1
0
mirror of https://git.savannah.gnu.org/git/emacs.git synced 2024-12-04 08:47:11 +00:00
emacs/lisp/calc/calc-fin.el
Stefan Monnier f342b7c969 * lisp/calc/: Use lexical scoping in all the files
Includes the following pervasive changes:
- Move some defvars earlier in the file so they cover earlier let-bindings
- Change dynamically scoped `calc-FOO` or `math-FOO` function arguments
  to just FOO and then let-bind the `calc-FOO` or `math-FOO` variable
  explicitly in the body of the function.  In some cases, the
  beginning of the function was changed to refer to FOO so as to delay
  the binding to a nearby `let` when I could ensure that it did
  not make a difference.
- Add an underscore in front of unused vars or comment them out altogether.
- Replace unused `err` arg to `condition-case` with nil.

Plus the additional itemized changes below.

* lisp/calc/calc-map.el (calcFunc-reducer):
* lisp/calc/calc-arith.el (math-setup-declarations):
* lisp/calc/calc-help.el (calc-full-help, calc-help-index-entries)
(calc-full-help): Use `ignore-errors`.

* lisp/calc/calc-embed.el (calc-embedded-modes-change):
Declare `the-language` and `the-display-just` as dynamically scoped.

* lisp/calc/calc-forms.el (math-setup-year-holidays): Use `dolist`.

* lisp/calc/calc-graph.el (calc-graph-set-styles): Use `symbol-value`
rather than `eval.`
(calc-graph-delete-temps, calc-graph-set-styles): Use ignore-errors.

* lisp/calc/calc-macs.el (calc-with-trail-buffer): Add artificial use
of `save-buf` to silence compiler warnings in all the cases where
`body` doesn't make use of it.

* lisp/calc/calc-math.el (math-largest-emacs-expt)
(math-smallest-emacs-expt, math-use-emacs-fn): Use ignore-errors.

* lisp/calc/calc-mode.el (calc-total-algebraic-mode): Remove "P" from
interactive spec since it's not used anyway.

* lisp/calc/calc-rewr.el (calc-match): Simplify.

* lisp/calc/calc.el (calc-buffer): Give it a global nil value,
so it's automatically declared dynbound in any file that requires `calc`.
(calcDigit-nondigit): Adjust accordingly.

* lisp/calc/calcalg2.el (calcFunc-table): Declare `var-dummy` as dynbound.
(math-scan-for-limits): Comment out dead code.

* lisp/calc/calcalg3.el (math-general-fit): Declare `var-YVAL` and
`var-YVALX` as dynbound.
2020-10-10 16:00:51 -04:00

419 lines
13 KiB
EmacsLisp

;;; calc-fin.el --- financial functions for Calc -*- lexical-binding:t -*-
;; Copyright (C) 1990-1993, 2001-2020 Free Software Foundation, Inc.
;; Author: David Gillespie <daveg@synaptics.com>
;; This file is part of GNU Emacs.
;; GNU Emacs is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;; GNU Emacs is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>.
;;; Commentary:
;;; Code:
;; This file is autoloaded from calc-ext.el.
(require 'calc-ext)
(require 'calc-macs)
;;; Financial functions.
(defun calc-fin-pv ()
(interactive)
(calc-slow-wrapper
(if (calc-is-hyperbolic)
(calc-enter-result 3 "pvl" (cons 'calcFunc-pvl (calc-top-list-n 3)))
(let ((n (if (calc-is-option) 4 3)))
(if (calc-is-inverse)
(calc-enter-result n "pvb" (cons 'calcFunc-pvb (calc-top-list-n n)))
(calc-enter-result n "pv" (cons 'calcFunc-pv (calc-top-list-n n))))))))
(defun calc-fin-npv (arg)
(interactive "p")
(calc-slow-wrapper
(if (calc-is-inverse)
(calc-vector-op "npvb" 'calcFunc-npvb (1+ arg))
(calc-vector-op "npv" 'calcFunc-npv (1+ arg)))))
(defun calc-fin-fv ()
(interactive)
(calc-slow-wrapper
(if (calc-is-hyperbolic)
(calc-enter-result 3 "fvl" (cons 'calcFunc-fvl (calc-top-list-n 3)))
(let ((n (if (calc-is-option) 4 3)))
(if (calc-is-inverse)
(calc-enter-result n "fvb" (cons 'calcFunc-fvb (calc-top-list-n n)))
(calc-enter-result n "fv" (cons 'calcFunc-fv (calc-top-list-n n))))))))
(defun calc-fin-pmt ()
(interactive)
(calc-slow-wrapper
(if (calc-is-hyperbolic)
(calc-enter-result 3 "fvl" (cons 'calcFunc-fvl (calc-top-list-n 3)))
(let ((n (if (calc-is-option) 4 3)))
(if (calc-is-inverse)
(calc-enter-result n "pmtb" (cons 'calcFunc-pmtb (calc-top-list-n n)))
(calc-enter-result n "pmt" (cons 'calcFunc-pmt (calc-top-list-n n))))))))
(defun calc-fin-nper ()
(interactive)
(calc-slow-wrapper
(if (calc-is-hyperbolic)
(calc-enter-result 3 "nprl" (cons 'calcFunc-nperl (calc-top-list-n 3)))
(let ((n (if (calc-is-option) 4 3)))
(if (calc-is-inverse)
(calc-enter-result n "nprb" (cons 'calcFunc-nperb
(calc-top-list-n n)))
(calc-enter-result n "nper" (cons 'calcFunc-nper
(calc-top-list-n n))))))))
(defun calc-fin-rate ()
(interactive)
(calc-slow-wrapper
(let ((n (if (and (not (calc-is-hyperbolic))
(calc-is-option))
4 3)))
(calc-pop-push-record n
(if (calc-is-hyperbolic) "ratl"
(if (calc-is-inverse) "ratb" "rate"))
(calc-to-percentage
(calc-normalize
(cons (if (calc-is-hyperbolic) 'calcFunc-ratel
(if (calc-is-hyperbolic) 'calcFunc-rateb
'calcFunc-rate))
(calc-top-list-n n))))))))
(defun calc-fin-irr (arg)
(interactive "P")
(calc-slow-wrapper
(if (calc-is-inverse)
(calc-vector-op "irrb" 'calcFunc-irrb arg)
(calc-vector-op "irr" 'calcFunc-irr arg))))
(defun calc-fin-sln ()
(interactive)
(calc-slow-wrapper
(calc-enter-result 3 "sln" (cons 'calcFunc-sln (calc-top-list-n 3)))))
(defun calc-fin-syd ()
(interactive)
(calc-slow-wrapper
(calc-enter-result 4 "syd" (cons 'calcFunc-syd (calc-top-list-n 4)))))
(defun calc-fin-ddb ()
(interactive)
(calc-slow-wrapper
(calc-enter-result 4 "ddb" (cons 'calcFunc-ddb (calc-top-list-n 4)))))
(defun calc-to-percentage (x)
(cond ((Math-objectp x)
(setq x (math-mul x 100))
(if (Math-num-integerp x)
(setq x (math-trunc x)))
(list 'calcFunc-percent x))
((Math-vectorp x)
(cons 'vec (mapcar 'calc-to-percentage (cdr x))))
(t x)))
(defun calc-convert-percent ()
(interactive)
(calc-slow-wrapper
(calc-pop-push-record 1 "c%" (calc-to-percentage (calc-top-n 1)))))
(defun calc-percent-change ()
(interactive)
(calc-slow-wrapper
(let ((res (calc-normalize (cons 'calcFunc-relch (calc-top-list 2)))))
(calc-pop-push-record 2 "%ch" (calc-to-percentage res)))))
;;; Financial functions.
(defun calcFunc-pv (rate num amount &optional lump)
(math-check-financial rate num)
(math-with-extra-prec 2
(let ((p (math-pow (math-add 1 rate) num)))
(math-add (math-mul amount
(math-div (math-sub 1 (math-div 1 p))
rate))
(math-div (or lump 0) p)))))
(put 'calcFunc-pv 'math-expandable t)
(defun calcFunc-pvl (rate num amount)
(calcFunc-pv rate num 0 amount))
(put 'calcFunc-pvl 'math-expandable t)
(defun calcFunc-pvb (rate num amount &optional lump)
(math-check-financial rate num)
(math-with-extra-prec 2
(let* ((p (math-pow (math-add 1 rate) num)))
(math-add (math-mul amount
(math-div (math-mul (math-sub 1 (math-div 1 p))
(math-add 1 rate))
rate))
(math-div (or lump 0) p)))))
(put 'calcFunc-pvb 'math-expandable t)
(defun calcFunc-npv (rate &rest flows)
(math-check-financial rate 1)
(math-with-extra-prec 2
(let* ((flat (math-flatten-many-vecs flows))
(pp (math-add 1 rate))
(p pp)
(accum 0))
(while (setq flat (cdr flat))
(setq accum (math-add accum (math-div (car flat) p))
p (math-mul p pp)))
accum)))
(put 'calcFunc-npv 'math-expandable t)
(defun calcFunc-npvb (rate &rest flows)
(math-check-financial rate 1)
(math-with-extra-prec 2
(let* ((flat (math-flatten-many-vecs flows))
(pp (math-add 1 rate))
(p 1)
(accum 0))
(while (setq flat (cdr flat))
(setq accum (math-add accum (math-div (car flat) p))
p (math-mul p pp)))
accum)))
(put 'calcFunc-npvb 'math-expandable t)
(defun calcFunc-fv (rate num amount &optional initial)
(math-check-financial rate num)
(math-with-extra-prec 2
(let ((p (math-pow (math-add 1 rate) num)))
(math-add (math-mul amount
(math-div (math-sub p 1)
rate))
(math-mul (or initial 0) p)))))
(put 'calcFunc-fv 'math-expandable t)
(defun calcFunc-fvl (rate num amount)
(calcFunc-fv rate num 0 amount))
(put 'calcFunc-fvl 'math-expandable t)
(defun calcFunc-fvb (rate num amount &optional initial)
(math-check-financial rate num)
(math-with-extra-prec 2
(let ((p (math-pow (math-add 1 rate) num)))
(math-add (math-mul amount
(math-div (math-mul (math-sub p 1)
(math-add 1 rate))
rate))
(math-mul (or initial 0) p)))))
(put 'calcFunc-fvb 'math-expandable t)
(defun calcFunc-pmt (rate num amount &optional lump)
(math-check-financial rate num)
(math-with-extra-prec 2
(let ((p (math-pow (math-add 1 rate) num)))
(math-div (math-mul (math-sub amount
(math-div (or lump 0) p))
rate)
(math-sub 1 (math-div 1 p))))))
(put 'calcFunc-pmt 'math-expandable t)
(defun calcFunc-pmtb (rate num amount &optional lump)
(math-check-financial rate num)
(math-with-extra-prec 2
(let ((p (math-pow (math-add 1 rate) num)))
(math-div (math-mul (math-sub amount (math-div (or lump 0) p)) rate)
(math-mul (math-sub 1 (math-div 1 p))
(math-add 1 rate))))))
(put 'calcFunc-pmtb 'math-expandable t)
(defun calcFunc-nper (rate pmt amount &optional lump)
(math-compute-nper rate pmt amount lump nil))
(put 'calcFunc-nper 'math-expandable t)
(defun calcFunc-nperb (rate pmt amount &optional lump)
(math-compute-nper rate pmt amount lump 'b))
(put 'calcFunc-nperb 'math-expandable t)
(defun calcFunc-nperl (rate pmt amount)
(math-compute-nper rate pmt amount nil 'l))
(put 'calcFunc-nperl 'math-expandable t)
(defun math-compute-nper (rate pmt amount lump bflag)
(and lump (math-zerop lump)
(setq lump nil))
(and lump (math-zerop pmt)
(setq amount lump
lump nil
bflag 'l))
(or (math-objectp rate) (and math-expand-formulas (null lump))
(math-reject-arg rate 'numberp))
(and (math-zerop rate)
(math-reject-arg rate 'nonzerop))
(or (math-objectp pmt) (and math-expand-formulas (null lump))
(math-reject-arg pmt 'numberp))
(or (math-objectp amount) (and math-expand-formulas (null lump))
(math-reject-arg amount 'numberp))
(if lump
(progn
(or (math-objectp lump)
(math-reject-arg lump 'numberp))
(let ((root (math-find-root (list 'calcFunc-eq
(list (if bflag
'calcFunc-pvb
'calcFunc-pv)
rate
'(var DUMMY var-DUMMY)
pmt
lump)
amount)
'(var DUMMY var-DUMMY)
'(intv 3 0 100)
t)))
(if (math-vectorp root)
(nth 1 root)
root)))
(math-with-extra-prec 2
(let ((temp (if (eq bflag 'l)
(math-div amount pmt)
(math-sub 1 (math-div (math-mul amount rate)
(if bflag
(math-mul pmt (math-add 1 rate))
pmt))))))
(if (or (math-posp temp) math-expand-formulas)
(math-neg (calcFunc-log temp (math-add 1 rate)))
(math-reject-arg pmt "*Payment too small to cover interest rate"))))))
(defun calcFunc-rate (num pmt amount &optional lump)
(math-compute-rate num pmt amount lump 'calcFunc-pv))
(defun calcFunc-rateb (num pmt amount &optional lump)
(math-compute-rate num pmt amount lump 'calcFunc-pvb))
(defun math-compute-rate (num pmt amount lump func)
(or (math-objectp num)
(math-reject-arg num 'numberp))
(or (math-objectp pmt)
(math-reject-arg pmt 'numberp))
(or (math-objectp amount)
(math-reject-arg amount 'numberp))
(or (null lump)
(math-objectp lump)
(math-reject-arg lump 'numberp))
(let ((root (math-find-root (list 'calcFunc-eq
(list func
'(var DUMMY var-DUMMY)
num
pmt
(or lump 0))
amount)
'(var DUMMY var-DUMMY)
'(intv 3 (float 1 -4) 1)
t)))
(if (math-vectorp root)
(nth 1 root)
root)))
(defun calcFunc-ratel (num pmt amount)
(or (math-objectp num) math-expand-formulas
(math-reject-arg num 'numberp))
(or (math-objectp pmt) math-expand-formulas
(math-reject-arg pmt 'numberp))
(or (math-objectp amount) math-expand-formulas
(math-reject-arg amount 'numberp))
(math-with-extra-prec 2
(math-sub (math-pow (math-div pmt amount) (math-div 1 num)) 1)))
(defun calcFunc-irr (&rest vecs)
(math-compute-irr vecs 'calcFunc-npv))
(defun calcFunc-irrb (&rest vecs)
(math-compute-irr vecs 'calcFunc-npvb))
(defun math-compute-irr (vecs func)
(let* ((flat (math-flatten-many-vecs vecs))
(root (math-find-root (list func
'(var DUMMY var-DUMMY)
flat)
'(var DUMMY var-DUMMY)
'(intv 3 (float 1 -4) 1)
t)))
(if (math-vectorp root)
(nth 1 root)
root)))
(defun math-check-financial (rate num)
(or (math-objectp rate) math-expand-formulas
(math-reject-arg rate 'numberp))
(and (math-zerop rate)
(math-reject-arg rate 'nonzerop))
(or (math-objectp num) math-expand-formulas
(math-reject-arg num 'numberp)))
(defun calcFunc-sln (cost salvage life &optional period)
(or (math-realp cost) math-expand-formulas
(math-reject-arg cost 'realp))
(or (math-realp salvage) math-expand-formulas
(math-reject-arg salvage 'realp))
(or (math-realp life) math-expand-formulas
(math-reject-arg life 'realp))
(if (math-zerop life) (math-reject-arg life 'nonzerop))
(if (and period
(if (math-num-integerp period)
(or (Math-lessp life period) (not (math-posp period)))
(math-reject-arg period 'integerp)))
0
(math-div (math-sub cost salvage) life)))
(put 'calcFunc-sln 'math-expandable t)
(defun calcFunc-syd (cost salvage life period)
(or (math-realp cost) math-expand-formulas
(math-reject-arg cost 'realp))
(or (math-realp salvage) math-expand-formulas
(math-reject-arg salvage 'realp))
(or (math-realp life) math-expand-formulas
(math-reject-arg life 'realp))
(if (math-zerop life) (math-reject-arg life 'nonzerop))
(or (math-realp period) math-expand-formulas
(math-reject-arg period 'realp))
(if (or (Math-lessp life period) (not (math-posp period)))
0
(math-div (math-mul (math-sub cost salvage)
(math-add (math-sub life period) 1))
(math-div (math-mul life (math-add life 1)) 2))))
(put 'calcFunc-syd 'math-expandable t)
(defun calcFunc-ddb (cost salvage life period)
(if (math-messy-integerp period) (setq period (math-trunc period)))
(or (integerp period) (math-reject-arg period 'fixnump))
(or (math-realp cost) (math-reject-arg cost 'realp))
(or (math-realp salvage) (math-reject-arg salvage 'realp))
(or (math-realp life) (math-reject-arg life 'realp))
(if (math-zerop life) (math-reject-arg life 'nonzerop))
(if (or (Math-lessp life period) (<= period 0))
0
(let ((book cost)
(res 0))
(while (>= (setq period (1- period)) 0)
(setq res (math-div (math-mul book 2) life)
book (math-sub book res))
(if (Math-lessp book salvage)
(setq res (math-add res (math-sub book salvage))
book salvage)))
res)))
(provide 'calc-fin)
;;; calc-fin.el ends here