;; Calculator for GNU Emacs, part II [calc-lang.el] ;; Copyright (C) 1990, 1991, 1992, 1993 Free Software Foundation, Inc. ;; Written by Dave Gillespie, daveg@synaptics.com. ;; This file is part of GNU Emacs. ;; GNU Emacs is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY. No author or distributor ;; accepts responsibility to anyone for the consequences of using it ;; or for whether it serves any particular purpose or works at all, ;; unless he says so in writing. Refer to the GNU Emacs General Public ;; License for full details. ;; Everyone is granted permission to copy, modify and redistribute ;; GNU Emacs, but only under the conditions described in the ;; GNU Emacs General Public License. A copy of this license is ;; supposed to have been given to you along with GNU Emacs so you ;; can know your rights and responsibilities. It should be in a ;; file named COPYING. Among other things, the copyright notice ;; and this notice must be preserved on all copies. ;; This file is autoloaded from calc-ext.el. (require 'calc-ext) (require 'calc-macs) (defun calc-Need-calc-lang () nil) ;;; Alternate entry/display languages. (defun calc-set-language (lang &optional option no-refresh) (setq math-expr-opers (or (get lang 'math-oper-table) math-standard-opers) math-expr-function-mapping (get lang 'math-function-table) math-expr-variable-mapping (get lang 'math-variable-table) calc-language-input-filter (get lang 'math-input-filter) calc-language-output-filter (get lang 'math-output-filter) calc-vector-brackets (or (get lang 'math-vector-brackets) "[]") calc-complex-format (get lang 'math-complex-format) calc-radix-formatter (get lang 'math-radix-formatter) calc-function-open (or (get lang 'math-function-open) "(") calc-function-close (or (get lang 'math-function-close) ")")) (if no-refresh (setq calc-language lang calc-language-option option) (calc-change-mode '(calc-language calc-language-option) (list lang option) t)) ) (defun calc-normal-language () (interactive) (calc-wrapper (calc-set-language nil) (message "Normal language mode.")) ) (defun calc-flat-language () (interactive) (calc-wrapper (calc-set-language 'flat) (message "Flat language mode (all stack entries shown on one line).")) ) (defun calc-big-language () (interactive) (calc-wrapper (calc-set-language 'big) (message "\"Big\" language mode.")) ) (defun calc-unformatted-language () (interactive) (calc-wrapper (calc-set-language 'unform) (message "Unformatted language mode.")) ) (defun calc-c-language () (interactive) (calc-wrapper (calc-set-language 'c) (message "`C' language mode.")) ) (put 'c 'math-oper-table '( ( "u+" ident -1 1000 ) ( "u-" neg -1 1000 ) ( "u!" calcFunc-lnot -1 1000 ) ( "~" calcFunc-not -1 1000 ) ( "*" * 190 191 ) ( "/" / 190 191 ) ( "%" % 190 191 ) ( "+" + 180 181 ) ( "-" - 180 181 ) ( "<<" calcFunc-lsh 170 171 ) ( ">>" calcFunc-rsh 170 171 ) ( "<" calcFunc-lt 160 161 ) ( ">" calcFunc-gt 160 161 ) ( "<=" calcFunc-leq 160 161 ) ( ">=" calcFunc-geq 160 161 ) ( "==" calcFunc-eq 150 151 ) ( "!=" calcFunc-neq 150 151 ) ( "&" calcFunc-and 140 141 ) ( "^" calcFunc-xor 131 130 ) ( "|" calcFunc-or 120 121 ) ( "&&" calcFunc-land 110 111 ) ( "||" calcFunc-lor 100 101 ) ( "?" (math-read-if) 91 90 ) ( "!!!" calcFunc-pnot -1 88 ) ( "&&&" calcFunc-pand 85 86 ) ( "|||" calcFunc-por 75 76 ) ( "=" calcFunc-assign 51 50 ) ( ":=" calcFunc-assign 51 50 ) ( "::" calcFunc-condition 45 46 ) )) ; should support full assignments (put 'c 'math-function-table '( ( acos . calcFunc-arccos ) ( acosh . calcFunc-arccosh ) ( asin . calcFunc-arcsin ) ( asinh . calcFunc-arcsinh ) ( atan . calcFunc-arctan ) ( atan2 . calcFunc-arctan2 ) ( atanh . calcFunc-arctanh ) )) (put 'c 'math-variable-table '( ( M_PI . var-pi ) ( M_E . var-e ) )) (put 'c 'math-vector-brackets "{}") (put 'c 'math-radix-formatter (function (lambda (r s) (if (= r 16) (format "0x%s" s) (if (= r 8) (format "0%s" s) (format "%d#%s" r s)))))) (defun calc-pascal-language (n) (interactive "P") (calc-wrapper (and n (setq n (prefix-numeric-value n))) (calc-set-language 'pascal n) (message (if (and n (/= n 0)) (if (> n 0) "Pascal language mode (all uppercase)." "Pascal language mode (all lowercase).") "Pascal language mode."))) ) (put 'pascal 'math-oper-table '( ( "not" calcFunc-lnot -1 1000 ) ( "*" * 190 191 ) ( "/" / 190 191 ) ( "and" calcFunc-and 190 191 ) ( "div" calcFunc-idiv 190 191 ) ( "mod" % 190 191 ) ( "u+" ident -1 185 ) ( "u-" neg -1 185 ) ( "+" + 180 181 ) ( "-" - 180 181 ) ( "or" calcFunc-or 180 181 ) ( "xor" calcFunc-xor 180 181 ) ( "shl" calcFunc-lsh 180 181 ) ( "shr" calcFunc-rsh 180 181 ) ( "in" calcFunc-in 160 161 ) ( "<" calcFunc-lt 160 161 ) ( ">" calcFunc-gt 160 161 ) ( "<=" calcFunc-leq 160 161 ) ( ">=" calcFunc-geq 160 161 ) ( "=" calcFunc-eq 160 161 ) ( "<>" calcFunc-neq 160 161 ) ( "!!!" calcFunc-pnot -1 85 ) ( "&&&" calcFunc-pand 80 81 ) ( "|||" calcFunc-por 75 76 ) ( ":=" calcFunc-assign 51 50 ) ( "::" calcFunc-condition 45 46 ) )) (put 'pascal 'math-input-filter 'calc-input-case-filter) (put 'pascal 'math-output-filter 'calc-output-case-filter) (put 'pascal 'math-radix-formatter (function (lambda (r s) (if (= r 16) (format "$%s" s) (format "%d#%s" r s))))) (defun calc-input-case-filter (str) (cond ((or (null calc-language-option) (= calc-language-option 0)) str) (t (downcase str))) ) (defun calc-output-case-filter (str) (cond ((or (null calc-language-option) (= calc-language-option 0)) str) ((> calc-language-option 0) (upcase str)) (t (downcase str))) ) (defun calc-fortran-language (n) (interactive "P") (calc-wrapper (and n (setq n (prefix-numeric-value n))) (calc-set-language 'fortran n) (message (if (and n (/= n 0)) (if (> n 0) "FORTRAN language mode (all uppercase)." "FORTRAN language mode (all lowercase).") "FORTRAN language mode."))) ) (put 'fortran 'math-oper-table '( ( "u/" (math-parse-fortran-vector) -1 1 ) ( "/" (math-parse-fortran-vector-end) 1 -1 ) ( "**" ^ 201 200 ) ( "u+" ident -1 191 ) ( "u-" neg -1 191 ) ( "*" * 190 191 ) ( "/" / 190 191 ) ( "+" + 180 181 ) ( "-" - 180 181 ) ( ".LT." calcFunc-lt 160 161 ) ( ".GT." calcFunc-gt 160 161 ) ( ".LE." calcFunc-leq 160 161 ) ( ".GE." calcFunc-geq 160 161 ) ( ".EQ." calcFunc-eq 160 161 ) ( ".NE." calcFunc-neq 160 161 ) ( ".NOT." calcFunc-lnot -1 121 ) ( ".AND." calcFunc-land 110 111 ) ( ".OR." calcFunc-lor 100 101 ) ( "!!!" calcFunc-pnot -1 85 ) ( "&&&" calcFunc-pand 80 81 ) ( "|||" calcFunc-por 75 76 ) ( "=" calcFunc-assign 51 50 ) ( ":=" calcFunc-assign 51 50 ) ( "::" calcFunc-condition 45 46 ) )) (put 'fortran 'math-vector-brackets "//") (put 'fortran 'math-function-table '( ( acos . calcFunc-arccos ) ( acosh . calcFunc-arccosh ) ( aimag . calcFunc-im ) ( aint . calcFunc-ftrunc ) ( asin . calcFunc-arcsin ) ( asinh . calcFunc-arcsinh ) ( atan . calcFunc-arctan ) ( atan2 . calcFunc-arctan2 ) ( atanh . calcFunc-arctanh ) ( conjg . calcFunc-conj ) ( log . calcFunc-ln ) ( nint . calcFunc-round ) ( real . calcFunc-re ) )) (put 'fortran 'math-input-filter 'calc-input-case-filter) (put 'fortran 'math-output-filter 'calc-output-case-filter) (defun math-parse-fortran-vector (op) (let ((math-parsing-fortran-vector '(end . "\000"))) (prog1 (math-read-brackets t "]") (setq exp-token (car math-parsing-fortran-vector) exp-data (cdr math-parsing-fortran-vector)))) ) (defun math-parse-fortran-vector-end (x op) (if math-parsing-fortran-vector (progn (setq math-parsing-fortran-vector (cons exp-token exp-data) exp-token 'end exp-data "\000") x) (throw 'syntax "Unmatched closing `/'")) ) (setq math-parsing-fortran-vector nil) (defun math-parse-fortran-subscr (sym args) (setq sym (math-build-var-name sym)) (while args (setq sym (list 'calcFunc-subscr sym (car args)) args (cdr args))) sym ) (defun calc-tex-language (n) (interactive "P") (calc-wrapper (and n (setq n (prefix-numeric-value n))) (calc-set-language 'tex n) (message (if (and n (/= n 0)) (if (> n 0) "TeX language mode with \\hbox{func}(\\hbox{var})." "TeX language mode with \\func{\\hbox{var}}.") "TeX language mode."))) ) (put 'tex 'math-oper-table '( ( "u+" ident -1 1000 ) ( "u-" neg -1 1000 ) ( "\\hat" calcFunc-hat -1 950 ) ( "\\check" calcFunc-check -1 950 ) ( "\\tilde" calcFunc-tilde -1 950 ) ( "\\acute" calcFunc-acute -1 950 ) ( "\\grave" calcFunc-grave -1 950 ) ( "\\dot" calcFunc-dot -1 950 ) ( "\\ddot" calcFunc-dotdot -1 950 ) ( "\\breve" calcFunc-breve -1 950 ) ( "\\bar" calcFunc-bar -1 950 ) ( "\\vec" calcFunc-Vec -1 950 ) ( "\\underline" calcFunc-under -1 950 ) ( "u|" calcFunc-abs -1 0 ) ( "|" closing 0 -1 ) ( "\\lfloor" calcFunc-floor -1 0 ) ( "\\rfloor" closing 0 -1 ) ( "\\lceil" calcFunc-ceil -1 0 ) ( "\\rceil" closing 0 -1 ) ( "\\pm" sdev 300 300 ) ( "!" calcFunc-fact 210 -1 ) ( "^" ^ 201 200 ) ( "_" calcFunc-subscr 201 200 ) ( "\\times" * 191 190 ) ( "*" * 191 190 ) ( "2x" * 191 190 ) ( "+" + 180 181 ) ( "-" - 180 181 ) ( "\\over" / 170 171 ) ( "/" / 170 171 ) ( "\\choose" calcFunc-choose 170 171 ) ( "\\mod" % 170 171 ) ( "<" calcFunc-lt 160 161 ) ( ">" calcFunc-gt 160 161 ) ( "\\leq" calcFunc-leq 160 161 ) ( "\\geq" calcFunc-geq 160 161 ) ( "=" calcFunc-eq 160 161 ) ( "\\neq" calcFunc-neq 160 161 ) ( "\\ne" calcFunc-neq 160 161 ) ( "\\lnot" calcFunc-lnot -1 121 ) ( "\\land" calcFunc-land 110 111 ) ( "\\lor" calcFunc-lor 100 101 ) ( "?" (math-read-if) 91 90 ) ( "!!!" calcFunc-pnot -1 85 ) ( "&&&" calcFunc-pand 80 81 ) ( "|||" calcFunc-por 75 76 ) ( "\\gets" calcFunc-assign 51 50 ) ( ":=" calcFunc-assign 51 50 ) ( "::" calcFunc-condition 45 46 ) ( "\\to" calcFunc-evalto 40 41 ) ( "\\to" calcFunc-evalto 40 -1 ) ( "=>" calcFunc-evalto 40 41 ) ( "=>" calcFunc-evalto 40 -1 ) )) (put 'tex 'math-function-table '( ( \\arccos . calcFunc-arccos ) ( \\arcsin . calcFunc-arcsin ) ( \\arctan . calcFunc-arctan ) ( \\arg . calcFunc-arg ) ( \\cos . calcFunc-cos ) ( \\cosh . calcFunc-cosh ) ( \\det . calcFunc-det ) ( \\exp . calcFunc-exp ) ( \\gcd . calcFunc-gcd ) ( \\ln . calcFunc-ln ) ( \\log . calcFunc-log10 ) ( \\max . calcFunc-max ) ( \\min . calcFunc-min ) ( \\tan . calcFunc-tan ) ( \\sin . calcFunc-sin ) ( \\sinh . calcFunc-sinh ) ( \\sqrt . calcFunc-sqrt ) ( \\tanh . calcFunc-tanh ) ( \\phi . calcFunc-totient ) ( \\mu . calcFunc-moebius ) )) (put 'tex 'math-variable-table '( ( \\pi . var-pi ) ( \\infty . var-inf ) ( \\infty . var-uinf ) ( \\phi . var-phi ) ( \\gamma . var-gamma ) ( \\sum . (math-parse-tex-sum calcFunc-sum) ) ( \\prod . (math-parse-tex-sum calcFunc-prod) ) )) (put 'tex 'math-complex-format 'i) (defun math-parse-tex-sum (f val) (let (low high save) (or (equal exp-data "_") (throw 'syntax "Expected `_'")) (math-read-token) (setq save exp-old-pos) (setq low (math-read-factor)) (or (eq (car-safe low) 'calcFunc-eq) (progn (setq exp-old-pos (1+ save)) (throw 'syntax "Expected equation"))) (or (equal exp-data "^") (throw 'syntax "Expected `^'")) (math-read-token) (setq high (math-read-factor)) (list (nth 2 f) (math-read-factor) (nth 1 low) (nth 2 low) high)) ) (defun math-tex-input-filter (str) ; allow parsing of 123\,456\,789. (while (string-match "[0-9]\\\\,[0-9]" str) (setq str (concat (substring str 0 (1+ (match-beginning 0))) (substring str (1- (match-end 0)))))) str ) (put 'tex 'math-input-filter 'math-tex-input-filter) (defun calc-eqn-language (n) (interactive "P") (calc-wrapper (calc-set-language 'eqn) (message "Eqn language mode.")) ) (put 'eqn 'math-oper-table '( ( "u+" ident -1 1000 ) ( "u-" neg -1 1000 ) ( "prime" (math-parse-eqn-prime) 950 -1 ) ( "prime" calcFunc-Prime 950 -1 ) ( "dot" calcFunc-dot 950 -1 ) ( "dotdot" calcFunc-dotdot 950 -1 ) ( "hat" calcFunc-hat 950 -1 ) ( "tilde" calcFunc-tilde 950 -1 ) ( "vec" calcFunc-Vec 950 -1 ) ( "dyad" calcFunc-dyad 950 -1 ) ( "bar" calcFunc-bar 950 -1 ) ( "under" calcFunc-under 950 -1 ) ( "sub" calcFunc-subscr 931 930 ) ( "sup" ^ 921 920 ) ( "sqrt" calcFunc-sqrt -1 910 ) ( "over" / 900 901 ) ( "u|" calcFunc-abs -1 0 ) ( "|" closing 0 -1 ) ( "left floor" calcFunc-floor -1 0 ) ( "right floor" closing 0 -1 ) ( "left ceil" calcFunc-ceil -1 0 ) ( "right ceil" closing 0 -1 ) ( "+-" sdev 300 300 ) ( "!" calcFunc-fact 210 -1 ) ( "times" * 191 190 ) ( "*" * 191 190 ) ( "2x" * 191 190 ) ( "/" / 180 181 ) ( "%" % 180 181 ) ( "+" + 170 171 ) ( "-" - 170 171 ) ( "<" calcFunc-lt 160 161 ) ( ">" calcFunc-gt 160 161 ) ( "<=" calcFunc-leq 160 161 ) ( ">=" calcFunc-geq 160 161 ) ( "=" calcFunc-eq 160 161 ) ( "==" calcFunc-eq 160 161 ) ( "!=" calcFunc-neq 160 161 ) ( "u!" calcFunc-lnot -1 121 ) ( "&&" calcFunc-land 110 111 ) ( "||" calcFunc-lor 100 101 ) ( "?" (math-read-if) 91 90 ) ( "!!!" calcFunc-pnot -1 85 ) ( "&&&" calcFunc-pand 80 81 ) ( "|||" calcFunc-por 75 76 ) ( "<-" calcFunc-assign 51 50 ) ( ":=" calcFunc-assign 51 50 ) ( "::" calcFunc-condition 45 46 ) ( "->" calcFunc-evalto 40 41 ) ( "->" calcFunc-evalto 40 -1 ) ( "=>" calcFunc-evalto 40 41 ) ( "=>" calcFunc-evalto 40 -1 ) )) (put 'eqn 'math-function-table '( ( arc\ cos . calcFunc-arccos ) ( arc\ cosh . calcFunc-arccosh ) ( arc\ sin . calcFunc-arcsin ) ( arc\ sinh . calcFunc-arcsinh ) ( arc\ tan . calcFunc-arctan ) ( arc\ tanh . calcFunc-arctanh ) ( GAMMA . calcFunc-gamma ) ( phi . calcFunc-totient ) ( mu . calcFunc-moebius ) ( matrix . (math-parse-eqn-matrix) ) )) (put 'eqn 'math-variable-table '( ( inf . var-uinf ) )) (put 'eqn 'math-complex-format 'i) (defun math-parse-eqn-matrix (f sym) (let ((vec nil)) (while (assoc exp-data '(("ccol") ("lcol") ("rcol"))) (math-read-token) (or (equal exp-data calc-function-open) (throw 'syntax "Expected `{'")) (math-read-token) (setq vec (cons (cons 'vec (math-read-expr-list)) vec)) (or (equal exp-data calc-function-close) (throw 'syntax "Expected `}'")) (math-read-token)) (or (equal exp-data calc-function-close) (throw 'syntax "Expected `}'")) (math-read-token) (math-transpose (cons 'vec (nreverse vec)))) ) (defun math-parse-eqn-prime (x sym) (if (eq (car-safe x) 'var) (if (equal exp-data calc-function-open) (progn (math-read-token) (let ((args (if (or (equal exp-data calc-function-close) (eq exp-token 'end)) nil (math-read-expr-list)))) (if (not (or (equal exp-data calc-function-close) (eq exp-token 'end))) (throw 'syntax "Expected `)'")) (math-read-token) (cons (intern (format "calcFunc-%s'" (nth 1 x))) args))) (list 'var (intern (concat (symbol-name (nth 1 x)) "'")) (intern (concat (symbol-name (nth 2 x)) "'")))) (list 'calcFunc-Prime x)) ) (defun calc-mathematica-language () (interactive) (calc-wrapper (calc-set-language 'math) (message "Mathematica language mode.")) ) (put 'math 'math-oper-table '( ( "[[" (math-read-math-subscr) 250 -1 ) ( "!" calcFunc-fact 210 -1 ) ( "!!" calcFunc-dfact 210 -1 ) ( "^" ^ 201 200 ) ( "u+" ident -1 197 ) ( "u-" neg -1 197 ) ( "/" / 195 196 ) ( "*" * 190 191 ) ( "2x" * 190 191 ) ( "+" + 180 181 ) ( "-" - 180 181 ) ( "<" calcFunc-lt 160 161 ) ( ">" calcFunc-gt 160 161 ) ( "<=" calcFunc-leq 160 161 ) ( ">=" calcFunc-geq 160 161 ) ( "==" calcFunc-eq 150 151 ) ( "!=" calcFunc-neq 150 151 ) ( "u!" calcFunc-lnot -1 121 ) ( "&&" calcFunc-land 110 111 ) ( "||" calcFunc-lor 100 101 ) ( "!!!" calcFunc-pnot -1 85 ) ( "&&&" calcFunc-pand 80 81 ) ( "|||" calcFunc-por 75 76 ) ( ":=" calcFunc-assign 51 50 ) ( "=" calcFunc-assign 51 50 ) ( "->" calcFunc-assign 51 50 ) ( ":>" calcFunc-assign 51 50 ) ( "::" calcFunc-condition 45 46 ) )) (put 'math 'math-function-table '( ( Abs . calcFunc-abs ) ( ArcCos . calcFunc-arccos ) ( ArcCosh . calcFunc-arccosh ) ( ArcSin . calcFunc-arcsin ) ( ArcSinh . calcFunc-arcsinh ) ( ArcTan . calcFunc-arctan ) ( ArcTanh . calcFunc-arctanh ) ( Arg . calcFunc-arg ) ( Binomial . calcFunc-choose ) ( Ceiling . calcFunc-ceil ) ( Conjugate . calcFunc-conj ) ( Cos . calcFunc-cos ) ( Cosh . calcFunc-cosh ) ( D . calcFunc-deriv ) ( Dt . calcFunc-tderiv ) ( Det . calcFunc-det ) ( Exp . calcFunc-exp ) ( EulerPhi . calcFunc-totient ) ( Floor . calcFunc-floor ) ( Gamma . calcFunc-gamma ) ( GCD . calcFunc-gcd ) ( If . calcFunc-if ) ( Im . calcFunc-im ) ( Inverse . calcFunc-inv ) ( Integrate . calcFunc-integ ) ( Join . calcFunc-vconcat ) ( LCM . calcFunc-lcm ) ( Log . calcFunc-ln ) ( Max . calcFunc-max ) ( Min . calcFunc-min ) ( Mod . calcFunc-mod ) ( MoebiusMu . calcFunc-moebius ) ( Random . calcFunc-random ) ( Round . calcFunc-round ) ( Re . calcFunc-re ) ( Sign . calcFunc-sign ) ( Sin . calcFunc-sin ) ( Sinh . calcFunc-sinh ) ( Sqrt . calcFunc-sqrt ) ( Tan . calcFunc-tan ) ( Tanh . calcFunc-tanh ) ( Transpose . calcFunc-trn ) ( Length . calcFunc-vlen ) )) (put 'math 'math-variable-table '( ( I . var-i ) ( Pi . var-pi ) ( E . var-e ) ( GoldenRatio . var-phi ) ( EulerGamma . var-gamma ) ( Infinity . var-inf ) ( ComplexInfinity . var-uinf ) ( Indeterminate . var-nan ) )) (put 'math 'math-vector-brackets "{}") (put 'math 'math-complex-format 'I) (put 'math 'math-function-open "[") (put 'math 'math-function-close "]") (put 'math 'math-radix-formatter (function (lambda (r s) (format "%d^^%s" r s)))) (defun math-read-math-subscr (x op) (let ((idx (math-read-expr-level 0))) (or (and (equal exp-data "]") (progn (math-read-token) (equal exp-data "]"))) (throw 'syntax "Expected ']]'")) (math-read-token) (list 'calcFunc-subscr x idx)) ) (defun calc-maple-language () (interactive) (calc-wrapper (calc-set-language 'maple) (message "Maple language mode.")) ) (put 'maple 'math-oper-table '( ( "matrix" ident -1 300 ) ( "MATRIX" ident -1 300 ) ( "!" calcFunc-fact 210 -1 ) ( "^" ^ 201 200 ) ( "**" ^ 201 200 ) ( "u+" ident -1 197 ) ( "u-" neg -1 197 ) ( "/" / 191 192 ) ( "*" * 191 192 ) ( "intersect" calcFunc-vint 191 192 ) ( "+" + 180 181 ) ( "-" - 180 181 ) ( "union" calcFunc-vunion 180 181 ) ( "minus" calcFunc-vdiff 180 181 ) ( "mod" % 170 170 ) ( ".." (math-read-maple-dots) 165 165 ) ( "\\dots" (math-read-maple-dots) 165 165 ) ( "<" calcFunc-lt 160 160 ) ( ">" calcFunc-gt 160 160 ) ( "<=" calcFunc-leq 160 160 ) ( ">=" calcFunc-geq 160 160 ) ( "=" calcFunc-eq 160 160 ) ( "<>" calcFunc-neq 160 160 ) ( "not" calcFunc-lnot -1 121 ) ( "and" calcFunc-land 110 111 ) ( "or" calcFunc-lor 100 101 ) ( "!!!" calcFunc-pnot -1 85 ) ( "&&&" calcFunc-pand 80 81 ) ( "|||" calcFunc-por 75 76 ) ( ":=" calcFunc-assign 51 50 ) ( "::" calcFunc-condition 45 46 ) )) (put 'maple 'math-function-table '( ( bernoulli . calcFunc-bern ) ( binomial . calcFunc-choose ) ( diff . calcFunc-deriv ) ( GAMMA . calcFunc-gamma ) ( ifactor . calcFunc-prfac ) ( igcd . calcFunc-gcd ) ( ilcm . calcFunc-lcm ) ( int . calcFunc-integ ) ( modp . % ) ( irem . % ) ( iquo . calcFunc-idiv ) ( isprime . calcFunc-prime ) ( length . calcFunc-vlen ) ( member . calcFunc-in ) ( crossprod . calcFunc-cross ) ( inverse . calcFunc-inv ) ( trace . calcFunc-tr ) ( transpose . calcFunc-trn ) ( vectdim . calcFunc-vlen ) )) (put 'maple 'math-variable-table '( ( I . var-i ) ( Pi . var-pi ) ( E . var-e ) ( infinity . var-inf ) ( infinity . var-uinf ) ( infinity . var-nan ) )) (put 'maple 'math-complex-format 'I) (defun math-read-maple-dots (x op) (list 'intv 3 x (math-read-expr-level (nth 3 op))) ) (defun math-read-big-rec (h1 v1 h2 v2 &optional baseline prec short) (or prec (setq prec 0)) ;; Clip whitespace above or below. (while (and (< v1 v2) (math-read-big-emptyp h1 v1 h2 (1+ v1))) (setq v1 (1+ v1))) (while (and (< v1 v2) (math-read-big-emptyp h1 (1- v2) h2 v2)) (setq v2 (1- v2))) ;; If formula is a single line high, normal parser can handle it. (if (<= v2 (1+ v1)) (if (or (<= v2 v1) (> h1 (length (setq v2 (nth v1 lines))))) (math-read-big-error h1 v1) (setq the-baseline v1 the-h2 h2 v2 (nth v1 lines) h2 (math-read-expr (substring v2 h1 (min h2 (length v2))))) (if (eq (car-safe h2) 'error) (math-read-big-error (+ h1 (nth 1 h2)) v1 (nth 2 h2)) h2)) ;; Clip whitespace at left or right. (while (and (< h1 h2) (math-read-big-emptyp h1 v1 (1+ h1) v2)) (setq h1 (1+ h1))) (while (and (< h1 h2) (math-read-big-emptyp (1- h2) v1 h2 v2)) (setq h2 (1- h2))) ;; Scan to find widest left-justified "----" in the region. (let* ((widest nil) (widest-h2 0) (lines-v1 (nthcdr v1 lines)) (p lines-v1) (v v1) (other-v nil) other-char line len h) (while (< v v2) (setq line (car p) len (min h2 (length line))) (and (< h1 len) (/= (aref line h1) ?\ ) (if (and (= (aref line h1) ?\-) ;; Make sure it's not a minus sign. (or (and (< (1+ h1) len) (= (aref line (1+ h1)) ?\-)) (/= (math-read-big-char h1 (1- v)) ?\ ) (/= (math-read-big-char h1 (1+ v)) ?\ ))) (progn (setq h h1) (while (and (< (setq h (1+ h)) len) (= (aref line h) ?\-))) (if (> h widest-h2) (setq widest v widest-h2 h))) (or other-v (setq other-v v other-char (aref line h1))))) (setq v (1+ v) p (cdr p))) (cond ((not (setq v other-v)) (math-read-big-error h1 v1)) ; Should never happen! ;; Quotient. (widest (setq h widest-h2 v widest) (let ((num (math-read-big-rec h1 v1 h v)) (den (math-read-big-rec h1 (1+ v) h v2))) (setq p (if (and (math-integerp num) (math-integerp den)) (math-make-frac num den) (list '/ num den))))) ;; Big radical sign. ((= other-char ?\\) (or (= (math-read-big-char (1+ h1) v) ?\|) (math-read-big-error (1+ h1) v "Malformed root sign")) (math-read-big-emptyp h1 v1 (1+ h1) v nil t) (while (= (math-read-big-char (1+ h1) (setq v (1- v))) ?\|)) (or (= (math-read-big-char (setq h (+ h1 2)) v) ?\_) (math-read-big-error h v "Malformed root sign")) (while (= (math-read-big-char (setq h (1+ h)) v) ?\_)) (math-read-big-emptyp h1 v1 (1+ h1) v nil t) (math-read-big-emptyp h1 (1+ other-v) h v2 nil t) (setq p (list 'calcFunc-sqrt (math-read-big-rec (+ h1 2) (1+ v) h (1+ other-v) baseline)) v the-baseline)) ;; Small radical sign. ((and (= other-char ?V) (= (math-read-big-char (1+ h1) (1- v)) ?\_)) (setq h (1+ h1)) (math-read-big-emptyp h1 v1 h (1- v) nil t) (math-read-big-emptyp h1 (1+ v) h v2 nil t) (math-read-big-emptyp h1 v1 (1+ h1) v nil t) (while (= (math-read-big-char (setq h (1+ h)) (1- v)) ?\_)) (setq p (list 'calcFunc-sqrt (math-read-big-rec (1+ h1) v h (1+ v) t)) v the-baseline)) ;; Binomial coefficient. ((and (= other-char ?\() (= (math-read-big-char (1+ h1) v) ?\ ) (= (string-match "( *)" (nth v lines) h1) h1)) (setq h (match-end 0)) (math-read-big-emptyp h1 v1 (1+ h1) v nil t) (math-read-big-emptyp h1 (1+ v) (1+ h1) v2 nil t) (math-read-big-emptyp (1- h) v1 h v nil t) (math-read-big-emptyp (1- h) (1+ v) h v2 nil t) (setq p (list 'calcFunc-choose (math-read-big-rec (1+ h1) v1 (1- h) v) (math-read-big-rec (1+ h1) (1+ v) (1- h) v2)))) ;; Minus sign. ((= other-char ?\-) (setq p (list 'neg (math-read-big-rec (1+ h1) v1 h2 v2 v 250 t)) v the-baseline h the-h2)) ;; Parentheses. ((= other-char ?\() (math-read-big-emptyp h1 v1 (1+ h1) v nil t) (math-read-big-emptyp h1 (1+ v) (1+ h1) v2 nil t) (setq h (math-read-big-balance (1+ h1) v "(" t)) (math-read-big-emptyp (1- h) v1 h v nil t) (math-read-big-emptyp (1- h) (1+ v) h v2 nil t) (let ((sep (math-read-big-char (1- h) v)) hmid) (if (= sep ?\.) (setq h (1+ h))) (if (= sep ?\]) (math-read-big-error (1- h) v "Expected `)'")) (if (= sep ?\)) (setq p (math-read-big-rec (1+ h1) v1 (1- h) v2 v)) (setq hmid (math-read-big-balance h v "(") p (list p (math-read-big-rec h v1 (1- hmid) v2 v)) h hmid) (cond ((= sep ?\.) (setq p (cons 'intv (cons (if (= (math-read-big-char (1- h) v) ?\)) 0 1) p)))) ((= (math-read-big-char (1- h) v) ?\]) (math-read-big-error (1- h) v "Expected `)'")) ((= sep ?\,) (or (and (math-realp (car p)) (math-realp (nth 1 p))) (math-read-big-error h1 v "Complex components must be real")) (setq p (cons 'cplx p))) ((= sep ?\;) (or (and (math-realp (car p)) (math-anglep (nth 1 p))) (math-read-big-error h1 v "Complex components must be real")) (setq p (cons 'polar p))))))) ;; Matrix. ((and (= other-char ?\[) (or (= (math-read-big-char (setq h h1) (1+ v)) ?\[) (= (math-read-big-char (setq h (1+ h)) v) ?\[) (and (= (math-read-big-char h v) ?\ ) (= (math-read-big-char (setq h (1+ h)) v) ?\[))) (= (math-read-big-char h (1+ v)) ?\[)) (math-read-big-emptyp h1 v1 h v nil t) (let ((vtop v) (hleft h) (hright nil)) (setq p nil) (while (progn (setq h (math-read-big-balance (1+ hleft) v "[")) (if hright (or (= h hright) (math-read-big-error hright v "Expected `]'")) (setq hright h)) (setq p (cons (math-read-big-rec hleft v h (1+ v)) p)) (and (memq (math-read-big-char h v) '(?\ ?\,)) (= (math-read-big-char hleft (1+ v)) ?\[))) (setq v (1+ v))) (or (= hleft h1) (progn (if (= (math-read-big-char h v) ?\ ) (setq h (1+ h))) (and (= (math-read-big-char h v) ?\]) (setq h (1+ h)))) (math-read-big-error (1- h) v "Expected `]'")) (if (= (math-read-big-char h vtop) ?\,) (setq h (1+ h))) (math-read-big-emptyp h1 (1+ v) (1- h) v2 nil t) (setq v (+ vtop (/ (- v vtop) 2)) p (cons 'vec (nreverse p))))) ;; Square brackets. ((= other-char ?\[) (math-read-big-emptyp h1 v1 (1+ h1) v nil t) (math-read-big-emptyp h1 (1+ v) (1+ h1) v2 nil t) (setq p nil h (1+ h1)) (while (progn (setq widest (math-read-big-balance h v "[" t)) (math-read-big-emptyp (1- h) v1 h v nil t) (math-read-big-emptyp (1- h) (1+ v) h v2 nil t) (setq p (cons (math-read-big-rec h v1 (1- widest) v2 v) p) h widest) (= (math-read-big-char (1- h) v) ?\,))) (setq widest (math-read-big-char (1- h) v)) (if (or (memq widest '(?\; ?\))) (and (eq widest ?\.) (cdr p))) (math-read-big-error (1- h) v "Expected `]'")) (if (= widest ?\.) (setq h (1+ h) widest (math-read-big-balance h v "[") p (nconc p (list (math-read-big-big-rec h v1 (1- widest) v2 v))) h widest p (cons 'intv (cons (if (= (math-read-big-char (1- h) v) ?\]) 3 2) p))) (setq p (cons 'vec (nreverse p))))) ;; Date form. ((= other-char ?\<) (setq line (nth v lines)) (string-match ">" line h1) (setq h (match-end 0)) (math-read-big-emptyp h1 v1 h v nil t) (math-read-big-emptyp h1 (1+ v) h v2 nil t) (setq p (math-read-big-rec h1 v h (1+ v) v))) ;; Variable name or function call. ((or (and (>= other-char ?a) (<= other-char ?z)) (and (>= other-char ?A) (<= other-char ?Z))) (setq line (nth v lines)) (string-match "\\([a-zA-Z'_]+\\) *" line h1) (setq h (match-end 1) widest (match-end 0) p (math-match-substring line 1)) (math-read-big-emptyp h1 v1 h v nil t) (math-read-big-emptyp h1 (1+ v) h v2 nil t) (if (= (math-read-big-char widest v) ?\() (progn (setq line (if (string-match "-" p) (intern p) (intern (concat "calcFunc-" p))) h (1+ widest) p nil) (math-read-big-emptyp widest v1 h v nil t) (math-read-big-emptyp widest (1+ v) h v2 nil t) (while (progn (setq widest (math-read-big-balance h v "(" t)) (math-read-big-emptyp (1- h) v1 h v nil t) (math-read-big-emptyp (1- h) (1+ v) h v2 nil t) (setq p (cons (math-read-big-rec h v1 (1- widest) v2 v) p) h widest) (= (math-read-big-char (1- h) v) ?\,))) (or (= (math-read-big-char (1- h) v) ?\)) (math-read-big-error (1- h) v "Expected `)'")) (setq p (cons line (nreverse p)))) (setq p (list 'var (intern (math-remove-dashes p)) (if (string-match "-" p) (intern p) (intern (concat "var-" p))))))) ;; Number. (t (setq line (nth v lines)) (or (= (string-match "_?\\([0-9]+.?0*@ *\\)?\\([0-9]+.?0*' *\\)?\\([0-9]+\\(#\\|\\^\\^\\)[0-9a-zA-Z:]+\\|[0-9]+:[0-9:]+\\|[0-9.]+\\([eE][-+_]?[0-9]+\\)?\"?\\)?" line h1) h1) (math-read-big-error h v "Expected a number")) (setq h (match-end 0) p (math-read-number (math-match-substring line 0))) (math-read-big-emptyp h1 v1 h v nil t) (math-read-big-emptyp h1 (1+ v) h v2 nil t))) ;; Now left term is bounded by h1, v1, h, v2; baseline = v. (if baseline (or (= v baseline) (math-read-big-error h1 v "Inconsistent baseline in formula")) (setq baseline v)) ;; Look for superscripts or subscripts. (setq line (nth baseline lines) len (min h2 (length line)) widest h) (while (and (< widest len) (= (aref line widest) ?\ )) (setq widest (1+ widest))) (and (>= widest len) (setq widest h2)) (if (math-read-big-emptyp h v widest v2) (if (math-read-big-emptyp h v1 widest v) (setq h widest) (setq p (list '^ p (math-read-big-rec h v1 widest v)) h widest)) (if (math-read-big-emptyp h v1 widest v) (setq p (list 'calcFunc-subscr p (math-read-big-rec h v widest v2)) h widest))) ;; Look for an operator name and grab additional terms. (while (and (< h len) (if (setq widest (and (math-read-big-emptyp h v1 (1+ h) v) (math-read-big-emptyp h (1+ v) (1+ h) v2) (string-match "<=\\|>=\\|\\+/-\\|!=\\|&&\\|||\\|:=\\|=>\\|." line h) (assoc (math-match-substring line 0) math-standard-opers))) (and (>= (nth 2 widest) prec) (setq h (match-end 0))) (and (not (eq (string-match ",\\|;\\|\\.\\.\\|)\\|\\]\\|:" line h) h)) (setq widest '("2x" * 196 195))))) (cond ((eq (nth 3 widest) -1) (setq p (list (nth 1 widest) p))) ((equal (car widest) "?") (let ((y (math-read-big-rec h v1 h2 v2 baseline nil t))) (or (= (math-read-big-char the-h2 baseline) ?\:) (math-read-big-error the-h2 baseline "Expected `:'")) (setq p (list (nth 1 widest) p y (math-read-big-rec (1+ the-h2) v1 h2 v2 baseline (nth 3 widest) t)) h the-h2))) (t (setq p (list (nth 1 widest) p (math-read-big-rec h v1 h2 v2 baseline (nth 3 widest) t)) h the-h2)))) ;; Return all relevant information to caller. (setq the-baseline baseline the-h2 h) (or short (= the-h2 h2) (math-read-big-error h baseline)) p)) ) (defun math-read-big-char (h v) (or (and (>= h h1) (< h h2) (>= v v1) (< v v2) (let ((line (nth v lines))) (and line (< h (length line)) (aref line h)))) ?\ ) ) (defun math-read-big-emptyp (eh1 ev1 eh2 ev2 &optional what error) (and (< ev1 v1) (setq ev1 v1)) (and (< eh1 h1) (setq eh1 h1)) (and (> ev2 v2) (setq ev2 v2)) (and (> eh2 h2) (setq eh2 h2)) (or what (setq what ?\ )) (let ((p (nthcdr ev1 lines)) h) (while (and (< ev1 ev2) (progn (setq h (min eh2 (length (car p)))) (while (and (>= (setq h (1- h)) eh1) (= (aref (car p) h) what))) (and error (>= h eh1) (math-read-big-error h ev1 (if (stringp error) error "Whitespace expected"))) (< h eh1))) (setq ev1 (1+ ev1) p (cdr p))) (>= ev1 ev2)) ) (defun math-read-big-error (h v &optional msg) (let ((pos 0) (p lines)) (while (> v 0) (setq pos (+ pos 1 (length (car p))) p (cdr p) v (1- v))) (setq h (+ pos (min h (length (car p)))) err-msg (list 'error h (or msg "Syntax error"))) (throw 'syntax nil)) ) (defun math-read-big-balance (h v what &optional commas) (let* ((line (nth v lines)) (len (min h2 (length line))) (count 1)) (while (> count 0) (if (>= h len) (if what (math-read-big-error h1 v (format "Unmatched `%s'" what)) (setq count 0)) (if (memq (aref line h) '(?\( ?\[)) (setq count (1+ count)) (if (if (and commas (= count 1)) (or (memq (aref line h) '(?\) ?\] ?\, ?\;)) (and (eq (aref line h) ?\.) (< (1+ h) len) (eq (aref line (1+ h)) ?\.))) (memq (aref line h) '(?\) ?\]))) (setq count (1- count)))) (setq h (1+ h)))) h) )