# doc-cache created by Octave 4.0.0
# name: cache
# type: cell
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# columns: 40
# name: <cell-element>
# type: sq_string
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# length: 24
comp_atrousfilterbank_td


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 103
This function calls the C-library
                     c=comp_atrousfilterbank_td(f,g,a,offset) 
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_atrousfilterbank_t



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 16
comp_cellcoef2tf


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 69
Cell to tf-layout.
Usage: coef = comp_cellcoef2tf(coef,maxLen)
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 18
Cell to tf-layout.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 12
comp_chirpzt


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 92
This function calls the C-library
                     c = comp_chirpzt(f,K,deltao,o)
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c = comp_chirpzt(f,K,delt



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 13
comp_col2diag


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 91
Computes spreading permutation.
                     Usage: cout=comp_col2diag(cin);
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 31
Computes spreading permutation.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 8
comp_dct


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 40
This function calls FFTW library.
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 33
This function calls FFTW library.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 12
comp_dgt_ola


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 89
This function calls the C-library
                     c=comp_dgt_ola(f,g,a,M,bl);
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_dgt_ola(f,g,a,M,bl



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 16
comp_dgtreal_ola


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 113
This function calls the C-library
                     c=comp_dgtreal_ola(f,g,a,M,bl);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_dgtreal_ola(f,g,a,



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 8
comp_dst


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 40
This function calls FFTW library.
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 33
This function calls FFTW library.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 10
comp_dwilt


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 105
This function calls the C-library
                     coef=comp_dwilt(f,g,M);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     coef=comp_dwilt(f,g,M);
 



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 13
comp_dwiltiii


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 108
This function calls the C-library
                     coef=comp_dwiltiii(f,g,M);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     coef=comp_dwiltiii(f,g,M)



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 12
comp_fftreal


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 105
This function calls the FFTW3 real FFT
                     c=comp_fftreal(f);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the FFTW3 real FFT
                     c=comp_fftreal(f);
 



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 19
comp_filterbank_fft


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 90
This function calls the C-library
                     c=comp_filterbank_fft(F,G,a)
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_filterbank_fft(F,G



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 21
comp_filterbank_fftbl


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 106
This function calls the C-library
                     c=comp_filterbank_fftbl(F,G,foff,a,realonly)
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_filterbank_fftbl(F



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 18
comp_filterbank_td


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 100
This function calls the C-library
                     c=comp_filterbank_td(f,g,a,offset,ext)
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_filterbank_td(f,g,



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 23
comp_filterbankreassign


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 107
Computes reassigned filterbank spectrogram.
Usage: sr=comp_filterbankreassign(s,itime,ifreq,a,cfreq);
Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 43
Computes reassigned filterbank spectrogram.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 17
comp_gabdual_long


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 108
This function calls the C-library
                    gd=comp_gabdual_long(g,a,M);
                    Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                    gd=comp_gabdual_long(g,a,M



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 16
comp_gabreassign


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 124
Computes spreading permutation.
                     Usage: sr=comp_gabreassign(s,itime,ifreq,a);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 31
Computes spreading permutation.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 18
comp_gabtight_long


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 111
This function calls the C-library
                     gd=comp_gabtight_long(g,a,M);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     gd=comp_gabtight_long(g,a



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 8
comp_gga


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 85
This function calls the C-library 
                     c = comp_gga(f,indvec)
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library 
                     c = comp_gga(f,indvec)
 



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 12
comp_heapint


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 113
Computes heapint.
                    Usage: c = comp_heapint(s, itime, ifreq, a, tol);
                    Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 17
Computes heapint.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 16
comp_heapintreal


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 120
Computes heapint.
                    Usage: c = comp_heapintreal(s, itime, ifreq, a, M, tol);
                    Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 17
Computes heapint.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 25
comp_iatrousfilterbank_td


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 125
This function calls the C-library 
                     f=comp_iatrousfilterbank_td(c,g,a,offset) 
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library 
                     f=comp_iatrousfilterbank



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 11
comp_idwilt


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 101
This function calls the C-library
                     c=comp_idwilt(c,g);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_idwilt(c,g);
     



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 14
comp_idwiltiii


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 104
This function calls the C-library
                     f=comp_idwiltiii(c,g);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     f=comp_idwiltiii(c,g);
  



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 13
comp_ifftreal


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 107
This function calls the FFTW3 real FFT
                    f=comp_ifftreal(c,L2);
                    Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the FFTW3 real FFT
                    f=comp_ifftreal(c,L2)



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 20
comp_ifilterbank_fft


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 115
This function calls the C-library 
                     F = comp_ifilterbank_fft(c,G,a) 
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library 
                     F = comp_ifilterbank_fft



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 22
comp_ifilterbank_fftbl


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 131
This function calls the C-library 
                     F = comp_ifilterbank_fftbl(c,G,foff,a,realonly) 
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library 
                     F = comp_ifilterbank_fft



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 19
comp_ifilterbank_td


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 105
This function calls the C-library
                     c=comp_ifilterbank_td(c,g,a,Ls,offset,ext);
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_ifilterbank_td(c,g



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 12
comp_isepdgt


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 119
This function calls the C-library
                    c=comp_idepdgt(coef,g,L,a,M,phasetype);
                    Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                    c=comp_idepdgt(coef,g,L,a,



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 16
comp_isepdgtreal


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 121
This function calls the C-library
                    c=comp_isepdgtreal(c,g,L,a,M,phasetype);
                    Yeah.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                    c=comp_isepdgtreal(c,g,L,a



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 10
comp_iwfac


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 115
Computes inverse window factorization.
                    Usage: c=comp_iwfac(gf,L,a,M);
                    Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 38
Computes inverse window factorization.



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 20
comp_nonsepdgt_multi


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 91
This function calls the C-library
                     c=comp_nonsepdgt_multi(f,g,a,M,lt);



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_nonsepdgt_multi(f,



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 20
comp_nonsepdgt_shear


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 97
This function calls the C-library
                     c=comp_nonsepdgt_shear(f,g,a,M,s0,s1,br);



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     c=comp_nonsepdgt_shear(f,



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 20
comp_nonsepwin2multi


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 90
This function calls the C-library
                    c=comp_nonsepwin2multi(g,a,M,lt,L);



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                    c=comp_nonsepwin2multi(g,a



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 11
comp_pchirp


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 61
This function calls the C-library
            c=pchirp(L,n);



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 61
This function calls the C-library
            c=pchirp(L,n);




# name: <cell-element>
# type: sq_string
# elements: 1
# length: 11
comp_pgauss


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 74
This function calls the C-library
            c=comp_pgauss(L,w,c_t,c_f);



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 74
This function calls the C-library
            c=comp_pgauss(L,w,c_t,c_f);




# name: <cell-element>
# type: sq_string
# elements: 1
# length: 11
comp_sepdgt


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 102
This function calls the C-library
                     Usage: c=comp_sepdgt(f,g,a,M,phasetype) 
 Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     Usage: c=comp_sepdgt(f,g,



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 15
comp_sepdgtreal


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 126
This function calls the C-library
                     Usage: c=comp_sepdgtreal(f,g,a,M,phasetype);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     Usage: c=comp_sepdgtreal(



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 20
comp_ufilterbank_fft


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 119
This function calls the C-library
                     Usage: c=comp_ufilterbank_fft(f,g,a);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 80
This function calls the C-library
                     Usage: c=comp_ufilterbank



# name: <cell-element>
# type: sq_string
# elements: 1
# length: 9
comp_wfac


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 105
Computes window factorization.
                     Usage: c=comp_wfac(g,a,M);
                     Yeah.


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 30
Computes window factorization.





