File: comp_chirpzt.cc

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octave-ltfat 2.3.1%2Bdfsg-8

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#define TYPEDEPARGS 0
#define SINGLEARGS
#define COMPLEXINDEPENDENT
#define OCTFILENAME comp_chirpzt // change to filename
#define OCTFILEHELP "This function calls the C-library\n\
                     c = comp_chirpzt(f,K,deltao,o)\n Yeah."

#include "ltfat_oct_template_helper.h"

static inline void
fwd_chzt(const Complex *fPtr, const octave_idx_type L,
         const octave_idx_type W, const octave_idx_type K,
         const double deltao, const double o,
         Complex *cPtr )
{
    ltfat_chzt_dc(reinterpret_cast<const ltfat_complex_d *>(fPtr),
            L, W, K, deltao, o,
            reinterpret_cast<ltfat_complex_d *>(cPtr));
}

static inline void
fwd_chzt(const FloatComplex *fPtr, const octave_idx_type L,
         const octave_idx_type W, const octave_idx_type K,
         const double deltao, const double o,
         FloatComplex *cPtr )
{
    ltfat_chzt_sc(reinterpret_cast<const ltfat_complex_s *>(fPtr),
            L, W, K, deltao, o,
            reinterpret_cast<ltfat_complex_s *>(cPtr));
}

static inline void
fwd_chzt(const double *fPtr, const octave_idx_type L,
         const octave_idx_type W, const octave_idx_type K,
         const double deltao, const double o,
         Complex *cPtr )
{
    ltfat_chzt_d(fPtr, L, W, K, deltao, o,
           reinterpret_cast<ltfat_complex_d *>(cPtr));
}

static inline void
fwd_chzt(const float *fPtr, const octave_idx_type L,
         const octave_idx_type W, const octave_idx_type K,
         const double deltao, const double o, FloatComplex *cPtr )
{
    ltfat_chzt_s(fPtr, L, W, K, deltao, o,
           reinterpret_cast<ltfat_complex_s *>(cPtr));
}

template <class LTFAT_TYPE, class LTFAT_REAL, class LTFAT_COMPLEX>
octave_value_list
octFunction(const octave_value_list& args, int nargout)
{
    // Input data
    MArray<LTFAT_TYPE> f = ltfatOctArray<LTFAT_TYPE>(args(0));
    const octave_idx_type K = (octave_idx_type) args(1).double_value();
    const double deltao = args(2).double_value();
    const double o = args(3).double_value();

    // Input length
    const octave_idx_type L  = f.rows();
    // Number of channels
    const octave_idx_type W  = f.columns();

    //dims_out.chop_trailing_singletons();
    MArray<LTFAT_COMPLEX> c(dim_vector(K, W));

    fwd_chzt(f.data(), L, W, K, deltao, o, c.fortran_vec());

    return octave_value(c);
}