| blob | 7dee563736663fb6dcee30374552faf682ccbc1a |
1 subroutine r1f4kf ( ido, l1, cc, in1, ch, in2, wa1, wa2, wa3 )
3 !*****************************************************************************80
4 !
5 !! R1F4KF is an FFTPACK5 auxiliary routine.
6 !
7 !
8 ! Copyright (C) 1995-2004, Scientific Computing Division,
9 ! University Corporation for Atmospheric Research
10 !
11 ! Modified:
12 !
13 ! 27 March 2009
14 !
15 ! Author:
16 !
17 ! Paul Swarztrauber
18 ! Richard Valent
19 !
20 ! Reference:
21 !
22 ! Paul Swarztrauber,
23 ! Vectorizing the Fast Fourier Transforms,
24 ! in Parallel Computations,
25 ! edited by G. Rodrigue,
26 ! Academic Press, 1982.
27 !
28 ! Paul Swarztrauber,
29 ! Fast Fourier Transform Algorithms for Vector Computers,
30 ! Parallel Computing, pages 45-63, 1984.
31 !
32 ! Parameters:
33 !
34 implicit none
36 integer ( kind = 4 ) ido
37 integer ( kind = 4 ) in1
38 integer ( kind = 4 ) in2
39 integer ( kind = 4 ) l1
41 real ( kind = 4 ) cc(in1,ido,l1,4)
42 real ( kind = 4 ) ch(in2,ido,4,l1)
43 real ( kind = 4 ) hsqt2
44 integer ( kind = 4 ) i
45 integer ( kind = 4 ) ic
46 integer ( kind = 4 ) idp2
47 integer ( kind = 4 ) k
48 real ( kind = 4 ) wa1(ido)
49 real ( kind = 4 ) wa2(ido)
50 real ( kind = 4 ) wa3(ido)
52 hsqt2 = sqrt ( 2.0E+00 ) / 2.0E+00
54 do k = 1, l1
55 ch(1,1,1,k) = ( cc(1,1,k,2) + cc(1,1,k,4) ) &
56 + ( cc(1,1,k,1) + cc(1,1,k,3) )
57 ch(1,ido,4,k) = ( cc(1,1,k,1) + cc(1,1,k,3) ) &
58 - ( cc(1,1,k,2) + cc(1,1,k,4) )
59 ch(1,ido,2,k) = cc(1,1,k,1) - cc(1,1,k,3)
60 ch(1,1,3,k) = cc(1,1,k,4) - cc(1,1,k,2)
61 end do
63 if ( ido < 2 ) then
64 return
65 end if
67 if ( 2 < ido ) then
69 idp2 = ido + 2
71 do k = 1, l1
72 do i = 3, ido, 2
73 ic = idp2 - i
74 ch(1,i-1,1,k) = ((wa1(i-2)*cc(1,i-1,k,2)+wa1(i-1)* &
75 cc(1,i,k,2))+(wa3(i-2)*cc(1,i-1,k,4)+wa3(i-1)* &
76 cc(1,i,k,4)))+(cc(1,i-1,k,1)+(wa2(i-2)*cc(1,i-1,k,3)+ &
77 wa2(i-1)*cc(1,i,k,3)))
78 ch(1,ic-1,4,k) = (cc(1,i-1,k,1)+(wa2(i-2)*cc(1,i-1,k,3)+ &
79 wa2(i-1)*cc(1,i,k,3)))-((wa1(i-2)*cc(1,i-1,k,2)+ &
80 wa1(i-1)*cc(1,i,k,2))+(wa3(i-2)*cc(1,i-1,k,4)+ &
81 wa3(i-1)*cc(1,i,k,4)))
82 ch(1,i,1,k) = ((wa1(i-2)*cc(1,i,k,2)-wa1(i-1)* &
83 cc(1,i-1,k,2))+(wa3(i-2)*cc(1,i,k,4)-wa3(i-1)* &
84 cc(1,i-1,k,4)))+(cc(1,i,k,1)+(wa2(i-2)*cc(1,i,k,3)- &
85 wa2(i-1)*cc(1,i-1,k,3)))
86 ch(1,ic,4,k) = ((wa1(i-2)*cc(1,i,k,2)-wa1(i-1)* &
87 cc(1,i-1,k,2))+(wa3(i-2)*cc(1,i,k,4)-wa3(i-1)* &
88 cc(1,i-1,k,4)))-(cc(1,i,k,1)+(wa2(i-2)*cc(1,i,k,3)- &
89 wa2(i-1)*cc(1,i-1,k,3)))
90 ch(1,i-1,3,k) = ((wa1(i-2)*cc(1,i,k,2)-wa1(i-1)* &
91 cc(1,i-1,k,2))-(wa3(i-2)*cc(1,i,k,4)-wa3(i-1)* &
92 cc(1,i-1,k,4)))+(cc(1,i-1,k,1)-(wa2(i-2)*cc(1,i-1,k,3)+ &
93 wa2(i-1)*cc(1,i,k,3)))
94 ch(1,ic-1,2,k) = (cc(1,i-1,k,1)-(wa2(i-2)*cc(1,i-1,k,3)+ &
95 wa2(i-1)*cc(1,i,k,3)))-((wa1(i-2)*cc(1,i,k,2)-wa1(i-1)* &
96 cc(1,i-1,k,2))-(wa3(i-2)*cc(1,i,k,4)-wa3(i-1)* &
97 cc(1,i-1,k,4)))
98 ch(1,i,3,k) = ((wa3(i-2)*cc(1,i-1,k,4)+wa3(i-1)* &
99 cc(1,i,k,4))-(wa1(i-2)*cc(1,i-1,k,2)+wa1(i-1)* &
100 cc(1,i,k,2)))+(cc(1,i,k,1)-(wa2(i-2)*cc(1,i,k,3)- &
101 wa2(i-1)*cc(1,i-1,k,3)))
102 ch(1,ic,2,k) = ((wa3(i-2)*cc(1,i-1,k,4)+wa3(i-1)* &
103 cc(1,i,k,4))-(wa1(i-2)*cc(1,i-1,k,2)+wa1(i-1)* &
104 cc(1,i,k,2)))-(cc(1,i,k,1)-(wa2(i-2)*cc(1,i,k,3)- &
105 wa2(i-1)*cc(1,i-1,k,3)))
106 end do
107 end do
109 if ( mod ( ido, 2 ) == 1 ) then
110 return
111 end if
113 end if
115 do k = 1, l1
116 ch(1,ido,1,k) = (hsqt2*(cc(1,ido,k,2)-cc(1,ido,k,4)))+ cc(1,ido,k,1)
117 ch(1,ido,3,k) = cc(1,ido,k,1)-(hsqt2*(cc(1,ido,k,2)- cc(1,ido,k,4)))
118 ch(1,1,2,k) = (-hsqt2*(cc(1,ido,k,2)+cc(1,ido,k,4)))- cc(1,ido,k,3)
119 ch(1,1,4,k) = (-hsqt2*(cc(1,ido,k,2)+cc(1,ido,k,4)))+ cc(1,ido,k,3)
120 end do
122 return
123 end