Mercurial > octave-nkf
comparison libcruft/fftpack/zpassb5.f @ 7789:82be108cc558
First attempt at single precision tyeps
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corrections to qrupdate single precision routines
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prefer demotion to single over promotion to double
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Add single precision support to log2 function
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Trivial PROJECT file update
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Cache optimized hermitian/transpose methods
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Add tests for tranpose/hermitian and ChangeLog entry for new transpose code
author | David Bateman <dbateman@free.fr> |
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date | Sun, 27 Apr 2008 22:34:17 +0200 |
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7788:45f5faba05a2 | 7789:82be108cc558 |
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1 subroutine zpassb5 (ido,l1,cc,ch,wa1,wa2,wa3,wa4) | |
2 implicit double precision (a-h,o-z) | |
3 dimension cc(ido,5,l1) ,ch(ido,l1,5) , | |
4 1 wa1(1) ,wa2(1) ,wa3(1) ,wa4(1) | |
5 data tr11,ti11,tr12,ti12 /.309016994374947d0,.951056516295154d0, | |
6 1-.809016994374947d0,.587785252292473d0/ | |
7 if (ido .ne. 2) go to 102 | |
8 do 101 k=1,l1 | |
9 ti5 = cc(2,2,k)-cc(2,5,k) | |
10 ti2 = cc(2,2,k)+cc(2,5,k) | |
11 ti4 = cc(2,3,k)-cc(2,4,k) | |
12 ti3 = cc(2,3,k)+cc(2,4,k) | |
13 tr5 = cc(1,2,k)-cc(1,5,k) | |
14 tr2 = cc(1,2,k)+cc(1,5,k) | |
15 tr4 = cc(1,3,k)-cc(1,4,k) | |
16 tr3 = cc(1,3,k)+cc(1,4,k) | |
17 ch(1,k,1) = cc(1,1,k)+tr2+tr3 | |
18 ch(2,k,1) = cc(2,1,k)+ti2+ti3 | |
19 cr2 = cc(1,1,k)+tr11*tr2+tr12*tr3 | |
20 ci2 = cc(2,1,k)+tr11*ti2+tr12*ti3 | |
21 cr3 = cc(1,1,k)+tr12*tr2+tr11*tr3 | |
22 ci3 = cc(2,1,k)+tr12*ti2+tr11*ti3 | |
23 cr5 = ti11*tr5+ti12*tr4 | |
24 ci5 = ti11*ti5+ti12*ti4 | |
25 cr4 = ti12*tr5-ti11*tr4 | |
26 ci4 = ti12*ti5-ti11*ti4 | |
27 ch(1,k,2) = cr2-ci5 | |
28 ch(1,k,5) = cr2+ci5 | |
29 ch(2,k,2) = ci2+cr5 | |
30 ch(2,k,3) = ci3+cr4 | |
31 ch(1,k,3) = cr3-ci4 | |
32 ch(1,k,4) = cr3+ci4 | |
33 ch(2,k,4) = ci3-cr4 | |
34 ch(2,k,5) = ci2-cr5 | |
35 101 continue | |
36 return | |
37 102 do 104 k=1,l1 | |
38 do 103 i=2,ido,2 | |
39 ti5 = cc(i,2,k)-cc(i,5,k) | |
40 ti2 = cc(i,2,k)+cc(i,5,k) | |
41 ti4 = cc(i,3,k)-cc(i,4,k) | |
42 ti3 = cc(i,3,k)+cc(i,4,k) | |
43 tr5 = cc(i-1,2,k)-cc(i-1,5,k) | |
44 tr2 = cc(i-1,2,k)+cc(i-1,5,k) | |
45 tr4 = cc(i-1,3,k)-cc(i-1,4,k) | |
46 tr3 = cc(i-1,3,k)+cc(i-1,4,k) | |
47 ch(i-1,k,1) = cc(i-1,1,k)+tr2+tr3 | |
48 ch(i,k,1) = cc(i,1,k)+ti2+ti3 | |
49 cr2 = cc(i-1,1,k)+tr11*tr2+tr12*tr3 | |
50 ci2 = cc(i,1,k)+tr11*ti2+tr12*ti3 | |
51 cr3 = cc(i-1,1,k)+tr12*tr2+tr11*tr3 | |
52 ci3 = cc(i,1,k)+tr12*ti2+tr11*ti3 | |
53 cr5 = ti11*tr5+ti12*tr4 | |
54 ci5 = ti11*ti5+ti12*ti4 | |
55 cr4 = ti12*tr5-ti11*tr4 | |
56 ci4 = ti12*ti5-ti11*ti4 | |
57 dr3 = cr3-ci4 | |
58 dr4 = cr3+ci4 | |
59 di3 = ci3+cr4 | |
60 di4 = ci3-cr4 | |
61 dr5 = cr2+ci5 | |
62 dr2 = cr2-ci5 | |
63 di5 = ci2-cr5 | |
64 di2 = ci2+cr5 | |
65 ch(i-1,k,2) = wa1(i-1)*dr2-wa1(i)*di2 | |
66 ch(i,k,2) = wa1(i-1)*di2+wa1(i)*dr2 | |
67 ch(i-1,k,3) = wa2(i-1)*dr3-wa2(i)*di3 | |
68 ch(i,k,3) = wa2(i-1)*di3+wa2(i)*dr3 | |
69 ch(i-1,k,4) = wa3(i-1)*dr4-wa3(i)*di4 | |
70 ch(i,k,4) = wa3(i-1)*di4+wa3(i)*dr4 | |
71 ch(i-1,k,5) = wa4(i-1)*dr5-wa4(i)*di5 | |
72 ch(i,k,5) = wa4(i-1)*di5+wa4(i)*dr5 | |
73 103 continue | |
74 104 continue | |
75 return | |
76 end |