1 ;;; Compiled by f2cl version:
2 ;;; ("f2cl1.l,v 95098eb54f13 2013/04/01 00:45:16 toy $"
3 ;;; "f2cl2.l,v 95098eb54f13 2013/04/01 00:45:16 toy $"
4 ;;; "f2cl3.l,v 96616d88fb7e 2008/02/22 22:19:34 rtoy $"
5 ;;; "f2cl4.l,v 96616d88fb7e 2008/02/22 22:19:34 rtoy $"
6 ;;; "f2cl5.l,v 95098eb54f13 2013/04/01 00:45:16 toy $"
7 ;;; "f2cl6.l,v 1d5cbacbb977 2008/08/24 00:56:27 rtoy $"
8 ;;; "macros.l,v 1409c1352feb 2013/03/24 20:44:50 toy $")
10 ;;; Using Lisp CMU Common Lisp snapshot-2020-04 (21D Unicode)
12 ;;; Options: ((:prune-labels nil) (:auto-save t) (:relaxed-array-decls t)
13 ;;; (:coerce-assigns :as-needed) (:array-type ':array)
14 ;;; (:array-slicing t) (:declare-common nil)
15 ;;; (:float-format single-float))
17 (in-package "FFTPACK5")
20 (defun cosqmb (lot jump n inc x lenx wsave lensav work lenwrk ier
)
21 (declare (type (array double-float
(*)) work wsave x
)
22 (type (f2cl-lib:integer4
) ier lenwrk lensav lenx inc n jump lot
))
23 (f2cl-lib:with-multi-array-data
24 ((x double-float x-%data% x-%offset%
)
25 (wsave double-float wsave-%data% wsave-%offset%
)
26 (work double-float work-%data% work-%offset%
))
27 (prog ((ier1 0) (x1 0.0d0
) (ssqrt2 0.0d0
) (m 0) (lj 0))
28 (declare (type (double-float) ssqrt2 x1
)
29 (type (f2cl-lib:integer4
) lj m ier1
))
34 (f2cl-lib:int-mul
(f2cl-lib:int-add lot
(f2cl-lib:int-sub
1))
36 (f2cl-lib:int-mul inc
(f2cl-lib:int-add n
(f2cl-lib:int-sub
1)))
42 (f2cl-lib:int-add
(f2cl-lib:int-mul
2 n
)
45 (f2cl-lib:flog
(f2cl-lib:freal n
))
46 (f2cl-lib:flog
2.0d0
)))
51 ((< lenwrk
(f2cl-lib:int-mul lot n
))
55 ((not (xercon inc jump n lot
))
61 (f2cl-lib:int-mul
(f2cl-lib:int-sub lot
1) jump
)
63 (f2cl-lib:arithmetic-if
(f2cl-lib:int-sub n
2)
68 (f2cl-lib:fdo
(m 1 (f2cl-lib:int-add m jump
))
71 (setf (f2cl-lib:fref x-%data%
(m 1) ((1 inc
) (1 *)) x-%offset%
)
72 (f2cl-lib:fref x-%data%
(m 1) ((1 inc
) (1 *)) x-%offset%
))
76 (setf ssqrt2
(/ 1.0d0
(f2cl-lib:fsqrt
2.0d0
)))
77 (f2cl-lib:fdo
(m 1 (f2cl-lib:int-add m jump
))
81 (+ (f2cl-lib:fref x-%data%
(m 1) ((1 inc
) (1 *)) x-%offset%
)
82 (f2cl-lib:fref x-%data%
86 (setf (f2cl-lib:fref x-%data%
(m 2) ((1 inc
) (1 *)) x-%offset%
)
89 (f2cl-lib:fref x-%data%
(m 1) ((1 inc
) (1 *)) x-%offset%
)
90 (f2cl-lib:fref x-%data%
94 (setf (f2cl-lib:fref x-%data%
(m 1) ((1 inc
) (1 *)) x-%offset%
) x1
)
98 (multiple-value-bind (var-0 var-1 var-2 var-3 var-4 var-5 var-6 var-7
)
99 (mcsqb1 lot jump n inc x wsave work ier1
)
100 (declare (ignore var-0 var-1 var-2 var-3 var-4 var-5 var-6
))
105 (xerfft "COSQMB" -
5)))
109 (return (values nil nil nil nil nil nil nil nil nil nil ier
)))))
111 (in-package #:cl-user
)
112 #+#.
(cl:if
(cl:find-package
'#:f2cl
) '(and) '(or))
113 (eval-when (:load-toplevel
:compile-toplevel
:execute
)
114 (setf (gethash 'fortran-to-lisp
::cosqmb
115 fortran-to-lisp
::*f2cl-function-info
*)
116 (fortran-to-lisp::make-f2cl-finfo
117 :arg-types
'((fortran-to-lisp::integer4
) (fortran-to-lisp::integer4
)
118 (fortran-to-lisp::integer4
) (fortran-to-lisp::integer4
)
119 (array double-float
(*)) (fortran-to-lisp::integer4
)
120 (array double-float
(*)) (fortran-to-lisp::integer4
)
121 (array double-float
(*)) (fortran-to-lisp::integer4
)
122 (fortran-to-lisp::integer4
))
123 :return-values
'(nil nil nil nil nil nil nil nil nil nil
124 fortran-to-lisp
::ier
)
125 :calls
'(fortran-to-lisp::mcsqb1 fortran-to-lisp
::xercon
126 fortran-to-lisp
::xerfft
))))
