1 ;;; calc-units.el --- unit conversion functions for Calc
3 ;; Copyright (C) 1990, 1991, 1992, 1993, 2001, 2002, 2003, 2004,
4 ;; 2005, 2006, 2007, 2008, 2009, 2010 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 of the License, or
14 ;; (at your option) 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. If not, see <http://www.gnu.org/licenses/>.
28 ;; This file is autoloaded from calc-ext.el.
37 ;;; Units table last updated 9-Jan-91 by Ulrich Mueller (ulm@vsnhd1.cern.ch)
38 ;;; with some additions by Przemek Klosowski (przemek@rrdstrad.nist.gov)
39 ;;; Updated April 2002 by Jochen Küpper
41 ;;; Updated August 2007, using
42 ;;; CODATA (http://physics.nist.gov/cuu/Constants/index.html)
43 ;;; NIST (http://physics.nist.gov/Pubs/SP811/appenB9.html)
44 ;;; ESUWM (Encyclopaedia of Scientific Units, Weights and
45 ;;; Measures, by François Cardarelli)
46 ;;; All conversions are exact unless otherwise noted.
48 (defvar math-standard-units
51 ( in
"254*10^(-2) cm" "Inch" nil
55 ( mi
"5280 ft" "Mile" )
56 ( au
"149597870691. m" "Astronomical Unit" nil
58 ;; (approx) NASA JPL (http://neo.jpl.nasa.gov/glossary/au.html)
59 ( lyr
"c yr" "Light Year" )
60 ( pc
"3.0856775854*10^16 m" "Parsec" nil
61 "3.0856775854 10^16 m (*)") ;; (approx) ESUWM
62 ( nmi
"1852 m" "Nautical Mile" )
63 ( fath
"6 ft" "Fathom" )
64 ( fur
"660 ft" "Furlong")
65 ( mu
"1 um" "Micron" )
66 ( mil
"(1/1000) in" "Mil" )
67 ( point
"(1/72) in" "Point (1/72 inch)" )
68 ( Ang
"10^(-10) m" "Angstrom" )
69 ( mfi
"mi+ft+in" "Miles + feet + inches" )
71 ( texpt
"(100/7227) in" "Point (TeX conventions)" )
72 ( texpc
"12 texpt" "Pica" )
73 ( texbp
"point" "Big point (TeX conventions)" )
74 ( texdd
"(1238/1157) texpt" "Didot point" )
75 ( texcc
"12 texdd" "Cicero" )
76 ( texsp
"(1/65536) texpt" "Scaled TeX point" )
79 ( hect
"10000 m^2" "*Hectare" )
81 ( acre
"(1/640) mi^2" "Acre" )
82 ( b
"10^(-28) m^2" "Barn" )
85 ( L
"10^(-3) m^3" "*Liter" )
87 ( gal
"4 qt" "US Gallon" )
90 ( cup
"8 ozfl" "Cup" )
91 ( ozfl
"2 tbsp" "Fluid Ounce" )
92 ( floz
"2 tbsp" "Fluid Ounce" )
93 ( tbsp
"3 tsp" "Tablespoon" )
94 ;; ESUWM defines a US gallon as 231 in^3.
95 ;; That gives the following exact value for tsp.
96 ( tsp
"492892159375*10^(-11) ml" "Teaspoon" nil
98 ( vol
"tsp+tbsp+ozfl+cup+pt+qt+gal" "Gallons + ... + teaspoons" nil
99 "tsp+tbsp+ozfl+cup+pt+qt+gal")
100 ( galC
"galUK" "Canadian Gallon" )
101 ( galUK
"454609*10^(-5) L" "UK Gallon" nil
107 ( min
"60 s" "Minute" )
108 ( hr
"60 min" "Hour" )
109 ( day
"24 hr" "Day" )
110 ( wk
"7 day" "Week" )
111 ( hms
"wk+day+hr+min+s" "Hours, minutes, seconds" )
112 ( yr
"36525*10^(-2) day" "Year (Julian)" nil
117 ( mph
"mi/hr" "*Miles per hour" )
118 ( kph
"km/hr" "Kilometers per hour" )
119 ( knot
"nmi/hr" "Knot" )
120 ( c
"299792458 m/s" "Speed of light" ) ;;; CODATA
123 ( ga
"980665*10^(-5) m/s^2" "*\"g\" acceleration" nil
124 "9.80665 m / s^2") ;; CODATA
128 ( lb
"16 oz" "Pound (mass)" )
129 ( oz
"28349523125*10^(-9) g" "Ounce (mass)" nil
130 "28.349523125 g") ;; ESUWM
131 ( ton
"2000 lb" "Ton" )
132 ( tpo
"ton+lb+oz" "Tons + pounds + ounces (mass)" )
133 ( t
"1000 kg" "Metric ton" )
134 ( tonUK
"10160469088*10^(-7) kg" "UK ton" nil
135 "1016.0469088 kg") ;; ESUWM
136 ( lbt
"12 ozt" "Troy pound" )
137 ( ozt
"311034768*10^(-7) g" "Troy ounce" nil
138 "31.10347680 g") ;; ESUWM, 1/12 exact value for lbt
139 ( ct
"(2/10) g" "Carat" nil
141 ( u
"1.660538782*10^(-27) kg" "Unified atomic mass" nil
142 "1.660538782 10^-27 kg (*)");;(approx) CODATA
145 ( N
"m kg/s^2" "*Newton" )
146 ( dyn
"10^(-5) N" "Dyne" )
147 ( gf
"ga g" "Gram (force)" )
148 ( lbf
"ga lb" "Pound (force)" )
149 ( kip
"1000 lbf" "Kilopound (force)" )
150 ( pdl
"138254954376*10^(-12) N" "Poundal" nil
151 "0.138254954376 N") ;; ESUWM
155 ( erg
"10^(-7) J" "Erg" )
156 ( cal
"41868*10^(-4) J" "International Table Calorie" nil
158 ( calth
"4184*10^(-3) J" "Thermochemical Calorie" nil
160 ( Cal
"1000 cal" "Large Calorie")
161 ( Btu
"105505585262*10^(-8) J" "International Table Btu" nil
162 "1055.05585262 J") ;; ESUWM
163 ( eV
"ech V" "Electron volt" )
164 ( ev
"eV" "Electron volt" )
165 ( therm
"105506000 J" "EEC therm" )
166 ( invcm
"h c/cm" "Energy in inverse centimeters" )
167 ( Kayser
"invcm" "Kayser (inverse centimeter energy)" )
168 ( men
"100/invcm" "Inverse energy in meters" )
169 ( Hzen
"h Hz" "Energy in Hertz")
170 ( Ken
"k K" "Energy in Kelvins")
171 ( Wh
"W hr" "Watt hour")
172 ( Ws
"W s" "Watt second")
176 ( hp
"550 ft lbf/s" "Horsepower") ;;ESUWM
177 ( hpm
"75 m kgf/s" "Metric Horsepower") ;;ESUWM
180 ( K nil
"*Degree Kelvin" K
)
181 ( dK
"K" "Degree Kelvin" K
)
182 ( degK
"K" "Degree Kelvin" K
)
183 ( dC
"K" "Degree Celsius" C
)
184 ( degC
"K" "Degree Celsius" C
)
185 ( dF
"(5/9) K" "Degree Fahrenheit" F
)
186 ( degF
"(5/9) K" "Degree Fahrenheit" F
)
189 ( Pa
"N/m^2" "*Pascal" )
190 ( bar
"10^5 Pa" "Bar" )
191 ( atm
"101325 Pa" "Standard atmosphere" ) ;; CODATA
192 ( Torr
"(1/760) atm" "Torr")
193 ( mHg
"1000 Torr" "Meter of mercury" )
194 ( inHg
"254*10^(-1) mmHg" "Inch of mercury" nil
196 ( inH2O
"2.490889*10^2 Pa" "Inch of water" nil
197 "2.490889 10^2 Pa (*)") ;;(approx) NIST
198 ( psi
"lbf/in^2" "Pounds per square inch" )
201 ( P
"(1/10) Pa s" "*Poise" )
202 ( St
"10^(-4) m^2/s" "Stokes" )
206 ( C
"A s" "Coulomb" )
207 ( Fdy
"ech Nav" "Faraday" )
208 ( e
"ech" "Elementary charge" )
209 ( ech
"1.602176487*10^(-19) C" "Elementary charge" nil
210 "1.602176487 10^-19 C (*)") ;;(approx) CODATA
214 ( S
"A/V" "Siemens" )
217 ( T
"Wb/m^2" "Tesla" )
218 ( Gs
"10^(-4) T" "Gauss" )
221 ;; Luminous intensity
222 ( cd nil
"*Candela" )
223 ( sb
"10000 cd/m^2" "Stilb" )
224 ( lm
"cd sr" "Lumen" )
225 ( lx
"lm/m^2" "Lux" )
226 ( ph
"10000 lx" "Phot" )
227 ( fc
"lm/ft^2" "Footcandle") ;; ESUWM
228 ( lam
"10000 lm/m^2" "Lambert" )
229 ( flam
"(1/pi) cd/ft^2" "Footlambert") ;; ESUWM
232 ( Bq
"1/s" "*Becquerel" )
233 ( Ci
"37*10^9 Bq" "Curie" ) ;; ESUWM
235 ( Sv
"Gy" "Sievert" )
236 ( R
"258*10^(-6) C/kg" "Roentgen" ) ;; NIST
237 ( rd
"(1/100) Gy" "Rad" )
240 ;; Amount of substance
244 ( rad nil
"*Radian" )
245 ( circ
"2 pi rad" "Full circle" )
246 ( rev
"circ" "Full revolution" )
247 ( deg
"circ/360" "Degree" )
248 ( arcmin
"deg/60" "Arc minute" )
249 ( arcsec
"arcmin/60" "Arc second" )
250 ( grad
"circ/400" "Grade" )
251 ( rpm
"rev/min" "Revolutions per minute" )
254 ( sr nil
"*Steradian" )
256 ;; Other physical quantities
257 ;; The values are from CODATA, and are approximate.
258 ( h
"6.62606896*10^(-34) J s" "*Planck's constant" nil
259 "6.62606896 10^-34 J s (*)")
260 ( hbar
"h / (2 pi)" "Planck's constant" ) ;; Exact
261 ( mu0
"4 pi 10^(-7) H/m" "Permeability of vacuum") ;; Exact
262 ( eps0
"1 / (mu0 c^2)" "Permittivity of vacuum" )
263 ( G
"6.67428*10^(-11) m^3/(kg s^2)" "Gravitational constant" nil
264 "6.67428 10^-11 m^3/(kg s^2) (*)")
265 ( Nav
"6.02214179*10^(23) / mol" "Avogadro's constant" nil
266 "6.02214179 10^23 / mol (*)")
267 ( me
"9.10938215*10^(-31) kg" "Electron rest mass" nil
268 "9.10938215 10^-31 kg (*)")
269 ( mp
"1.672621637*10^(-27) kg" "Proton rest mass" nil
270 "1.672621637 10^-27 kg (*)")
271 ( mn
"1.674927211*10^(-27) kg" "Neutron rest mass" nil
272 "1.674927211 10^-27 kg (*)")
273 ( mmu
"1.88353130*10^(-28) kg" "Muon rest mass" nil
274 "1.88353130 10^-28 kg (*)")
275 ( Ryd
"10973731.568527 /m" "Rydberg's constant" nil
276 "10973731.568527 /m (*)")
277 ( k
"1.3806504*10^(-23) J/K" "Boltzmann's constant" nil
278 "1.3806504 10^-23 J/K (*)")
279 ( alpha
"7.2973525376*10^(-3)" "Fine structure constant" nil
280 "7.2973525376 10^-3 (*)")
281 ( muB
"927.400915*10^(-26) J/T" "Bohr magneton" nil
282 "927.400915 10^-26 J/T (*)")
283 ( muN
"5.05078324*10^(-27) J/T" "Nuclear magneton" nil
284 "5.05078324 10^-27 J/T (*)")
285 ( mue
"-928.476377*10^(-26) J/T" "Electron magnetic moment" nil
286 "-928.476377 10^-26 J/T (*)")
287 ( mup
"1.410606662*10^(-26) J/T" "Proton magnetic moment" nil
288 "1.410606662 10^-26 J/T (*)")
289 ( R0
"8.314472 J/(mol K)" "Molar gas constant" nil
290 "8.314472 J/(mol K) (*)")
291 ( V0
"22.710981*10^(-3) m^3/mol" "Standard volume of ideal gas" nil
292 "22.710981 10^-3 m^3/mol (*)")))
295 (defvar math-additional-units nil
296 "*Additional units table for user-defined units.
297 Must be formatted like `math-standard-units'.
298 If you change this, be sure to set `math-units-table' to nil to ensure
299 that the combined units table will be rebuilt.")
301 (defvar math-unit-prefixes
302 '( ( ?Y
(^
10 24) "Yotta" )
303 ( ?Z
(^
10 21) "Zetta" )
304 ( ?E
(^
10 18) "Exa" )
305 ( ?P
(^
10 15) "Peta" )
306 ( ?T
(^
10 12) "Tera" )
307 ( ?G
(^
10 9) "Giga" )
308 ( ?M
(^
10 6) "Mega" )
309 ( ?k
(^
10 3) "Kilo" )
310 ( ?K
(^
10 3) "Kilo" )
311 ( ?h
(^
10 2) "Hecto" )
312 ( ?H
(^
10 2) "Hecto" )
313 ( ?D
(^
10 1) "Deka" )
315 ( ?d
(^
10 -
1) "Deci" )
316 ( ?c
(^
10 -
2) "Centi" )
317 ( ?m
(^
10 -
3) "Milli" )
318 ( ?u
(^
10 -
6) "Micro" )
319 ( ?n
(^
10 -
9) "Nano" )
320 ( ?p
(^
10 -
12) "Pico" )
321 ( ?f
(^
10 -
15) "Femto" )
322 ( ?a
(^
10 -
18) "Atto" )
323 ( ?z
(^
10 -
21) "zepto" )
324 ( ?y
(^
10 -
24) "yocto" )))
326 (defvar math-standard-units-systems
328 ( si
( ( g
'(/ (var kg var-kg
) 1000) ) ) )
329 ( mks
( ( g
'(/ (var kg var-kg
) 1000) ) ) )
330 ( cgs
( ( m
'(* (var cm var-cm
) 100 ) ) ) )))
332 (defvar math-units-table nil
333 "Internal units table.
334 Derived from `math-standard-units' and `math-additional-units'.
335 Entries are (SYMBOL EXPR DOC-STRING TEMP-TYPE BASE-UNITS).")
337 (defvar math-units-table-buffer-valid nil
)
341 (defun calc-base-units ()
344 (let ((calc-autorange-units nil
))
345 (calc-enter-result 1 "bsun" (math-simplify-units
346 (math-to-standard-units (calc-top-n 1)
349 (defun calc-quick-units ()
352 (let* ((num (- last-command-event ?
0))
353 (pos (if (= num
0) 10 num
))
354 (units (calc-var-value 'var-Units
))
355 (expr (calc-top-n 1)))
356 (unless (and (>= num
0) (<= num
9))
357 (error "Bad unit number"))
358 (unless (math-vectorp units
)
359 (error "No \"quick units\" are defined"))
360 (unless (< pos
(length units
))
361 (error "Unit number %d not defined" pos
))
362 (if (math-units-in-expr-p expr nil
)
363 (calc-enter-result 1 (format "cun%d" num
)
364 (math-convert-units expr
(nth pos units
)))
365 (calc-enter-result 1 (format "*un%d" num
)
367 (math-mul expr
(nth pos units
))))))))
369 (defun math-get-standard-units (expr)
370 "Return the standard units in EXPR."
373 (math-to-standard-units expr nil
))))
375 (defun math-get-units (expr)
376 "Return the units in EXPR."
378 (math-extract-units expr
)))
380 (defun math-make-unit-string (expr)
381 "Return EXPR in string form.
382 If EXPR is nil, return nil."
384 (let ((cexpr (math-compose-expr expr
0)))
385 (replace-regexp-in-string
389 (math-composition-to-string cexpr
))))))
391 (defvar math-default-units-table
392 (make-hash-table :test
'equal
)
393 "A table storing previously converted units.")
395 (defun math-get-default-units (expr)
396 "Get default units to use when converting the units in EXPR."
397 (let* ((units (math-get-units expr
))
398 (standard-units (math-get-standard-units expr
))
399 (default-units (gethash
401 math-default-units-table
)))
402 (if (equal units
(car default-units
))
403 (math-make-unit-string (cadr default-units
))
404 (math-make-unit-string (car default-units
)))))
406 (defun math-put-default-units (expr)
407 "Put the units in EXPR in the default units table."
408 (let* ((units (math-get-units expr
))
409 (standard-units (math-get-standard-units expr
))
410 (default-units (gethash
412 math-default-units-table
)))
415 (puthash standard-units
(list units
) math-default-units-table
))
416 ((not (equal units
(car default-units
)))
417 (puthash standard-units
418 (list units
(car default-units
))
419 math-default-units-table
)))))
422 (defun calc-convert-units (&optional old-units new-units
)
425 (let ((expr (calc-top-n 1))
430 (unless (math-units-in-expr-p expr t
)
431 (let ((uold (or old-units
433 (setq uoldname
(read-string "Old units: "))
434 (if (equal uoldname
"")
438 (if (string-match "\\` */" uoldname
)
439 (setq uoldname
(concat "1" uoldname
)))
440 (math-read-expr uoldname
))))))
441 (when (eq (car-safe uold
) 'error
)
442 (error "Bad format in units expression: %s" (nth 1 uold
)))
443 (setq expr
(math-mul expr uold
))))
445 (setq defunits
(math-get-default-units expr
))
449 (concat "Old units: "
461 (string= new-units
"")
463 (setq new-units defunits
)))
464 (when (string-match "\\` */" new-units
)
465 (setq new-units
(concat "1" new-units
)))
466 (setq units
(math-read-expr new-units
))
467 (when (eq (car-safe units
) 'error
)
468 (error "Bad format in units expression: %s" (nth 2 units
)))
469 (math-put-default-units units
)
470 (let ((unew (math-units-in-expr-p units t
))
471 (std (and (eq (car-safe units
) 'var
)
472 (assq (nth 1 units
) math-standard-units-systems
))))
474 (calc-enter-result 1 "cvun" (math-simplify-units
475 (math-to-standard-units expr
478 (error "No units specified"))
479 (calc-enter-result 1 "cvun"
482 (and uoldname
(not (equal uoldname
"1"))))))))))
484 (defun calc-autorange-units (arg)
487 (calc-change-mode 'calc-autorange-units arg nil t
)
488 (message (if calc-autorange-units
489 "Adjusting target unit prefix automatically"
490 "Using target units exactly"))))
492 (defun calc-convert-temperature (&optional old-units new-units
)
495 (let ((expr (calc-top-n 1))
500 (setq uold
(or old-units
501 (let ((units (math-single-units-in-expr-p expr
)))
504 (list 'var
(car units
)
505 (intern (concat "var-"
508 (error "Not a pure temperature expression"))
510 (setq uoldname
(read-string
511 "Old temperature units: ")))))))
512 (when (eq (car-safe uold
) 'error
)
513 (error "Bad format in units expression: %s" (nth 2 uold
)))
514 (or (math-units-in-expr-p expr nil
)
515 (setq expr
(math-mul expr uold
)))
516 (setq defunits
(math-get-default-units expr
))
517 (setq unew
(or new-units
521 (concat "Old temperature units: "
524 "New temperature units")
530 (setq unew
(math-read-expr (if (string= unew
"") defunits unew
)))
531 (when (eq (car-safe unew
) 'error
)
532 (error "Bad format in units expression: %s" (nth 2 unew
)))
533 (math-put-default-units unew
)
534 (let ((ntemp (calc-normalize
536 (math-convert-temperature expr uold unew
538 (if (Math-zerop ntemp
)
539 (setq ntemp
(list '* ntemp unew
)))
540 (let ((calc-simplify-mode 'none
))
541 (calc-enter-result 1 "cvtm" ntemp
))))))
543 (defun calc-remove-units ()
546 (calc-enter-result 1 "rmun" (math-simplify-units
547 (math-remove-units (calc-top-n 1))))))
549 (defun calc-extract-units ()
552 (calc-enter-result 1 "rmun" (math-simplify-units
553 (math-extract-units (calc-top-n 1))))))
555 ;; The variables calc-num-units and calc-den-units are local to
556 ;; calc-explain-units, but are used by calc-explain-units-rec,
557 ;; which is called by calc-explain-units.
558 (defvar calc-num-units
)
559 (defvar calc-den-units
)
561 (defun calc-explain-units ()
564 (let ((calc-num-units nil
)
565 (calc-den-units nil
))
566 (calc-explain-units-rec (calc-top-n 1) 1)
567 (and calc-den-units
(string-match "^[^(].* .*[^)]$" calc-den-units
)
568 (setq calc-den-units
(concat "(" calc-den-units
")")))
571 (message "%s per %s" calc-num-units calc-den-units
)
572 (message "%s" calc-num-units
))
574 (message "1 per %s" calc-den-units
)
575 (message "No units in expression"))))))
577 (defun calc-explain-units-rec (expr pow
)
578 (let ((u (math-check-unit-name expr
))
580 (if (and u
(not (math-zerop pow
)))
581 (let ((name (or (nth 2 u
) (symbol-name (car u
)))))
582 (if (eq (aref name
0) ?\
*)
583 (setq name
(substring name
1)))
584 (if (string-match "[^a-zA-Z0-9']" name
)
585 (if (string-match "^[a-zA-Z0-9' ()]*$" name
)
586 (while (setq pos
(string-match "[ ()]" name
))
587 (setq name
(concat (substring name
0 pos
)
588 (if (eq (aref name pos
) 32) "-" "")
589 (substring name
(1+ pos
)))))
590 (setq name
(concat "(" name
")"))))
591 (or (eq (nth 1 expr
) (car u
))
592 (setq name
(concat (nth 2 (assq (aref (symbol-name
595 (if (and (string-match "[^a-zA-Z0-9']" name
)
596 (not (memq (car u
) '(mHg gf
))))
599 (cond ((or (math-equal-int pow
1)
600 (math-equal-int pow -
1)))
601 ((or (math-equal-int pow
2)
602 (math-equal-int pow -
2))
603 (if (equal (nth 4 u
) '((m .
1)))
604 (setq name
(concat "Square-" name
))
605 (setq name
(concat name
"-squared"))))
606 ((or (math-equal-int pow
3)
607 (math-equal-int pow -
3))
608 (if (equal (nth 4 u
) '((m .
1)))
609 (setq name
(concat "Cubic-" name
))
610 (setq name
(concat name
"-cubed"))))
612 (setq name
(concat name
"^"
613 (math-format-number (math-abs pow
))))))
615 (setq calc-num-units
(if calc-num-units
616 (concat calc-num-units
" " name
)
618 (setq calc-den-units
(if calc-den-units
619 (concat calc-den-units
" " name
)
621 (cond ((eq (car-safe expr
) '*)
622 (calc-explain-units-rec (nth 1 expr
) pow
)
623 (calc-explain-units-rec (nth 2 expr
) pow
))
624 ((eq (car-safe expr
) '/)
625 (calc-explain-units-rec (nth 1 expr
) pow
)
626 (calc-explain-units-rec (nth 2 expr
) (- pow
)))
627 ((memq (car-safe expr
) '(neg + -
))
628 (calc-explain-units-rec (nth 1 expr
) pow
))
629 ((and (eq (car-safe expr
) '^
)
630 (math-realp (nth 2 expr
)))
631 (calc-explain-units-rec (nth 1 expr
)
632 (math-mul pow
(nth 2 expr
))))))))
634 (defun calc-simplify-units ()
637 (calc-with-default-simplification
638 (calc-enter-result 1 "smun" (math-simplify-units (calc-top-n 1))))))
640 (defun calc-view-units-table (n)
642 (and n
(setq math-units-table-buffer-valid nil
))
643 (let ((win (get-buffer-window "*Units Table*")))
646 math-units-table-buffer-valid
)
648 (bury-buffer (window-buffer win
))
649 (let ((curwin (selected-window)))
651 (switch-to-buffer nil
)
652 (select-window curwin
)))
653 (math-build-units-table-buffer nil
))))
655 (defun calc-enter-units-table (n)
657 (and n
(setq math-units-table-buffer-valid nil
))
658 (math-build-units-table-buffer t
)
659 (message "%s" (substitute-command-keys "Type \\[calc] to return to the Calculator")))
661 (defun calc-define-unit (uname desc
&optional disp
)
662 (interactive "SDefine unit name: \nsDescription: \nP")
663 (if disp
(setq disp
(read-string "Display definition: ")))
665 (let ((form (calc-top-n 1))
666 (unit (assq uname math-additional-units
)))
668 (setq math-additional-units
669 (cons (setq unit
(list uname nil nil nil nil
))
670 math-additional-units
)
671 math-units-table nil
))
672 (setcar (cdr unit
) (and (not (and (eq (car-safe form
) 'var
)
673 (eq (nth 1 form
) uname
)))
674 (not (math-equal-int form
1))
675 (math-format-flat-expr form
0)))
676 (setcar (cdr (cdr unit
)) (and (not (equal desc
""))
679 (setcar (cdr (cdr (cdr (cdr unit
)))) disp
))))
680 (calc-invalidate-units-table))
682 (defun calc-undefine-unit (uname)
683 (interactive "SUndefine unit name: ")
685 (let ((unit (assq uname math-additional-units
)))
687 (if (assq uname math-standard-units
)
688 (error "\"%s\" is a predefined unit name" uname
)
689 (error "Unit name \"%s\" not found" uname
)))
690 (setq math-additional-units
(delq unit math-additional-units
)
691 math-units-table nil
)))
692 (calc-invalidate-units-table))
694 (defun calc-invalidate-units-table ()
695 (setq math-units-table nil
)
696 (let ((buf (get-buffer "*Units Table*")))
698 (with-current-buffer buf
700 (goto-char (point-min))
701 (if (looking-at "Calculator Units Table")
702 (let ((inhibit-read-only t
))
703 (insert "(Obsolete) "))))))))
705 (defun calc-get-unit-definition (uname)
706 (interactive "SGet definition for unit: ")
708 (math-build-units-table)
709 (let ((unit (assq uname math-units-table
)))
711 (error "Unit name \"%s\" not found" uname
))
712 (let ((msg (nth 2 unit
)))
714 (if (string-match "^\\*" msg
)
715 (setq msg
(substring msg
1)))
716 (setq msg
(symbol-name uname
)))
719 (calc-enter-result 0 "ugdf" (nth 1 unit
))
720 (message "Derived unit: %s" msg
))
721 (calc-enter-result 0 "ugdf" (list 'var uname
724 (symbol-name uname
)))))
725 (message "Base unit: %s" msg
))))))
727 (defun calc-permanent-units ()
731 (set-buffer (find-file-noselect (substitute-in-file-name
732 calc-settings-file
)))
733 (goto-char (point-min))
734 (if (and (search-forward ";;; Custom units stored by Calc" nil t
)
738 (search-forward "\n;;; End of custom units" nil t
)))
742 (delete-region pos
(point)))
743 (goto-char (point-max))
746 (insert ";;; Custom units stored by Calc on " (current-time-string) "\n")
747 (if math-additional-units
749 (insert "(setq math-additional-units '(\n")
750 (let ((list math-additional-units
))
752 (insert " (" (symbol-name (car (car list
))) " "
753 (if (nth 1 (car list
))
754 (if (stringp (nth 1 (car list
)))
755 (prin1-to-string (nth 1 (car list
)))
756 (prin1-to-string (math-format-flat-expr
757 (nth 1 (car list
)) 0)))
760 (prin1-to-string (nth 2 (car list
)))
762 (setq list
(cdr list
))))
764 (insert ";;; (no custom units defined)\n"))
765 (insert ";;; End of custom units\n")
769 ;; The variable math-cu-unit-list is local to math-build-units-table,
770 ;; but is used by math-compare-unit-names, which is called (indirectly)
771 ;; by math-build-units-table.
772 ;; math-cu-unit-list is also local to math-convert-units, but is used
773 ;; by math-convert-units-rec, which is called by math-convert-units.
774 (defvar math-cu-unit-list
)
776 (defun math-build-units-table ()
778 (let* ((combined-units (append math-additional-units
779 math-standard-units
))
780 (math-cu-unit-list (mapcar 'car combined-units
))
782 (message "Building units table...")
783 (setq math-units-table-buffer-valid nil
)
784 (setq tab
(mapcar (function
788 (if (stringp (nth 1 x
))
789 (let ((exp (math-read-plain-expr
791 (if (eq (car-safe exp
) 'error
)
792 (error "Format error in definition of %s in units table: %s"
799 (list (cons (car x
) 1)))
802 (let ((math-units-table tab
))
803 (mapc 'math-find-base-units tab
))
804 (message "Building units table...done")
805 (setq math-units-table tab
))))
807 ;; The variables math-fbu-base and math-fbu-entry are local to
808 ;; math-find-base-units, but are used by math-find-base-units-rec,
809 ;; which is called by math-find-base-units.
810 (defvar math-fbu-base
)
811 (defvar math-fbu-entry
)
813 (defun math-find-base-units (math-fbu-entry)
814 (if (eq (nth 4 math-fbu-entry
) 'boom
)
815 (error "Circular definition involving unit %s" (car math-fbu-entry
)))
816 (or (nth 4 math-fbu-entry
)
818 (setcar (nthcdr 4 math-fbu-entry
) 'boom
)
819 (math-find-base-units-rec (nth 1 math-fbu-entry
) 1)
821 (error "Dimensionless definition for unit %s" (car math-fbu-entry
)))
822 (while (eq (cdr (car math-fbu-base
)) 0)
823 (setq math-fbu-base
(cdr math-fbu-base
)))
824 (let ((b math-fbu-base
))
826 (if (eq (cdr (car (cdr b
))) 0)
827 (setcdr b
(cdr (cdr b
)))
829 (setq math-fbu-base
(sort math-fbu-base
'math-compare-unit-names
))
830 (setcar (nthcdr 4 math-fbu-entry
) math-fbu-base
)
833 (defun math-compare-unit-names (a b
)
834 (memq (car b
) (cdr (memq (car a
) math-cu-unit-list
))))
836 (defun math-find-base-units-rec (expr pow
)
837 (let ((u (math-check-unit-name expr
)))
839 (let ((ulist (math-find-base-units u
)))
841 (let ((p (* (cdr (car ulist
)) pow
))
842 (old (assq (car (car ulist
)) math-fbu-base
)))
844 (setcdr old
(+ (cdr old
) p
))
846 (cons (cons (car (car ulist
)) p
) math-fbu-base
))))
847 (setq ulist
(cdr ulist
)))))
848 ((math-scalarp expr
))
849 ((and (eq (car expr
) '^
)
850 (integerp (nth 2 expr
)))
851 (math-find-base-units-rec (nth 1 expr
) (* pow
(nth 2 expr
))))
853 (math-find-base-units-rec (nth 1 expr
) pow
)
854 (math-find-base-units-rec (nth 2 expr
) pow
))
856 (math-find-base-units-rec (nth 1 expr
) pow
)
857 (math-find-base-units-rec (nth 2 expr
) (- pow
)))
858 ((eq (car expr
) 'neg
)
859 (math-find-base-units-rec (nth 1 expr
) pow
))
861 (math-find-base-units-rec (nth 1 expr
) pow
))
862 ((eq (car expr
) 'var
)
863 (or (eq (nth 1 expr
) 'pi
)
864 (error "Unknown name %s in defining expression for unit %s"
865 (nth 1 expr
) (car math-fbu-entry
))))
866 (t (error "Malformed defining expression for unit %s" (car math-fbu-entry
))))))
869 (defun math-units-in-expr-p (expr sub-exprs
)
871 (if (eq (car expr
) 'var
)
872 (math-check-unit-name expr
)
874 (memq (car expr
) '(* / ^
)))
875 (or (math-units-in-expr-p (nth 1 expr
) sub-exprs
)
876 (math-units-in-expr-p (nth 2 expr
) sub-exprs
))))))
878 (defun math-only-units-in-expr-p (expr)
880 (if (eq (car expr
) 'var
)
881 (math-check-unit-name expr
)
882 (if (memq (car expr
) '(* /))
883 (and (math-only-units-in-expr-p (nth 1 expr
))
884 (math-only-units-in-expr-p (nth 2 expr
)))
885 (and (eq (car expr
) '^
)
886 (and (math-only-units-in-expr-p (nth 1 expr
))
887 (math-realp (nth 2 expr
))))))))
889 (defun math-single-units-in-expr-p (expr)
890 (cond ((math-scalarp expr
) nil
)
891 ((eq (car expr
) 'var
)
892 (math-check-unit-name expr
))
894 (let ((u1 (math-single-units-in-expr-p (nth 1 expr
)))
895 (u2 (math-single-units-in-expr-p (nth 2 expr
))))
896 (or (and u1 u2
'wrong
)
900 (if (math-units-in-expr-p (nth 2 expr
) nil
)
902 (math-single-units-in-expr-p (nth 1 expr
))))
905 (defun math-check-unit-name (v)
906 (and (eq (car-safe v
) 'var
)
907 (or (assq (nth 1 v
) (or math-units-table
(math-build-units-table)))
908 (let ((name (symbol-name (nth 1 v
))))
909 (and (> (length name
) 1)
910 (assq (aref name
0) math-unit-prefixes
)
911 (or (assq (intern (substring name
1)) math-units-table
)
912 (and (eq (aref name
0) ?M
)
914 (eq (aref name
1) ?e
)
915 (eq (aref name
2) ?g
)
916 (assq (intern (substring name
3))
917 math-units-table
))))))))
919 ;; The variable math-which-standard is local to math-to-standard-units,
920 ;; but is used by math-to-standard-rec, which is called by
921 ;; math-to-standard-units.
922 (defvar math-which-standard
)
924 (defun math-to-standard-units (expr math-which-standard
)
925 (math-to-standard-rec expr
))
927 (defun math-to-standard-rec (expr)
928 (if (eq (car-safe expr
) 'var
)
929 (let ((u (math-check-unit-name expr
))
934 (setq expr
(math-to-standard-rec (nth 1 u
)))
935 (let ((st (assq (car u
) math-which-standard
)))
937 (setq expr
(nth 1 st
))
938 (setq expr
(list 'var
(car u
)
939 (intern (concat "var-"
945 (nth 1 (assq (aref (symbol-name base
) 0)
952 (if (Math-primp expr
)
955 (mapcar 'math-to-standard-rec
(cdr expr
))))))
957 (defun math-apply-units (expr units ulist
&optional pure
)
958 (setq expr
(math-simplify-units expr
))
962 (or (math-numberp expr
)
963 (error "Incompatible units"))
965 (setq value
(math-div expr
(nth 1 (car ulist
)))
966 value
(math-floor (let ((calc-internal-prec
967 (1- calc-internal-prec
)))
968 (math-normalize value
)))
969 new
(math-add new
(math-mul value
(car (car ulist
))))
970 expr
(math-sub expr
(math-mul value
(nth 1 (car ulist
))))
972 (math-add new
(math-mul (math-div expr
(nth 1 (car ulist
)))
976 (math-simplify-units (list '* expr units
)))))
978 (defvar math-decompose-units-cache nil
)
979 (defun math-decompose-units (units)
980 (let ((u (math-check-unit-name units
)))
981 (and u
(eq (car-safe (nth 1 u
)) '+)
982 (setq units
(nth 1 u
))))
983 (setq units
(calcFunc-expand units
))
984 (and (eq (car-safe units
) '+)
985 (let ((entry (list units calc-internal-prec calc-prefer-frac
)))
986 (or (equal entry
(car math-decompose-units-cache
))
990 (while (eq (car-safe utemp
) '+)
991 (setq ulist
(cons (math-decompose-unit-part (nth 2 utemp
))
993 utemp
(nth 1 utemp
)))
994 (setq ulist
(cons (math-decompose-unit-part utemp
) ulist
)
996 (while (setq utemp
(cdr utemp
))
997 (unless (equal (nth 2 (car utemp
)) (nth 2 (car ulist
)))
998 (error "Inconsistent units in sum")))
999 (setq math-decompose-units-cache
1004 (not (Math-lessp (nth 1 x
)
1006 (cdr math-decompose-units-cache
))))
1008 (defun math-decompose-unit-part (unit)
1010 (math-is-multiple (math-simplify-units (math-to-standard-units
1014 ;; The variable math-fcu-u is local to math-find-compatible-unit,
1015 ;; but is used by math-find-compatible-rec which is called by
1016 ;; math-find-compatible-unit.
1019 (defun math-find-compatible-unit (expr unit
)
1020 (let ((math-fcu-u (math-check-unit-name unit
)))
1022 (math-find-compatible-unit-rec expr
1))))
1024 (defun math-find-compatible-unit-rec (expr pow
)
1025 (cond ((eq (car-safe expr
) '*)
1026 (or (math-find-compatible-unit-rec (nth 1 expr
) pow
)
1027 (math-find-compatible-unit-rec (nth 2 expr
) pow
)))
1028 ((eq (car-safe expr
) '/)
1029 (or (math-find-compatible-unit-rec (nth 1 expr
) pow
)
1030 (math-find-compatible-unit-rec (nth 2 expr
) (- pow
))))
1031 ((and (eq (car-safe expr
) '^
)
1032 (integerp (nth 2 expr
)))
1033 (math-find-compatible-unit-rec (nth 1 expr
) (* pow
(nth 2 expr
))))
1035 (let ((u2 (math-check-unit-name expr
)))
1036 (if (equal (nth 4 math-fcu-u
) (nth 4 u2
))
1037 (cons expr pow
))))))
1039 ;; The variables math-cu-new-units and math-cu-pure are local to
1040 ;; math-convert-units, but are used by math-convert-units-rec,
1041 ;; which is called by math-convert-units.
1042 (defvar math-cu-new-units
)
1043 (defvar math-cu-pure
)
1045 (defun math-convert-units (expr math-cu-new-units
&optional math-cu-pure
)
1046 (if (eq (car-safe math-cu-new-units
) 'var
)
1047 (let ((unew (assq (nth 1 math-cu-new-units
)
1048 (math-build-units-table))))
1049 (if (eq (car-safe (nth 1 unew
)) '+)
1050 (setq math-cu-new-units
(nth 1 unew
)))))
1051 (math-with-extra-prec 2
1052 (let ((compat (and (not math-cu-pure
)
1053 (math-find-compatible-unit expr math-cu-new-units
)))
1054 (math-cu-unit-list nil
)
1055 (math-combining-units nil
))
1057 (math-simplify-units
1058 (math-mul (math-mul (math-simplify-units
1059 (math-div expr
(math-pow (car compat
)
1061 (math-pow math-cu-new-units
(cdr compat
)))
1062 (math-simplify-units
1063 (math-to-standard-units
1064 (math-pow (math-div (car compat
) math-cu-new-units
)
1067 (when (setq math-cu-unit-list
(math-decompose-units math-cu-new-units
))
1068 (setq math-cu-new-units
(nth 2 (car math-cu-unit-list
))))
1069 (when (eq (car-safe expr
) '+)
1070 (setq expr
(math-simplify-units expr
)))
1071 (if (math-units-in-expr-p expr t
)
1072 (math-convert-units-rec expr
)
1073 (math-apply-units (math-to-standard-units
1074 (list '/ expr math-cu-new-units
) nil
)
1075 math-cu-new-units math-cu-unit-list math-cu-pure
))))))
1077 (defun math-convert-units-rec (expr)
1078 (if (math-units-in-expr-p expr nil
)
1079 (math-apply-units (math-to-standard-units
1080 (list '/ expr math-cu-new-units
) nil
)
1081 math-cu-new-units math-cu-unit-list math-cu-pure
)
1082 (if (Math-primp expr
)
1085 (mapcar 'math-convert-units-rec
(cdr expr
))))))
1087 (defun math-convert-temperature (expr old new
&optional pure
)
1088 (let* ((units (math-single-units-in-expr-p expr
))
1090 (if (or (null units
)
1091 (equal (nth 1 old
) (car units
)))
1092 (math-check-unit-name old
)
1093 (error "Inconsistent temperature units"))
1095 (unew (math-check-unit-name new
)))
1096 (unless (and (consp unew
) (nth 3 unew
))
1097 (error "Not a valid temperature unit"))
1098 (unless (and (consp uold
) (nth 3 uold
))
1099 (error "Not a pure temperature expression"))
1100 (let ((v (car uold
)))
1101 (setq expr
(list '/ expr
(list 'var v
1102 (intern (concat "var-"
1103 (symbol-name v
)))))))
1104 (or (eq (nth 3 uold
) (nth 3 unew
))
1105 (cond ((eq (nth 3 uold
) 'K
)
1106 (setq expr
(list '- expr
'(/ 27315 100)))
1107 (if (eq (nth 3 unew
) 'F
)
1108 (setq expr
(list '+ (list '* expr
'(/ 9 5)) 32))))
1109 ((eq (nth 3 uold
) 'C
)
1110 (if (eq (nth 3 unew
) 'F
)
1111 (setq expr
(list '+ (list '* expr
'(/ 9 5)) 32))
1112 (setq expr
(list '+ expr
'(/ 27315 100)))))
1114 (setq expr
(list '* (list '- expr
32) '(/ 5 9)))
1115 (if (eq (nth 3 unew
) 'K
)
1116 (setq expr
(list '+ expr
'(/ 27315 100)))))))
1119 (list '* expr new
))))
1123 (defun math-simplify-units (a)
1124 (let ((math-simplifying-units t
)
1125 (calc-matrix-mode 'scalar
))
1127 (defalias 'calcFunc-usimplify
'math-simplify-units
)
1129 ;; The function created by math-defsimplify uses the variable
1130 ;; math-simplify-expr, and so is used by functions in math-defsimplify
1131 (defvar math-simplify-expr
)
1133 (math-defsimplify (+ -
)
1134 (and math-simplifying-units
1135 (math-units-in-expr-p (nth 1 math-simplify-expr
) nil
)
1136 (let* ((units (math-extract-units (nth 1 math-simplify-expr
)))
1137 (ratio (math-simplify (math-to-standard-units
1138 (list '/ (nth 2 math-simplify-expr
) units
) nil
))))
1139 (if (math-units-in-expr-p ratio nil
)
1141 (calc-record-why "*Inconsistent units" math-simplify-expr
)
1143 (list '* (math-add (math-remove-units (nth 1 math-simplify-expr
))
1144 (if (eq (car math-simplify-expr
) '-
)
1145 (math-neg ratio
) ratio
))
1149 (math-simplify-units-prod))
1151 (defun math-simplify-units-prod ()
1152 (and math-simplifying-units
1153 calc-autorange-units
1154 (Math-realp (nth 1 math-simplify-expr
))
1155 (let* ((num (math-float (nth 1 math-simplify-expr
)))
1156 (xpon (calcFunc-xpon num
))
1157 (unitp (cdr (cdr math-simplify-expr
)))
1159 (pow (if (eq (car math-simplify-expr
) '*) 1 -
1))
1161 (and (eq (car-safe unit
) '*)
1162 (setq unitp
(cdr unit
)
1164 (and (eq (car-safe unit
) '^
)
1165 (integerp (nth 2 unit
))
1166 (setq pow
(* pow
(nth 2 unit
))
1169 (and (setq u
(math-check-unit-name unit
))
1172 (>= xpon
(if (eq (car u
) 'm
) 1 3)))
1175 (reverse math-unit-prefixes
)
1176 math-unit-prefixes
))
1179 (or (eq (car u
) (nth 1 unit
))
1184 math-unit-prefixes
))))))
1185 (setq xpon
(+ xpon uxpon
))
1187 (or (memq (car (car p
)) '(?d ?D ?h ?H
))
1188 (and (eq (car (car p
)) ?c
)
1189 (not (eq (car u
) 'm
)))
1190 (< xpon
(setq pxpon
(* (nth 2 (nth 1 (car p
)))
1193 (setq pname
(math-build-var-name
1194 (if (eq (car (car p
)) 0)
1196 (concat (char-to-string
1200 (and (/= (car (car p
)) 0)
1202 math-units-table
)))))
1206 (or (not (eq p pref
))
1207 (< xpon
(+ pxpon
(* (math-abs pow
) 3))))
1209 (setcar (cdr math-simplify-expr
)
1210 (let ((calc-prefer-frac nil
))
1211 (calcFunc-scf (nth 1 math-simplify-expr
)
1213 (setcar unitp pname
)
1214 math-simplify-expr
)))))))
1216 (defvar math-try-cancel-units
)
1219 (and math-simplifying-units
1220 (let ((np (cdr math-simplify-expr
))
1221 (math-try-cancel-units 0)
1223 (setq n
(if (eq (car-safe (nth 2 math-simplify-expr
)) '*)
1224 (cdr (nth 2 math-simplify-expr
))
1225 (nthcdr 2 math-simplify-expr
)))
1226 (if (math-realp (car n
))
1228 (setcar (cdr math-simplify-expr
) (math-mul (nth 1 math-simplify-expr
)
1229 (let ((calc-prefer-frac nil
))
1230 (math-div 1 (car n
)))))
1232 (while (eq (car-safe (setq n
(car np
))) '*)
1233 (math-simplify-units-divisor (cdr n
) (cdr (cdr math-simplify-expr
)))
1234 (setq np
(cdr (cdr n
))))
1235 (math-simplify-units-divisor np
(cdr (cdr math-simplify-expr
)))
1236 (if (eq math-try-cancel-units
0)
1237 (let* ((math-simplifying-units nil
)
1238 (base (math-simplify
1239 (math-to-standard-units math-simplify-expr nil
))))
1240 (if (Math-numberp base
)
1241 (setq math-simplify-expr base
))))
1242 (if (eq (car-safe math-simplify-expr
) '/)
1243 (math-simplify-units-prod))
1244 math-simplify-expr
)))
1246 (defun math-simplify-units-divisor (np dp
)
1249 (while (eq (car-safe (setq d
(car dp
))) '*)
1250 (when (setq temp
(math-simplify-units-quotient n
(nth 1 d
)))
1251 (setcar np
(setq n temp
))
1253 (setq dp
(cdr (cdr d
))))
1254 (when (setq temp
(math-simplify-units-quotient n d
))
1255 (setcar np
(setq n temp
))
1258 ;; Simplify, e.g., "in / cm" to "2.54" in a units expression.
1259 (defun math-simplify-units-quotient (n d
)
1262 (when (and (eq (car-safe n
) '^
)
1263 (integerp (nth 2 n
)))
1264 (setq pow1
(nth 2 n
) n
(nth 1 n
)))
1265 (when (and (eq (car-safe d
) '^
)
1266 (integerp (nth 2 d
)))
1267 (setq pow2
(nth 2 d
) d
(nth 1 d
)))
1268 (let ((un (math-check-unit-name n
))
1269 (ud (math-check-unit-name d
)))
1271 (if (and (equal (nth 4 un
) (nth 4 ud
))
1274 (math-to-standard-units (list '/ n d
) nil
)
1275 (list '^
(math-to-standard-units (list '/ n d
) nil
) pow1
))
1282 (and (eq (car (car un
)) (car (car ud1
)))
1283 (setq math-try-cancel-units
1284 (+ math-try-cancel-units
1285 (- (* (cdr (car un
)) pow1
)
1286 (* (cdr (car ud
)) pow2
)))))
1287 (setq ud1
(cdr ud1
)))
1292 (and math-simplifying-units
1293 (math-realp (nth 2 math-simplify-expr
))
1294 (if (memq (car-safe (nth 1 math-simplify-expr
)) '(* /))
1295 (list (car (nth 1 math-simplify-expr
))
1296 (list '^
(nth 1 (nth 1 math-simplify-expr
))
1297 (nth 2 math-simplify-expr
))
1298 (list '^
(nth 2 (nth 1 math-simplify-expr
))
1299 (nth 2 math-simplify-expr
)))
1300 (math-simplify-units-pow (nth 1 math-simplify-expr
)
1301 (nth 2 math-simplify-expr
)))))
1303 (math-defsimplify calcFunc-sqrt
1304 (and math-simplifying-units
1305 (if (memq (car-safe (nth 1 math-simplify-expr
)) '(* /))
1306 (list (car (nth 1 math-simplify-expr
))
1307 (list 'calcFunc-sqrt
(nth 1 (nth 1 math-simplify-expr
)))
1308 (list 'calcFunc-sqrt
(nth 2 (nth 1 math-simplify-expr
))))
1309 (math-simplify-units-pow (nth 1 math-simplify-expr
) '(frac 1 2)))))
1311 (math-defsimplify (calcFunc-floor
1321 (and math-simplifying-units
1322 (= (length math-simplify-expr
) 2)
1323 (if (math-only-units-in-expr-p (nth 1 math-simplify-expr
))
1324 (nth 1 math-simplify-expr
)
1325 (if (and (memq (car-safe (nth 1 math-simplify-expr
)) '(* /))
1326 (or (math-only-units-in-expr-p
1327 (nth 1 (nth 1 math-simplify-expr
)))
1328 (math-only-units-in-expr-p
1329 (nth 2 (nth 1 math-simplify-expr
)))))
1330 (list (car (nth 1 math-simplify-expr
))
1331 (cons (car math-simplify-expr
)
1332 (cons (nth 1 (nth 1 math-simplify-expr
))
1333 (cdr (cdr math-simplify-expr
))))
1334 (cons (car math-simplify-expr
)
1335 (cons (nth 2 (nth 1 math-simplify-expr
))
1336 (cdr (cdr math-simplify-expr
)))))))))
1338 (defun math-simplify-units-pow (a pow
)
1339 (if (and (eq (car-safe a
) '^
)
1340 (math-check-unit-name (nth 1 a
))
1341 (math-realp (nth 2 a
)))
1342 (list '^
(nth 1 a
) (math-mul pow
(nth 2 a
)))
1343 (let* ((u (math-check-unit-name a
))
1344 (pf (math-to-simple-fraction pow
))
1345 (d (and (eq (car-safe pf
) 'frac
) (nth 2 pf
))))
1347 (math-units-are-multiple u d
)
1348 (list '^
(math-to-standard-units a nil
) pow
)))))
1351 (defun math-units-are-multiple (u n
)
1353 (while (and u
(= (%
(cdr (car u
)) n
) 0))
1357 (math-defsimplify calcFunc-sin
1358 (and math-simplifying-units
1359 (math-units-in-expr-p (nth 1 math-simplify-expr
) nil
)
1360 (let ((rad (math-simplify-units
1362 (math-to-standard-units (nth 1 math-simplify-expr
) nil
))))
1363 (calc-angle-mode 'rad
))
1364 (and (eq (car-safe rad
) '*)
1365 (math-realp (nth 1 rad
))
1366 (eq (car-safe (nth 2 rad
)) 'var
)
1367 (eq (nth 1 (nth 2 rad
)) 'rad
)
1368 (list 'calcFunc-sin
(nth 1 rad
))))))
1370 (math-defsimplify calcFunc-cos
1371 (and math-simplifying-units
1372 (math-units-in-expr-p (nth 1 math-simplify-expr
) nil
)
1373 (let ((rad (math-simplify-units
1375 (math-to-standard-units (nth 1 math-simplify-expr
) nil
))))
1376 (calc-angle-mode 'rad
))
1377 (and (eq (car-safe rad
) '*)
1378 (math-realp (nth 1 rad
))
1379 (eq (car-safe (nth 2 rad
)) 'var
)
1380 (eq (nth 1 (nth 2 rad
)) 'rad
)
1381 (list 'calcFunc-cos
(nth 1 rad
))))))
1383 (math-defsimplify calcFunc-tan
1384 (and math-simplifying-units
1385 (math-units-in-expr-p (nth 1 math-simplify-expr
) nil
)
1386 (let ((rad (math-simplify-units
1388 (math-to-standard-units (nth 1 math-simplify-expr
) nil
))))
1389 (calc-angle-mode 'rad
))
1390 (and (eq (car-safe rad
) '*)
1391 (math-realp (nth 1 rad
))
1392 (eq (car-safe (nth 2 rad
)) 'var
)
1393 (eq (nth 1 (nth 2 rad
)) 'rad
)
1394 (list 'calcFunc-tan
(nth 1 rad
))))))
1396 (math-defsimplify calcFunc-sec
1397 (and math-simplifying-units
1398 (math-units-in-expr-p (nth 1 math-simplify-expr
) nil
)
1399 (let ((rad (math-simplify-units
1401 (math-to-standard-units (nth 1 math-simplify-expr
) nil
))))
1402 (calc-angle-mode 'rad
))
1403 (and (eq (car-safe rad
) '*)
1404 (math-realp (nth 1 rad
))
1405 (eq (car-safe (nth 2 rad
)) 'var
)
1406 (eq (nth 1 (nth 2 rad
)) 'rad
)
1407 (list 'calcFunc-sec
(nth 1 rad
))))))
1409 (math-defsimplify calcFunc-csc
1410 (and math-simplifying-units
1411 (math-units-in-expr-p (nth 1 math-simplify-expr
) nil
)
1412 (let ((rad (math-simplify-units
1414 (math-to-standard-units (nth 1 math-simplify-expr
) nil
))))
1415 (calc-angle-mode 'rad
))
1416 (and (eq (car-safe rad
) '*)
1417 (math-realp (nth 1 rad
))
1418 (eq (car-safe (nth 2 rad
)) 'var
)
1419 (eq (nth 1 (nth 2 rad
)) 'rad
)
1420 (list 'calcFunc-csc
(nth 1 rad
))))))
1422 (math-defsimplify calcFunc-cot
1423 (and math-simplifying-units
1424 (math-units-in-expr-p (nth 1 math-simplify-expr
) nil
)
1425 (let ((rad (math-simplify-units
1427 (math-to-standard-units (nth 1 math-simplify-expr
) nil
))))
1428 (calc-angle-mode 'rad
))
1429 (and (eq (car-safe rad
) '*)
1430 (math-realp (nth 1 rad
))
1431 (eq (car-safe (nth 2 rad
)) 'var
)
1432 (eq (nth 1 (nth 2 rad
)) 'rad
)
1433 (list 'calcFunc-cot
(nth 1 rad
))))))
1436 (defun math-remove-units (expr)
1437 (if (math-check-unit-name expr
)
1439 (if (Math-primp expr
)
1442 (mapcar 'math-remove-units
(cdr expr
))))))
1444 (defun math-extract-units (expr)
1445 (if (memq (car-safe expr
) '(* /))
1447 (mapcar 'math-extract-units
(cdr expr
)))
1448 (if (math-check-unit-name expr
) expr
1)))
1450 (defun math-build-units-table-buffer (enter-buffer)
1451 (if (not (and math-units-table math-units-table-buffer-valid
1452 (get-buffer "*Units Table*")))
1453 (let ((buf (get-buffer-create "*Units Table*"))
1454 (uptr (math-build-units-table))
1455 (calc-language (if (eq calc-language
'big
) nil calc-language
))
1456 (calc-float-format '(float 0))
1457 (calc-group-digits nil
)
1458 (calc-number-radix 10)
1459 (calc-twos-complement-mode nil
)
1460 (calc-point-char ".")
1464 (message "Formatting units table...")
1466 (let ((inhibit-read-only t
))
1468 (insert "Calculator Units Table:\n\n")
1469 (insert "(All definitions are exact unless marked with an asterisk (*).)\n\n")
1470 (insert "Unit Type Definition Description\n\n")
1474 (when (eq (car u
) 'm
)
1476 (setq shadowed
(and std
(assq (car u
) math-additional-units
)))
1479 (eq (aref name
0) ?\
*))
1480 (unless (eq uptr math-units-table
)
1482 (setq name
(substring name
1)))
1484 (and shadowed
(insert "("))
1485 (insert (symbol-name (car u
)))
1486 (and shadowed
(insert ")"))
1490 (insert (symbol-name (nth 3 u
))))
1496 (and shadowed
(insert "("))
1500 (insert (math-format-value (nth 1 u
) 80))
1501 (insert (symbol-name (car u
)))))
1502 (and shadowed
(insert ")"))
1508 (insert " (redefined above)")
1510 (insert " (base unit)")))
1512 (setq uptr
(cdr uptr
)))
1513 (insert "\n\nUnit Prefix Table:\n\n")
1514 (setq uptr math-unit-prefixes
)
1517 (insert " " (char-to-string (car u
)))
1518 (if (equal (nth 1 u
) (nth 1 (nth 1 uptr
)))
1519 (insert " " (char-to-string (car (car (setq uptr
(cdr uptr
)))))
1522 (insert "10^" (int-to-string (nth 2 (nth 1 u
))))
1524 (insert " " (nth 2 u
) "\n")
1525 (while (eq (car (car (setq uptr
(cdr uptr
)))) 0)))
1528 (message "Formatting units table...done"))
1529 (setq math-units-table-buffer-valid t
)
1530 (let ((oldbuf (current-buffer)))
1532 (goto-char (point-min))
1533 (set-buffer oldbuf
))
1536 (display-buffer buf
)))
1538 (pop-to-buffer (get-buffer "*Units Table*"))
1539 (display-buffer (get-buffer "*Units Table*")))))
1541 (provide 'calc-units
)
1544 ;; coding: iso-latin-1
1547 ;; arch-tag: e993314f-3adc-4191-be61-4ef8874881c4
1548 ;;; calc-units.el ends here