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fftpack.pyf
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/
fftpack.pyf
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!%f90 -*- f90 -*-
! Author: Pearu Peterson, August 2002
python module _fftpack
interface
subroutine zfft(x,n,direction,howmany,normalize)
! y = fft(x[,n,direction,normalize,overwrite_x])
intent(c) zfft
complex*16 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) &
:: normalize = (direction<0)
end subroutine zfft
subroutine drfft(x,n,direction,howmany,normalize)
! y = drfft(x[,n,direction,normalize,overwrite_x])
intent(c) drfft
real*8 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) &
:: normalize = (direction<0)
end subroutine drfft
subroutine zrfft(x,n,direction,howmany,normalize)
! y = zrfft(x[,n,direction,normalize,overwrite_x])
intent(c) zrfft
complex*16 intent(c,in,out,overwrite,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) &
:: normalize = (direction<0)
end subroutine zrfft
subroutine zfftnd(x,r,s,direction,howmany,normalize,j)
! y = zfftnd(x[,s,direction,normalize,overwrite_x])
intent(c) zfftnd
complex*16 intent(c,in,out,copy,out=y) :: x(*)
integer intent(c,hide),depend(x) :: r=old_rank(x)
integer intent(c,hide) :: j=0
integer optional,depend(r),dimension(r),intent(c,in) &
:: s=old_shape(x,j++)
check(r>=len(s)) s
integer intent(c,hide) :: howmany = 1
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) :: &
normalize = (direction<0)
callprotoargument complex_double*,int,int*,int,int,int
callstatement {&
int i,sz=1,xsz=size(x); &
for (i=0;i<r;++i) sz *= s[i]; &
howmany = xsz/sz; &
if (sz*howmany==xsz) &
(*f2py_func)(x,r,s,direction,howmany,normalize); &
else {&
f2py_success = 0; &
PyErr_SetString(_fftpack_error, &
"inconsistency in x.shape and s argument"); &
} &
}
end subroutine zfftnd
subroutine destroy_zfft_cache()
intent(c) destroy_zfft_cache
end subroutine destroy_zfft_cache
subroutine destroy_zfftnd_cache()
intent(c) destroy_zfftnd_cache
end subroutine destroy_zfftnd_cache
subroutine destroy_drfft_cache()
intent(c) destroy_drfft_cache
end subroutine destroy_drfft_cache
/* Single precision version */
subroutine cfft(x,n,direction,howmany,normalize)
! y = fft(x[,n,direction,normalize,overwrite_x])
intent(c) cfft
complex*8 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) &
:: normalize = (direction<0)
end subroutine cfft
subroutine rfft(x,n,direction,howmany,normalize)
! y = rfft(x[,n,direction,normalize,overwrite_x])
intent(c) rfft
real*4 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) &
:: normalize = (direction<0)
end subroutine rfft
subroutine crfft(x,n,direction,howmany,normalize)
! y = crfft(x[,n,direction,normalize,overwrite_x])
intent(c) crfft
complex*8 intent(c,in,out,overwrite,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) &
:: normalize = (direction<0)
end subroutine crfft
subroutine cfftnd(x,r,s,direction,howmany,normalize,j)
! y = cfftnd(x[,s,direction,normalize,overwrite_x])
intent(c) cfftnd
complex*8 intent(c,in,out,copy,out=y) :: x(*)
integer intent(c,hide),depend(x) :: r=old_rank(x)
integer intent(c,hide) :: j=0
integer optional,depend(r),dimension(r),intent(c,in) &
:: s=old_shape(x,j++)
check(r>=len(s)) s
integer intent(c,hide) :: howmany = 1
integer optional,intent(c,in) :: direction = 1
integer optional,intent(c,in),depend(direction) :: &
normalize = (direction<0)
callprotoargument complex_float*,int,int*,int,int,int
callstatement {&
int i,sz=1,xsz=size(x); &
for (i=0;i<r;++i) sz *= s[i]; &
howmany = xsz/sz; &
if (sz*howmany==xsz) &
(*f2py_func)(x,r,s,direction,howmany,normalize); &
else {&
f2py_success = 0; &
PyErr_SetString(_fftpack_error, &
"inconsistency in x.shape and s argument"); &
} &
}
end subroutine cfftnd
subroutine destroy_cfft_cache()
intent(c) destroy_cfft_cache
end subroutine destroy_cfft_cache
subroutine destroy_cfftnd_cache()
intent(c) destroy_cfftnd_cache
end subroutine destroy_cfftnd_cache
subroutine destroy_rfft_cache()
intent(c) destroy_rfft_cache
end subroutine destroy_rfft_cache
subroutine ddct1(x,n,howmany,normalize)
! y = ddct1(x[,n,normalize,overwrite_x])
intent(c) ddct1
real*8 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: normalize = 0
end subroutine ddct1
subroutine ddct2(x,n,howmany,normalize)
! y = ddct2(x[,n,normalize,overwrite_x])
intent(c) ddct2
real*8 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: normalize = 0
end subroutine ddct2
subroutine ddct3(x,n,howmany,normalize)
! y = ddct3(x[,n,normalize,overwrite_x])
intent(c) ddct3
real*8 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: normalize = 0
end subroutine ddct3
subroutine dct1(x,n,howmany,normalize)
! y = dct1(x[,n,normalize,overwrite_x])
intent(c) dct1
real*4 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: normalize = 0
end subroutine dct1
subroutine dct2(x,n,howmany,normalize)
! y = dct2(x[,n,normalize,overwrite_x])
intent(c) dct2
real*4 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: normalize = 0
end subroutine dct2
subroutine dct3(x,n,howmany,normalize)
! y = dct3(x[,n,normalize,overwrite_x])
intent(c) dct3
real*4 intent(c,in,out,copy,out=y) :: x(*)
integer optional,depend(x),intent(c,in) :: n=size(x)
check(n>0&&n<=size(x)) n
integer depend(x,n),intent(c,hide) :: howmany = size(x)/n
check(n*howmany==size(x)) howmany
integer optional,intent(c,in) :: normalize = 0
end subroutine dct3
subroutine destroy_ddct2_cache()
intent(c) destroy_ddct2_cache
end subroutine destroy_ddct2_cache
subroutine destroy_ddct1_cache()
intent(c) destroy_ddct1_cache
end subroutine destroy_ddct1_cache
subroutine destroy_dct2_cache()
intent(c) destroy_dct2_cache
end subroutine destroy_dct2_cache
subroutine destroy_dct1_cache()
intent(c) destroy_dct1_cache
end subroutine destroy_dct1_cache
end interface
end python module _fftpack
! See http://cens.ioc.ee/projects/f2py2e/