* pop.c (pop_stat, pop_last): Fix last fix.
[emacs.git] / lisp / calc / calc-fin.el
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1 ;;; calc-fin.el --- financial functions for Calc
3 ;; Copyright (C) 1990, 1991, 1992, 1993, 2001, 2002, 2003, 2004,
4 ;; 2005, 2006, 2007, 2008 Free Software Foundation, Inc.
6 ;; Author: David Gillespie <daveg@synaptics.com>
7 ;; Maintainer: Jay Belanger <jay.p.belanger@gmail.com>
9 ;; This file is part of GNU Emacs.
11 ;; GNU Emacs is free software; you can redistribute it and/or modify
12 ;; it under the terms of the GNU General Public License as published by
13 ;; the Free Software Foundation; either version 3, or (at your option)
14 ;; any later version.
16 ;; GNU Emacs is distributed in the hope that it will be useful,
17 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
18 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 ;; GNU General Public License for more details.
21 ;; You should have received a copy of the GNU General Public License
22 ;; along with GNU Emacs; see the file COPYING. If not, write to the
23 ;; Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
24 ;; Boston, MA 02110-1301, USA.
26 ;;; Commentary:
28 ;;; Code:
30 ;; This file is autoloaded from calc-ext.el.
32 (require 'calc-ext)
33 (require 'calc-macs)
35 ;;; Financial functions.
37 (defun calc-fin-pv ()
38 (interactive)
39 (calc-slow-wrapper
40 (if (calc-is-hyperbolic)
41 (calc-enter-result 3 "pvl" (cons 'calcFunc-pvl (calc-top-list-n 3)))
42 (if (calc-is-inverse)
43 (calc-enter-result 3 "pvb" (cons 'calcFunc-pvb (calc-top-list-n 3)))
44 (calc-enter-result 3 "pv" (cons 'calcFunc-pv (calc-top-list-n 3)))))))
46 (defun calc-fin-npv (arg)
47 (interactive "p")
48 (calc-slow-wrapper
49 (if (calc-is-inverse)
50 (calc-vector-op "npvb" 'calcFunc-npvb (1+ arg))
51 (calc-vector-op "npv" 'calcFunc-npv (1+ arg)))))
53 (defun calc-fin-fv ()
54 (interactive)
55 (calc-slow-wrapper
56 (if (calc-is-hyperbolic)
57 (calc-enter-result 3 "fvl" (cons 'calcFunc-fvl (calc-top-list-n 3)))
58 (if (calc-is-inverse)
59 (calc-enter-result 3 "fvb" (cons 'calcFunc-fvb (calc-top-list-n 3)))
60 (calc-enter-result 3 "fv" (cons 'calcFunc-fv (calc-top-list-n 3)))))))
62 (defun calc-fin-pmt ()
63 (interactive)
64 (calc-slow-wrapper
65 (if (calc-is-hyperbolic)
66 (calc-enter-result 3 "fvl" (cons 'calcFunc-fvl (calc-top-list-n 3)))
67 (if (calc-is-inverse)
68 (calc-enter-result 3 "pmtb" (cons 'calcFunc-pmtb (calc-top-list-n 3)))
69 (calc-enter-result 3 "pmt" (cons 'calcFunc-pmt (calc-top-list-n 3)))))))
71 (defun calc-fin-nper ()
72 (interactive)
73 (calc-slow-wrapper
74 (if (calc-is-hyperbolic)
75 (calc-enter-result 3 "nprl" (cons 'calcFunc-nperl (calc-top-list-n 3)))
76 (if (calc-is-inverse)
77 (calc-enter-result 3 "nprb" (cons 'calcFunc-nperb
78 (calc-top-list-n 3)))
79 (calc-enter-result 3 "nper" (cons 'calcFunc-nper
80 (calc-top-list-n 3)))))))
82 (defun calc-fin-rate ()
83 (interactive)
84 (calc-slow-wrapper
85 (calc-pop-push-record 3
86 (if (calc-is-hyperbolic) "ratl"
87 (if (calc-is-inverse) "ratb" "rate"))
88 (calc-to-percentage
89 (calc-normalize
90 (cons (if (calc-is-hyperbolic) 'calcFunc-ratel
91 (if (calc-is-hyperbolic) 'calcFunc-rateb
92 'calcFunc-rate))
93 (calc-top-list-n 3)))))))
95 (defun calc-fin-irr (arg)
96 (interactive "P")
97 (calc-slow-wrapper
98 (if (calc-is-inverse)
99 (calc-vector-op "irrb" 'calcFunc-irrb arg)
100 (calc-vector-op "irr" 'calcFunc-irr arg))))
102 (defun calc-fin-sln ()
103 (interactive)
104 (calc-slow-wrapper
105 (calc-enter-result 3 "sln" (cons 'calcFunc-sln (calc-top-list-n 3)))))
107 (defun calc-fin-syd ()
108 (interactive)
109 (calc-slow-wrapper
110 (calc-enter-result 4 "syd" (cons 'calcFunc-syd (calc-top-list-n 4)))))
112 (defun calc-fin-ddb ()
113 (interactive)
114 (calc-slow-wrapper
115 (calc-enter-result 4 "ddb" (cons 'calcFunc-ddb (calc-top-list-n 4)))))
118 (defun calc-to-percentage (x)
119 (cond ((Math-objectp x)
120 (setq x (math-mul x 100))
121 (if (Math-num-integerp x)
122 (setq x (math-trunc x)))
123 (list 'calcFunc-percent x))
124 ((Math-vectorp x)
125 (cons 'vec (mapcar 'calc-to-percentage (cdr x))))
126 (t x)))
128 (defun calc-convert-percent ()
129 (interactive)
130 (calc-slow-wrapper
131 (calc-pop-push-record 1 "c%" (calc-to-percentage (calc-top-n 1)))))
133 (defun calc-percent-change ()
134 (interactive)
135 (calc-slow-wrapper
136 (let ((res (calc-normalize (cons 'calcFunc-relch (calc-top-list 2)))))
137 (calc-pop-push-record 2 "%ch" (calc-to-percentage res)))))
140 ;;; Financial functions.
142 (defun calcFunc-pv (rate num amount &optional lump)
143 (math-check-financial rate num)
144 (math-with-extra-prec 2
145 (let ((p (math-pow (math-add 1 rate) num)))
146 (math-add (math-mul amount
147 (math-div (math-sub 1 (math-div 1 p))
148 rate))
149 (math-div (or lump 0) p)))))
150 (put 'calcFunc-pv 'math-expandable t)
152 (defun calcFunc-pvl (rate num amount)
153 (calcFunc-pv rate num 0 amount))
154 (put 'calcFunc-pvl 'math-expandable t)
156 (defun calcFunc-pvb (rate num amount &optional lump)
157 (math-check-financial rate num)
158 (math-with-extra-prec 2
159 (let* ((p (math-pow (math-add 1 rate) num)))
160 (math-add (math-mul amount
161 (math-div (math-mul (math-sub 1 (math-div 1 p))
162 (math-add 1 rate))
163 rate))
164 (math-div (or lump 0) p)))))
165 (put 'calcFunc-pvb 'math-expandable t)
167 (defun calcFunc-npv (rate &rest flows)
168 (math-check-financial rate 1)
169 (math-with-extra-prec 2
170 (let* ((flat (math-flatten-many-vecs flows))
171 (pp (math-add 1 rate))
172 (p pp)
173 (accum 0))
174 (while (setq flat (cdr flat))
175 (setq accum (math-add accum (math-div (car flat) p))
176 p (math-mul p pp)))
177 accum)))
178 (put 'calcFunc-npv 'math-expandable t)
180 (defun calcFunc-npvb (rate &rest flows)
181 (math-check-financial rate 1)
182 (math-with-extra-prec 2
183 (let* ((flat (math-flatten-many-vecs flows))
184 (pp (math-add 1 rate))
185 (p 1)
186 (accum 0))
187 (while (setq flat (cdr flat))
188 (setq accum (math-add accum (math-div (car flat) p))
189 p (math-mul p pp)))
190 accum)))
191 (put 'calcFunc-npvb 'math-expandable t)
193 (defun calcFunc-fv (rate num amount &optional initial)
194 (math-check-financial rate num)
195 (math-with-extra-prec 2
196 (let ((p (math-pow (math-add 1 rate) num)))
197 (math-add (math-mul amount
198 (math-div (math-sub p 1)
199 rate))
200 (math-mul (or initial 0) p)))))
201 (put 'calcFunc-fv 'math-expandable t)
203 (defun calcFunc-fvl (rate num amount)
204 (calcFunc-fv rate num 0 amount))
205 (put 'calcFunc-fvl 'math-expandable t)
207 (defun calcFunc-fvb (rate num amount &optional initial)
208 (math-check-financial rate num)
209 (math-with-extra-prec 2
210 (let ((p (math-pow (math-add 1 rate) num)))
211 (math-add (math-mul amount
212 (math-div (math-mul (math-sub p 1)
213 (math-add 1 rate))
214 rate))
215 (math-mul (or initial 0) p)))))
216 (put 'calcFunc-fvb 'math-expandable t)
218 (defun calcFunc-pmt (rate num amount &optional lump)
219 (math-check-financial rate num)
220 (math-with-extra-prec 2
221 (let ((p (math-pow (math-add 1 rate) num)))
222 (math-div (math-mul (math-sub amount
223 (math-div (or lump 0) p))
224 rate)
225 (math-sub 1 (math-div 1 p))))))
226 (put 'calcFunc-pmt 'math-expandable t)
228 (defun calcFunc-pmtb (rate num amount &optional lump)
229 (math-check-financial rate num)
230 (math-with-extra-prec 2
231 (let ((p (math-pow (math-add 1 rate) num)))
232 (math-div (math-mul (math-sub amount (math-div (or lump 0) p)) rate)
233 (math-mul (math-sub 1 (math-div 1 p))
234 (math-add 1 rate))))))
235 (put 'calcFunc-pmtb 'math-expandable t)
237 (defun calcFunc-nper (rate pmt amount &optional lump)
238 (math-compute-nper rate pmt amount lump nil))
239 (put 'calcFunc-nper 'math-expandable t)
241 (defun calcFunc-nperb (rate pmt amount &optional lump)
242 (math-compute-nper rate pmt amount lump 'b))
243 (put 'calcFunc-nperb 'math-expandable t)
245 (defun calcFunc-nperl (rate pmt amount)
246 (math-compute-nper rate pmt amount nil 'l))
247 (put 'calcFunc-nperl 'math-expandable t)
249 (defun math-compute-nper (rate pmt amount lump bflag)
250 (and lump (math-zerop lump)
251 (setq lump nil))
252 (and lump (math-zerop pmt)
253 (setq amount lump
254 lump nil
255 bflag 'l))
256 (or (math-objectp rate) (and math-expand-formulas (null lump))
257 (math-reject-arg rate 'numberp))
258 (and (math-zerop rate)
259 (math-reject-arg rate 'nonzerop))
260 (or (math-objectp pmt) (and math-expand-formulas (null lump))
261 (math-reject-arg pmt 'numberp))
262 (or (math-objectp amount) (and math-expand-formulas (null lump))
263 (math-reject-arg amount 'numberp))
264 (if lump
265 (progn
266 (or (math-objectp lump)
267 (math-reject-arg lump 'numberp))
268 (let ((root (math-find-root (list 'calcFunc-eq
269 (list (if bflag
270 'calcFunc-pvb
271 'calcFunc-pv)
272 rate
273 '(var DUMMY var-DUMMY)
275 lump)
276 amount)
277 '(var DUMMY var-DUMMY)
278 '(intv 3 0 100)
279 t)))
280 (if (math-vectorp root)
281 (nth 1 root)
282 root)))
283 (math-with-extra-prec 2
284 (let ((temp (if (eq bflag 'l)
285 (math-div amount pmt)
286 (math-sub 1 (math-div (math-mul amount rate)
287 (if bflag
288 (math-mul pmt (math-add 1 rate))
289 pmt))))))
290 (if (or (math-posp temp) math-expand-formulas)
291 (math-neg (calcFunc-log temp (math-add 1 rate)))
292 (math-reject-arg pmt "*Payment too small to cover interest rate"))))))
294 (defun calcFunc-rate (num pmt amount &optional lump)
295 (math-compute-rate num pmt amount lump 'calcFunc-pv))
297 (defun calcFunc-rateb (num pmt amount &optional lump)
298 (math-compute-rate num pmt amount lump 'calcFunc-pvb))
300 (defun math-compute-rate (num pmt amount lump func)
301 (or (math-objectp num)
302 (math-reject-arg num 'numberp))
303 (or (math-objectp pmt)
304 (math-reject-arg pmt 'numberp))
305 (or (math-objectp amount)
306 (math-reject-arg amount 'numberp))
307 (or (null lump)
308 (math-objectp lump)
309 (math-reject-arg lump 'numberp))
310 (let ((root (math-find-root (list 'calcFunc-eq
311 (list func
312 '(var DUMMY var-DUMMY)
315 (or lump 0))
316 amount)
317 '(var DUMMY var-DUMMY)
318 '(intv 3 (float 1 -4) 1)
319 t)))
320 (if (math-vectorp root)
321 (nth 1 root)
322 root)))
324 (defun calcFunc-ratel (num pmt amount)
325 (or (math-objectp num) math-expand-formulas
326 (math-reject-arg num 'numberp))
327 (or (math-objectp pmt) math-expand-formulas
328 (math-reject-arg pmt 'numberp))
329 (or (math-objectp amount) math-expand-formulas
330 (math-reject-arg amount 'numberp))
331 (math-with-extra-prec 2
332 (math-sub (math-pow (math-div pmt amount) (math-div 1 num)) 1)))
334 (defun calcFunc-irr (&rest vecs)
335 (math-compute-irr vecs 'calcFunc-npv))
337 (defun calcFunc-irrb (&rest vecs)
338 (math-compute-irr vecs 'calcFunc-npvb))
340 (defun math-compute-irr (vecs func)
341 (let* ((flat (math-flatten-many-vecs vecs))
342 (root (math-find-root (list func
343 '(var DUMMY var-DUMMY)
344 flat)
345 '(var DUMMY var-DUMMY)
346 '(intv 3 (float 1 -4) 1)
347 t)))
348 (if (math-vectorp root)
349 (nth 1 root)
350 root)))
352 (defun math-check-financial (rate num)
353 (or (math-objectp rate) math-expand-formulas
354 (math-reject-arg rate 'numberp))
355 (and (math-zerop rate)
356 (math-reject-arg rate 'nonzerop))
357 (or (math-objectp num) math-expand-formulas
358 (math-reject-arg num 'numberp)))
361 (defun calcFunc-sln (cost salvage life &optional period)
362 (or (math-realp cost) math-expand-formulas
363 (math-reject-arg cost 'realp))
364 (or (math-realp salvage) math-expand-formulas
365 (math-reject-arg salvage 'realp))
366 (or (math-realp life) math-expand-formulas
367 (math-reject-arg life 'realp))
368 (if (math-zerop life) (math-reject-arg life 'nonzerop))
369 (if (and period
370 (if (math-num-integerp period)
371 (or (Math-lessp life period) (not (math-posp period)))
372 (math-reject-arg period 'integerp)))
374 (math-div (math-sub cost salvage) life)))
375 (put 'calcFunc-sln 'math-expandable t)
377 (defun calcFunc-syd (cost salvage life period)
378 (or (math-realp cost) math-expand-formulas
379 (math-reject-arg cost 'realp))
380 (or (math-realp salvage) math-expand-formulas
381 (math-reject-arg salvage 'realp))
382 (or (math-realp life) math-expand-formulas
383 (math-reject-arg life 'realp))
384 (if (math-zerop life) (math-reject-arg life 'nonzerop))
385 (or (math-realp period) math-expand-formulas
386 (math-reject-arg period 'realp))
387 (if (or (Math-lessp life period) (not (math-posp period)))
389 (math-div (math-mul (math-sub cost salvage)
390 (math-add (math-sub life period) 1))
391 (math-div (math-mul life (math-add life 1)) 2))))
392 (put 'calcFunc-syd 'math-expandable t)
394 (defun calcFunc-ddb (cost salvage life period)
395 (if (math-messy-integerp period) (setq period (math-trunc period)))
396 (or (integerp period) (math-reject-arg period 'fixnump))
397 (or (math-realp cost) (math-reject-arg cost 'realp))
398 (or (math-realp salvage) (math-reject-arg salvage 'realp))
399 (or (math-realp life) (math-reject-arg life 'realp))
400 (if (math-zerop life) (math-reject-arg life 'nonzerop))
401 (if (or (Math-lessp life period) (<= period 0))
403 (let ((book cost)
404 (res 0))
405 (while (>= (setq period (1- period)) 0)
406 (setq res (math-div (math-mul book 2) life)
407 book (math-sub book res))
408 (if (Math-lessp book salvage)
409 (setq res (math-add res (math-sub book salvage))
410 book salvage)))
411 res)))
413 (provide 'calc-fin)
415 ;;; arch-tag: 82f30ca8-d02f-4b33-84b4-bb6ecd84597b
416 ;;; calc-fin.el ends here