GNU Octave  4.0.0
A high-level interpreted language, primarily intended for numerical computations, mostly compatible with Matlab
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zffti1.f
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1  subroutine zffti1 (n,wa,ifac)
2  implicit double precision (a-h,o-z)
3  dimension wa(*) ,ifac(*) ,ntryh(4)
4  data ntryh(1),ntryh(2),ntryh(3),ntryh(4)/3,4,2,5/
5  nl = n
6  nf = 0
7  j = 0
8  101 j = j+1
9  if (j-4) 102,102,103
10  102 ntry = ntryh(j)
11  go to 104
12  103 ntry = ntry+2
13  104 nq = nl/ntry
14  nr = nl-ntry*nq
15  if (nr) 101,105,101
16  105 nf = nf+1
17  ifac(nf+2) = ntry
18  nl = nq
19  if (ntry .ne. 2) go to 107
20  if (nf .eq. 1) go to 107
21  do 106 i=2,nf
22  ib = nf-i+2
23  ifac(ib+2) = ifac(ib+1)
24  106 continue
25  ifac(3) = 2
26  107 if (nl .ne. 1) go to 104
27  ifac(1) = n
28  ifac(2) = nf
29  tpi = 6.28318530717959d0
30  argh = tpi/dble(n)
31  i = 2
32  l1 = 1
33  do 110 k1=1,nf
34  ip = ifac(k1+2)
35  ld = 0
36  l2 = l1*ip
37  ido = n/l2
38  idot = ido+ido+2
39  ipm = ip-1
40  do 109 j=1,ipm
41  i1 = i
42  wa(i-1) = 1.
43  wa(i) = 0.
44  ld = ld+l1
45  fi = 0.
46  argld = dble(ld)*argh
47  do 108 ii=4,idot,2
48  i = i+2
49  fi = fi+1.
50  arg = fi*argld
51  wa(i-1) = cos(arg)
52  wa(i) = sin(arg)
53  108 continue
54  if (ip .le. 5) go to 109
55  wa(i1-1) = wa(i-1)
56  wa(i1) = wa(i)
57  109 continue
58  l1 = l2
59  110 continue
60  return
61  end
std::string dimension(void) const
subroutine zffti1(n, wa, ifac)
Definition: zffti1.f:1
octave_value sin(void) const
Definition: ov.h:1198
octave_value cos(void) const
Definition: ov.h:1170
static double fi[256]
Definition: randmtzig.c:443