void) const
RowVector Pvec(void) const
#define F77_XFCN(f, F, args)
void init(const T &, type=qr< T >::std)
calling an anonymous function involves an overhead quite comparable to the overhead of an m file function Passing a handle to a built in function is because the interpreter is not involved in the internal loop For a
static octave::math::qr< T >::type qr_type(int nargout, bool economy)
void init(const Matrix &a, type qr_type)
charNDArray max(char d, const charNDArray &m)
void resize(octave_idx_type nr, octave_idx_type nc, const Complex &rfv=Complex(0))
octave_f77_int_type F77_INT
#define OCTAVE_LOCAL_BUFFER(T, buf, size)
std::complex< float > FloatComplex
std::complex< double > Complex
Vector representing the dimensions (size) of an Array.