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emacs/lisp/calc/calccomp.el
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;;; calccomp.el --- composition functions for Calc
;; Copyright (C) 1990-1993, 2001-2015 Free Software Foundation, Inc.
;; Author: David Gillespie <daveg@synaptics.com>
;; Maintainer: Jay Belanger <jay.p.belanger@gmail.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 <http://www.gnu.org/licenses/>.
;;; Commentary:
;;; Code:
;; This file is autoloaded from calc-ext.el.
(require 'calc-ext)
(require 'calc-macs)
;;; A "composition" has one of the following forms:
;;;
;;; "string" A literal string
;;;
;;; (horiz C1 C2 ...) Horizontally abutted sub-compositions
;;;
;;; (set LEVEL OFF) Set left margin + offset for line-break level
;;; (break LEVEL) A potential line-break point
;;;
;;; (vleft N C1 C2 ...) Vertically stacked, left-justified sub-comps
;;; (vcent N C1 C2 ...) Vertically stacked, centered sub-comps
;;; (vright N C1 C2 ...) Vertically stacked, right-justified sub-comps
;;; N specifies baseline of the stack, 0=top line.
;;;
;;; (supscr C1 C2) Composition C1 with superscript C2
;;; (subscr C1 C2) Composition C1 with subscript C2
;;; (rule X) Horizontal line of X, full width of enclosing comp
;;;
;;; (tag X C) Composition C corresponds to sub-expression X
;; math-comp-just and math-comp-comma-spc are local to
;; math-compose-expr, but are used by math-compose-matrix, which is
;; called by math-compose-expr
(defvar math-comp-just)
(defvar math-comp-comma-spc)
;; math-comp-vector-prec is local to math-compose-expr, but is used by
;; math-compose-matrix and math-compose-rows, which are called by
;; math-compose-expr.
(defvar math-comp-vector-prec)
;; math-comp-left-bracket, math-comp-right-bracket and math-comp-comma are
;; local to math-compose-expr, but are used by math-compose-rows, which is
;; called by math-compose-expr.
(defvar math-comp-left-bracket)
(defvar math-comp-right-bracket)
(defvar math-comp-comma)
(defun math-compose-var (a)
(let (v sn)
(if (and math-compose-hash-args
(let ((p calc-arg-values))
(setq v 1)
(while (and p (not (equal (car p) a)))
(setq p (and (eq math-compose-hash-args t) (cdr p))
v (1+ v)))
p))
(if (eq math-compose-hash-args 1)
"#"
(format "#%d" v))
(setq sn (symbol-name (nth 1 a)))
(if (memq calc-language calc-lang-allow-percentsigns)
(setq sn (math-to-percentsigns sn)))
(if (memq calc-language calc-lang-allow-underscores)
(setq sn (math-to-underscores sn)))
sn)))
;;; Give multiplication precedence when composing to avoid
;;; writing a*(b c) instead of a b c
(defun math-compose-expr (a prec &optional div)
(let ((calc-multiplication-has-precedence t)
(math-compose-level (1+ math-compose-level))
(math-expr-opers (math-expr-ops))
spfn)
(cond
((or (and (eq a math-comp-selected) a)
(and math-comp-tagged
(not (eq math-comp-tagged a))))
(let ((math-comp-selected nil))
(and math-comp-tagged (setq math-comp-tagged a))
(list 'tag a (math-compose-expr a prec))))
((and (not (consp a)) (not (integerp a)))
(concat "'" (prin1-to-string a)))
((setq spfn (assq (car-safe a)
(get calc-language 'math-special-function-table)))
(setq spfn (cdr spfn))
(if (consp spfn)
(funcall (car spfn) a spfn)
(funcall spfn a)))
((math-scalarp a)
(if (or (eq (car-safe a) 'frac)
(and (nth 1 calc-frac-format) (Math-integerp a)))
(if (and
calc-language
(not (memq calc-language
'(flat big unform))))
(let ((aa (math-adjust-fraction a))
(calc-frac-format nil))
(math-compose-expr (list '/
(if (memq calc-language
calc-lang-slash-idiv)
(math-float (nth 1 aa))
(nth 1 aa))
(nth 2 aa)) prec))
(if (and (eq calc-language 'big)
(= (length (car calc-frac-format)) 1))
(let* ((aa (math-adjust-fraction a))
(calc-frac-format nil)
(math-radix-explicit-format nil)
(c (list 'horiz
(if (math-negp (nth 1 aa))
"- " "")
(list 'vcent 1
(math-format-number
(math-abs (nth 1 aa)))
'(rule ?-)
(math-format-number (nth 2 aa))))))
(if (= calc-number-radix 10)
c
(list 'horiz "(" c
(list 'subscr ")"
(int-to-string calc-number-radix)))))
(math-format-number a)))
(if (not (eq calc-language 'big))
(math-format-number a prec)
(if (memq (car-safe a) '(cplx polar))
(if (math-zerop (nth 2 a))
(math-compose-expr (nth 1 a) prec)
(list 'horiz "("
(math-compose-expr (nth 1 a) 0)
(if (eq (car a) 'cplx) ", " "; ")
(math-compose-expr (nth 2 a) 0) ")"))
(if (or (= calc-number-radix 10)
(not (Math-realp a))
(and calc-group-digits
(not (assoc calc-group-char '((",") (" "))))))
(math-format-number a prec)
(let ((s (math-format-number a prec))
(c nil))
(while (string-match (if (> calc-number-radix 14)
"\\([0-9]+\\)#\\([0-9a-zA-Z., ]+\\)"
"\\([0-9]+\\)#\\([0-9a-dA-D., ]+\\)")
s)
(setq c (nconc c (list (substring s 0 (match-beginning 0))
(list 'subscr
(math-match-substring s 2)
(math-match-substring s 1))))
s (substring s (match-end 0))))
(if (string-match
"\\*\\([0-9.]+\\)\\^\\(-?[0-9]+\\)\\()?\\)\\'" s)
(setq s (list 'horiz
(substring s 0 (match-beginning 0)) " "
(list 'supscr
(math-match-substring s 1)
(math-match-substring s 2))
(math-match-substring s 3))))
(if c (cons 'horiz (nconc c (list s))) s)))))))
((and (get (car a) 'math-compose-forms)
(not (eq calc-language 'unform))
(let ((comps (get (car a) 'math-compose-forms))
temp temp2)
(or (and (setq temp (assq calc-language comps))
(or (and (setq temp2 (assq (1- (length a)) (cdr temp)))
(setq temp (apply (cdr temp2) (cdr a)))
(math-compose-expr temp prec))
(and (setq temp2 (assq nil (cdr temp)))
(funcall (cdr temp2) a))))
(and (setq temp (assq nil comps))
(or (and (setq temp2 (assq (1- (length a)) (cdr temp)))
(setq temp (apply (cdr temp2) (cdr a)))
(math-compose-expr temp prec))
(and (setq temp2 (assq nil (cdr temp)))
(funcall (cdr temp2) a))))))))
((eq (car a) 'vec)
(let* ((math-comp-left-bracket (if calc-vector-brackets
(substring calc-vector-brackets 0 1) ""))
(math-comp-right-bracket (if calc-vector-brackets
(substring calc-vector-brackets 1 2) ""))
(inner-brackets (memq 'R calc-matrix-brackets))
(outer-brackets (memq 'O calc-matrix-brackets))
(row-commas (memq 'C calc-matrix-brackets))
(math-comp-comma-spc (or calc-vector-commas " "))
(math-comp-comma (or calc-vector-commas ""))
(math-comp-vector-prec (if (or (and calc-vector-commas
(math-vector-no-parens a))
(memq 'P calc-matrix-brackets)) 0 1000))
(math-comp-just (cond ((eq calc-matrix-just 'right) 'vright)
((eq calc-matrix-just 'center) 'vcent)
(t 'vleft)))
(break calc-break-vectors))
(if (and (memq calc-language '(nil big))
(not calc-break-vectors)
(math-matrixp a) (not (math-matrixp (nth 1 a)))
(or calc-full-vectors
(and (< (length a) 7) (< (length (nth 1 a)) 7))
(progn (setq break t) nil)))
(if (progn
(setq math-comp-vector-prec (if (or (and calc-vector-commas
(math-vector-no-parens
(nth 1 a)))
(memq 'P calc-matrix-brackets))
0 1000))
(= (length a) 2))
(list 'horiz
(concat math-comp-left-bracket math-comp-left-bracket " ")
(math-compose-vector (cdr (nth 1 a)) (concat math-comp-comma " ")
math-comp-vector-prec)
(concat " " math-comp-right-bracket math-comp-right-bracket))
(let* ((rows (1- (length a)))
(cols (1- (length (nth 1 a))))
(base (/ (1- rows) 2))
(calc-language 'flat))
(append '(horiz)
(list (append '(vleft)
(list base)
(list (concat (and outer-brackets
(concat math-comp-left-bracket
" "))
(and inner-brackets
(concat math-comp-left-bracket
" "))))
(make-list (1- rows)
(concat (and outer-brackets
" ")
(and inner-brackets
(concat
math-comp-left-bracket
" "))))))
(math-compose-matrix (cdr a) 1 cols base)
(list (append '(vleft)
(list base)
(make-list (1- rows)
(if inner-brackets
(concat " "
math-comp-right-bracket
(and row-commas
math-comp-comma))
(if (and outer-brackets
row-commas)
";" "")))
(list (concat
(and inner-brackets
(concat " "
math-comp-right-bracket))
(and outer-brackets
(concat
" "
math-comp-right-bracket)))))))))
(if (and calc-display-strings
(cdr a)
(math-vector-is-string a))
(math-vector-to-string a t)
(if (and break (cdr a)
(not (eq calc-language 'flat)))
(let* ((full (or calc-full-vectors (< (length a) 7)))
(rows (if full (1- (length a)) 5))
(base (/ (1- rows) 2))
(calc-break-vectors nil))
(list 'horiz
(cons 'vleft (cons base
(math-compose-rows
(cdr a)
(if full rows 3) t)))))
(if (or calc-full-vectors (< (length a) 7))
(if (and
(setq spfn (get calc-language 'math-matrix-formatter))
(math-matrixp a))
(funcall spfn a)
(list 'horiz
math-comp-left-bracket
(math-compose-vector (cdr a)
(concat math-comp-comma " ")
math-comp-vector-prec)
math-comp-right-bracket))
(list 'horiz
math-comp-left-bracket
(math-compose-vector (list (nth 1 a) (nth 2 a) (nth 3 a))
(concat math-comp-comma " ")
math-comp-vector-prec)
math-comp-comma
(if (setq spfn (get calc-language 'math-dots))
(concat " " spfn)
" ...")
math-comp-comma " "
(list 'break math-compose-level)
(math-compose-expr (nth (1- (length a)) a)
(if (equal math-comp-comma "") 1000 0))
math-comp-right-bracket)))))))
((eq (car a) 'incomplete)
(if (cdr (cdr a))
(cond ((eq (nth 1 a) 'vec)
(list 'horiz "["
(math-compose-vector (cdr (cdr a)) ", " 0)
" ..."))
((eq (nth 1 a) 'cplx)
(list 'horiz "("
(math-compose-vector (cdr (cdr a)) ", " 0)
", ..."))
((eq (nth 1 a) 'polar)
(list 'horiz "("
(math-compose-vector (cdr (cdr a)) "; " 0)
"; ..."))
((eq (nth 1 a) 'intv)
(list 'horiz
(if (memq (nth 2 a) '(0 1)) "(" "[")
(math-compose-vector (cdr (cdr (cdr a))) " .. " 0)
" .. ..."))
(t (format "%s" a)))
(cond ((eq (nth 1 a) 'vec) "[ ...")
((eq (nth 1 a) 'intv)
(if (memq (nth 2 a) '(0 1)) "( ..." "[ ..."))
(t "( ..."))))
((eq (car a) 'var)
(let ((v (rassq (nth 2 a) math-expr-variable-mapping)))
(if v
(symbol-name (car v))
(if (setq spfn (get calc-language 'math-var-formatter))
(funcall spfn a prec)
(math-compose-var a)))))
((eq (car a) 'intv)
(list 'horiz
(if (memq (nth 1 a) '(0 1)) "(" "[")
(math-compose-expr (nth 2 a) 0)
" .. "
(math-compose-expr (nth 3 a) 0)
(if (memq (nth 1 a) '(0 2)) ")" "]")))
((eq (car a) 'date)
(if (eq (car calc-date-format) 'X)
(math-format-date a)
(concat "<" (math-format-date a) ">")))
((and (eq (car a) 'calcFunc-subscr)
(setq spfn (get calc-language 'math-compose-subscr)))
(funcall spfn a))
((and (eq (car a) 'calcFunc-subscr) (= (length a) 3)
(eq calc-language 'big))
(let* ((a1 (math-compose-expr (nth 1 a) 1000))
(calc-language 'flat)
(a2 (math-compose-expr (nth 2 a) 0)))
(if (or (eq (car-safe a1) 'subscr)
(and (eq (car-safe a1) 'tag)
(eq (car-safe (nth 2 a1)) 'subscr)
(setq a1 (nth 2 a1))))
(list 'subscr
(nth 1 a1)
(list 'horiz
(nth 2 a1)
", "
a2))
(list 'subscr a1 a2))))
((and (eq (car a) '^)
(eq calc-language 'big))
(list 'supscr
(if (or (math-looks-negp (nth 1 a))
(memq (car-safe (nth 1 a)) '(^ / frac calcFunc-sqrt))
(and (eq (car-safe (nth 1 a)) 'cplx)
(math-negp (nth 1 (nth 1 a)))
(eq (nth 2 (nth 1 a)) 0)))
(list 'horiz "(" (math-compose-expr (nth 1 a) 0) ")")
(math-compose-expr (nth 1 a) 201))
(let ((calc-language 'flat)
(calc-number-radix 10)
(calc-twos-complement-mode nil))
(math-compose-expr (nth 2 a) 0))))
((and (eq (car a) '/)
(eq calc-language 'big))
(let ((a1 (let ((calc-language (if (memq (car-safe (nth 1 a)) '(/ frac))
'flat 'big)))
(math-compose-expr (nth 1 a) 0)))
(a2 (let ((calc-language (if (memq (car-safe (nth 2 a)) '(/ frac))
'flat 'big)))
(math-compose-expr (nth 2 a) 0))))
(list 'vcent
(math-comp-height a1)
a1 '(rule ?-) a2)))
((and (eq (car a) 'calcFunc-lambda)
(> (length a) 2)
(memq calc-language '(nil flat big)))
(let ((p (cdr a))
(ap calc-arg-values)
(math-compose-hash-args (if (= (length a) 3) 1 t)))
(while (and (cdr p) (equal (car p) (car ap)))
(setq p (cdr p) ap (cdr ap)))
(append '(horiz "<")
(if (cdr p)
(list (math-compose-vector
(nreverse (cdr (reverse (cdr a)))) ", " 0)
" : ")
nil)
(list (math-compose-expr (nth (1- (length a)) a) 0)
">"))))
((and (eq (car a) 'calcFunc-string)
(= (length a) 2)
(math-vectorp (nth 1 a))
(math-vector-is-string (nth 1 a)))
(if (eq calc-language 'unform)
(concat "string(" (math-vector-to-string (nth 1 a) t) ")")
(math-vector-to-string (nth 1 a) nil)))
((and (eq (car a) 'calcFunc-bstring)
(= (length a) 2)
(math-vectorp (nth 1 a))
(math-vector-is-string (nth 1 a)))
(if (eq calc-language 'unform)
(concat "bstring(" (math-vector-to-string (nth 1 a) t) ")")
(let ((c nil)
(s (math-vector-to-string (nth 1 a) nil))
p)
(while (string-match "[^ ] +[^ ]" s)
(setq p (1- (match-end 0))
c (cons (list 'break math-compose-level)
(cons (substring s 0 p)
c))
s (substring s p)))
(setq c (nreverse (cons s c)))
(or (= prec -123)
(setq c (cons (list 'set math-compose-level 2) c)))
(cons 'horiz c))))
((and (eq (car a) 'calcFunc-cprec)
(not (eq calc-language 'unform))
(= (length a) 3)
(integerp (nth 2 a)))
(let ((c (math-compose-expr (nth 1 a) -1)))
(if (> prec (nth 2 a))
(if (setq spfn (get calc-language 'math-big-parens))
(list 'horiz (car spfn) c (cdr spfn))
(list 'horiz "(" c ")"))
c)))
((and (eq (car a) 'calcFunc-choriz)
(not (eq calc-language 'unform))
(memq (length a) '(2 3 4))
(math-vectorp (nth 1 a))
(if (integerp (nth 2 a))
(or (null (nth 3 a))
(and (math-vectorp (nth 3 a))
(math-vector-is-string (nth 3 a))))
(or (null (nth 2 a))
(and (math-vectorp (nth 2 a))
(math-vector-is-string (nth 2 a))))))
(let* ((cprec (and (integerp (nth 2 a)) (nth 2 a)))
(sep (nth (if cprec 3 2) a))
(bprec nil))
(if sep
(math-compose-vector (cdr (nth 1 a))
(math-vector-to-string sep nil)
(or cprec prec))
(cons 'horiz (mapcar (function
(lambda (x)
(if (eq (car-safe x) 'calcFunc-bstring)
(prog1
(math-compose-expr
x (or bprec cprec prec))
(setq bprec -123))
(math-compose-expr x (or cprec prec)))))
(cdr (nth 1 a)))))))
((and (memq (car a) '(calcFunc-cvert calcFunc-clvert calcFunc-crvert))
(not (eq calc-language 'unform))
(memq (length a) '(2 3))
(math-vectorp (nth 1 a))
(or (null (nth 2 a))
(integerp (nth 2 a))))
(let* ((base 0)
(v 0)
(prec (or (nth 2 a) prec))
(c (mapcar (function
(lambda (x)
(let ((b nil) (cc nil) a d)
(if (and (memq (car-safe x) '(calcFunc-cbase
calcFunc-ctbase
calcFunc-cbbase))
(memq (length x) '(1 2)))
(setq b (car x)
x (nth 1 x)))
(if (and (eq (car-safe x) 'calcFunc-crule)
(memq (length x) '(1 2))
(or (null (nth 1 x))
(and (math-vectorp (nth 1 x))
(= (length (nth 1 x)) 2)
(math-vector-is-string
(nth 1 x)))
(and (natnump (nth 1 x))
(<= (nth 1 x) 255))))
(setq cc (list
'rule
(if (math-vectorp (nth 1 x))
(aref (math-vector-to-string
(nth 1 x) nil) 0)
(or (nth 1 x) ?-))))
(or (and (memq (car-safe x) '(calcFunc-cvspace
calcFunc-ctspace
calcFunc-cbspace))
(memq (length x) '(2 3))
(eq (nth 1 x) 0))
(null x)
(setq cc (math-compose-expr x prec))))
(setq a (if cc (math-comp-ascent cc) 0)
d (if cc (math-comp-descent cc) 0))
(if (eq b 'calcFunc-cbase)
(setq base (+ v a -1))
(if (eq b 'calcFunc-ctbase)
(setq base v)
(if (eq b 'calcFunc-cbbase)
(setq base (+ v a d -1)))))
(setq v (+ v a d))
cc)))
(cdr (nth 1 a)))))
(setq c (delq nil c))
(if c
(cons (if (eq (car a) 'calcFunc-cvert) 'vcent
(if (eq (car a) 'calcFunc-clvert) 'vleft 'vright))
(cons base c))
" ")))
((and (memq (car a) '(calcFunc-csup calcFunc-csub))
(not (eq calc-language 'unform))
(memq (length a) '(3 4))
(or (null (nth 3 a))
(integerp (nth 3 a))))
(list (if (eq (car a) 'calcFunc-csup) 'supscr 'subscr)
(math-compose-expr (nth 1 a) (or (nth 3 a) 0))
(math-compose-expr (nth 2 a) 0)))
((and (eq (car a) 'calcFunc-cflat)
(not (eq calc-language 'unform))
(memq (length a) '(2 3))
(or (null (nth 2 a))
(integerp (nth 2 a))))
(let ((calc-language (if (memq calc-language '(nil big))
'flat calc-language)))
(math-compose-expr (nth 1 a) (or (nth 2 a) 0))))
((and (eq (car a) 'calcFunc-cspace)
(memq (length a) '(2 3))
(natnump (nth 1 a)))
(if (nth 2 a)
(cons 'horiz (make-list (nth 1 a)
(if (and (math-vectorp (nth 2 a))
(math-vector-is-string (nth 2 a)))
(math-vector-to-string (nth 2 a) nil)
(math-compose-expr (nth 2 a) 0))))
(make-string (nth 1 a) ?\ )))
((and (memq (car a) '(calcFunc-cvspace calcFunc-ctspace calcFunc-cbspace))
(memq (length a) '(2 3))
(natnump (nth 1 a)))
(if (= (nth 1 a) 0)
""
(let* ((c (if (nth 2 a)
(if (and (math-vectorp (nth 2 a))
(math-vector-is-string (nth 2 a)))
(math-vector-to-string (nth 2 a) nil)
(math-compose-expr (nth 2 a) 0))
" "))
(ca (math-comp-ascent c))
(cd (math-comp-descent c)))
(cons 'vleft
(cons (if (eq (car a) 'calcFunc-ctspace)
(1- ca)
(if (eq (car a) 'calcFunc-cbspace)
(+ (* (1- (nth 1 a)) (+ ca cd)) (1- ca))
(/ (1- (* (nth 1 a) (+ ca cd))) 2)))
(make-list (nth 1 a) c))))))
((and (eq (car a) 'calcFunc-evalto)
(setq calc-any-evaltos t)
(setq spfn (get calc-language 'math-evalto))
(= math-compose-level (if math-comp-tagged 2 1))
(= (length a) 3))
(list 'horiz
(car spfn)
(math-compose-expr (nth 1 a) 0)
(cdr spfn)
(math-compose-expr (nth 2 a) 0)))
(t
(let ((op (and (not (eq calc-language 'unform))
(if (and (eq (car a) 'calcFunc-if) (= (length a) 4))
(assoc "?" math-expr-opers)
(math-assq2 (car a) math-expr-opers)))))
(cond ((and op
(or (= (length a) 3) (eq (car a) 'calcFunc-if))
(/= (nth 3 op) -1))
(cond
((or
(> prec (or (nth 4 op) (min (nth 2 op) (nth 3 op))))
(and div (eq (car a) '*)))
(if (and (memq calc-language '(tex latex))
(not (math-tex-expr-is-flat a)))
(if (eq (car-safe a) '/)
(list 'horiz "{" (math-compose-expr a -1) "}")
(list 'horiz "\\left( "
(math-compose-expr a -1)
" \\right)"))
(if (eq calc-language 'eqn)
(if (or (eq (car-safe a) '/)
(= (/ prec 100) 9))
(list 'horiz "{" (math-compose-expr a -1) "}")
(if (math-tex-expr-is-flat a)
(list 'horiz "( " (math-compose-expr a -1) " )")
(list 'horiz "{left ( "
(math-compose-expr a -1)
" right )}")))
(list 'horiz "(" (math-compose-expr a 0) ")"))))
((and (memq calc-language '(tex latex))
(memq (car a) '(/ calcFunc-choose calcFunc-evalto))
(>= prec 0))
(list 'horiz "{" (math-compose-expr a -1) "}"))
((eq (car a) 'calcFunc-if)
(list 'horiz
(math-compose-expr (nth 1 a) (nth 2 op))
" ? "
(math-compose-expr (nth 2 a) 0)
" : "
(math-compose-expr (nth 3 a) (nth 3 op))))
(t
(let* ((math-comp-tagged (and math-comp-tagged
(not (math-primp a))
math-comp-tagged))
(setlev (if (= prec (min (nth 2 op) (nth 3 op)))
(progn
(setq math-compose-level
(1- math-compose-level))
nil)
math-compose-level))
(lhs (math-compose-expr (nth 1 a) (nth 2 op)))
(rhs (math-compose-expr (nth 2 a) (nth 3 op) (eq (nth 1 op) '/))))
(and (equal (car op) "^")
(eq (math-comp-first-char lhs) ?-)
(setq lhs (list 'horiz "(" lhs ")")))
(and (memq calc-language '(tex latex))
(or (equal (car op) "^") (equal (car op) "_"))
(not (and (stringp rhs) (= (length rhs) 1)))
(setq rhs (list 'horiz "{" rhs "}")))
(or (and (eq (car a) '*)
(or (null calc-language)
(assoc "2x" math-expr-opers))
(let* ((prevt (math-prod-last-term (nth 1 a)))
(nextt (math-prod-first-term (nth 2 a)))
(prevc (or (math-comp-last-char lhs)
(and (memq (car-safe prevt)
'(^ calcFunc-subscr
calcFunc-sqrt
frac))
(eq calc-language 'big)
?0)))
(nextc (or (math-comp-first-char rhs)
(and (memq (car-safe nextt)
'(calcFunc-sqrt
calcFunc-sum
calcFunc-prod
calcFunc-integ))
(eq calc-language 'big)
?0))))
(and prevc nextc
(or (and (>= nextc ?a) (<= nextc ?z))
(and (>= nextc ?A) (<= nextc ?Z))
(and (>= nextc ?α) (<= nextc ))
(and (>= nextc ?Α) (<= nextc ))
(and (>= nextc ?0) (<= nextc ?9))
(memq nextc '(?. ?_ ?#
?\( ?\[ ?\{))
(and (eq nextc ?\\)
(not (string-match
"\\`\\\\left("
(math-comp-first-string
rhs)))))
(not (and (eq (car-safe prevt) 'var)
(eq nextc ?\()))
(list 'horiz
(list 'set setlev 1)
lhs
(list 'break math-compose-level)
" "
rhs))))
(list 'horiz
(list 'set setlev 1)
lhs
(list 'break math-compose-level)
(if (or (equal (car op) "^")
(equal (car op) "_")
(equal (car op) "**")
(and (equal (car op) "*")
(math-comp-last-char lhs)
(math-comp-first-char rhs))
(and (equal (car op) "/")
(math-num-integerp (nth 1 a))
(math-integerp (nth 2 a))))
(car op)
(if (and (eq calc-language 'big)
(equal (car op) "=>"))
" => "
(concat " " (car op) " ")))
rhs))))))
((and op (= (length a) 2) (= (nth 3 op) -1))
(cond
((or (> prec (or (nth 4 op) (nth 2 op)))
(and (not (eq (assoc (car op) math-expr-opers) op))
(> prec 0))) ; don't write x% + y
(if (and (memq calc-language '(tex latex))
(not (math-tex-expr-is-flat a)))
(list 'horiz "\\left( "
(math-compose-expr a -1)
" \\right)")
(if (eq calc-language 'eqn)
(if (= (/ prec 100) 9)
(list 'horiz "{" (math-compose-expr a -1) "}")
(if (math-tex-expr-is-flat a)
(list 'horiz "{( " (math-compose-expr a -1) " )}")
(list 'horiz "{left ( "
(math-compose-expr a -1)
" right )}")))
(list 'horiz "(" (math-compose-expr a 0) ")"))))
(t
(let ((lhs (math-compose-expr (nth 1 a) (nth 2 op))))
(list 'horiz
lhs
(if (or (> (length (car op)) 1)
(not (math-comp-is-flat lhs)))
(concat " " (car op))
(car op)))))))
((and op (= (length a) 2) (= (nth 2 op) -1))
(cond
((eq (nth 3 op) 0)
(let ((lr (and (memq calc-language '(tex latex))
(not (math-tex-expr-is-flat (nth 1 a))))))
(list 'horiz
(if lr "\\left" "")
(if (string-match "\\`u\\([^a-zA-Zα-ωΑ-Ω]\\)\\'" (car op))
(substring (car op) 1)
(car op))
(if (or lr (> (length (car op)) 2)) " " "")
(math-compose-expr (nth 1 a) -1)
(if (or lr (> (length (car op)) 2)) " " "")
(if lr "\\right" "")
(car (nth 1 (memq op math-expr-opers))))))
((> prec (or (nth 4 op) (nth 3 op)))
(if (and (memq calc-language '(tex latex))
(not (math-tex-expr-is-flat a)))
(list 'horiz "\\left( "
(math-compose-expr a -1)
" \\right)")
(if (eq calc-language 'eqn)
(if (= (/ prec 100) 9)
(list 'horiz "{" (math-compose-expr a -1) "}")
(if (math-tex-expr-is-flat a)
(list 'horiz "{( " (math-compose-expr a -1) " )}")
(list 'horiz "{left ( "
(math-compose-expr a -1)
" right )}")))
(list 'horiz "(" (math-compose-expr a 0) ")"))))
(t
(let ((rhs (math-compose-expr (nth 1 a) (nth 3 op))))
(list 'horiz
(let ((ops (if (string-match "\\`u\\([^a-zA-Zα-ωΑ-Ω]\\)\\'"
(car op))
(substring (car op) 1)
(car op))))
(if (or (> (length ops) 1)
(not (math-comp-is-flat rhs)))
(concat ops " ")
ops))
rhs)))))
((and (eq calc-language 'big)
(setq op (get (car a) 'math-compose-big))
(funcall op a prec)))
((and (setq op (assq calc-language
'( ( nil . math-compose-normal )
( flat . math-compose-normal )
( big . math-compose-normal )
( c . math-compose-c )
( pascal . math-compose-pascal )
( fortran . math-compose-fortran )
( tex . math-compose-tex )
( latex . math-compose-latex )
( eqn . math-compose-eqn )
( yacas . math-compose-yacas )
( maxima . math-compose-maxima )
( giac . math-compose-giac )
( math . math-compose-math )
( maple . math-compose-maple ))))
(setq op (get (car a) (cdr op)))
(funcall op a prec)))
(t
(let* ((func (car a))
(func2 (assq func '(( mod . calcFunc-makemod )
( sdev . calcFunc-sdev )
( + . calcFunc-add )
( - . calcFunc-sub )
( * . calcFunc-mul )
( / . calcFunc-div )
( % . calcFunc-mod )
( ^ . calcFunc-pow )
( neg . calcFunc-neg )
( | . calcFunc-vconcat ))))
left right args)
(if func2
(setq func (cdr func2)))
(if (setq func2 (rassq func math-expr-function-mapping))
(setq func (car func2)))
(setq func (math-remove-dashes
(if (string-match
"\\`calcFunc-\\([a-zA-Zα-ωΑ-Ω0-9']+\\)\\'"
(symbol-name func))
(math-match-substring (symbol-name func) 1)
(symbol-name func))))
(if (memq calc-language calc-lang-allow-percentsigns)
(setq func (math-to-percentsigns func)))
(if (memq calc-language calc-lang-allow-underscores)
(setq func (math-to-underscores func)))
(if (setq spfn (get calc-language 'math-func-formatter))
(funcall spfn func a)
(list 'horiz func calc-function-open
(math-compose-vector (cdr a) ", " 0)
calc-function-close))))))))))
(defun math-prod-first-term (x)
(while (eq (car-safe x) '*)
(setq x (nth 1 x)))
x)
(defun math-prod-last-term (x)
(while (eq (car-safe x) '*)
(setq x (nth 2 x)))
x)
(defun math-compose-vector (a sep prec)
(if a
(cons 'horiz
(cons (list 'set math-compose-level)
(let ((c (list (math-compose-expr (car a) prec))))
(while (setq a (cdr a))
(setq c (cons (if (eq (car-safe (car a))
'calcFunc-bstring)
(let ((math-compose-level
(1- math-compose-level)))
(math-compose-expr (car a) -123))
(math-compose-expr (car a) prec))
(cons (list 'break math-compose-level)
(cons sep c)))))
(nreverse c))))
""))
(defun math-vector-no-parens (a)
(or (cdr (cdr a))
(not (eq (car-safe (nth 1 a)) '*))))
(defun math-compose-matrix (a col cols base)
(let ((col 0)
(res nil))
(while (<= (setq col (1+ col)) cols)
(setq res (cons (cons math-comp-just
(cons base
(mapcar (function
(lambda (r)
(list 'horiz
(math-compose-expr
(nth col r)
math-comp-vector-prec)
(if (= col cols)
""
(concat
math-comp-comma-spc " ")))))
a)))
res)))
(nreverse res)))
(defun math-compose-rows (a count first)
(if (cdr a)
(if (<= count 0)
(if (< count 0)
(math-compose-rows (cdr a) -1 nil)
(cons (concat
(let ((mdots (get calc-language 'math-dots)))
(if mdots
(concat " " mdots)
" ..."))
math-comp-comma)
(math-compose-rows (cdr a) -1 nil)))
(cons (list 'horiz
(if first (concat math-comp-left-bracket " ") " ")
(math-compose-expr (car a) math-comp-vector-prec)
math-comp-comma)
(math-compose-rows (cdr a) (1- count) nil)))
(list (list 'horiz
(if first (concat math-comp-left-bracket " ") " ")
(math-compose-expr (car a) math-comp-vector-prec)
(concat " " math-comp-right-bracket)))))
(defun math-vector-is-string (a)
(while (and (setq a (cdr a))
(or (and (natnump (car a))
(<= (car a) 255))
(and (eq (car-safe (car a)) 'cplx)
(natnump (nth 1 (car a)))
(eq (nth 2 (car a)) 0)
(<= (nth 1 (car a)) 255)))))
(null a))
(defconst math-vector-to-string-chars '( ( ?\" . "\\\"" )
( ?\\ . "\\\\" )
( ?\a . "\\a" )
( ?\b . "\\b" )
( ?\e . "\\e" )
( ?\f . "\\f" )
( ?\n . "\\n" )
( ?\r . "\\r" )
( ?\t . "\\t" )
( ?\^? . "\\^?" )))
(defun math-vector-to-string (a &optional quoted)
(setq a (concat (mapcar (function (lambda (x) (if (consp x) (nth 1 x) x)))
(cdr a))))
(if (string-match "[\000-\037\177\\\"]" a)
(let ((p 0)
(pat (if quoted "[\000-\037\177\\\"]" "[\000-\037\177]"))
(codes (if quoted math-vector-to-string-chars '((?\^? . "^?"))))
(fmt (if quoted "\\^%c" "^%c"))
new)
(while (setq p (string-match pat a p))
(if (setq new (assq (aref a p) codes))
(setq a (concat (substring a 0 p)
(cdr new)
(substring a (1+ p)))
p (+ p (length (cdr new))))
(setq a (concat (substring a 0 p)
(format fmt (+ (aref a p) 64))
(substring a (1+ p)))
p (+ p 2))))))
(if quoted
(concat "\"" a "\"")
a))
(defun math-to-underscores (x)
(if (string-match "\\`\\(.*\\)#\\(.*\\)\\'" x)
(math-to-underscores
(concat (math-match-substring x 1) "_" (math-match-substring x 2)))
x))
(defun math-to-percentsigns (x)
(if (string-match "\\`\\(.*\\)o'o\\(.*\\)\\'" x)
(math-to-underscores
(concat (math-match-substring x 1) "%" (math-match-substring x 2)))
x))
(defun math-tex-expr-is-flat (a)
(or (Math-integerp a)
(memq (car a) '(float var))
(and (memq (car a) '(+ - * neg))
(progn
(while (and (setq a (cdr a))
(math-tex-expr-is-flat (car a))))
(null a)))
(and (memq (car a) '(^ calcFunc-subscr))
(math-tex-expr-is-flat (nth 1 a)))))
(put 'calcFunc-log 'math-compose-big 'math-compose-log)
(defun math-compose-log (a prec)
(and (= (length a) 3)
(list 'horiz
(list 'subscr "log"
(let ((calc-language 'flat))
(math-compose-expr (nth 2 a) 1000)))
"("
(math-compose-expr (nth 1 a) 1000)
")")))
(put 'calcFunc-log10 'math-compose-big 'math-compose-log10)
(defun math-compose-log10 (a prec)
(and (= (length a) 2)
(list 'horiz
(list 'subscr "log" "10")
"("
(math-compose-expr (nth 1 a) 1000)
")")))
(put 'calcFunc-deriv 'math-compose-big 'math-compose-deriv)
(put 'calcFunc-tderiv 'math-compose-big 'math-compose-deriv)
(defun math-compose-deriv (a prec)
(when (= (length a) 3)
(math-compose-expr (list '/
(list 'calcFunc-choriz
(list 'vec
'(calcFunc-string (vec ?d))
(nth 1 a)))
(list 'calcFunc-choriz
(list 'vec
'(calcFunc-string (vec ?d))
(nth 2 a))))
prec)))
(put 'calcFunc-sqrt 'math-compose-big 'math-compose-sqrt)
(defun math-compose-sqrt (a prec)
(when (= (length a) 2)
(let* ((c (math-compose-expr (nth 1 a) 0))
(a (math-comp-ascent c))
(d (math-comp-descent c))
(h (+ a d))
(w (math-comp-width c)))
(list 'vleft
a
(concat (if (= h 1) " " " ")
(make-string (+ w 2) ?\_))
(list 'horiz
(if (= h 1)
"V"
(append (list 'vleft (1- a))
(make-list (1- h) " |")
'("\\|")))
" "
c)))))
(put 'calcFunc-choose 'math-compose-big 'math-compose-choose)
(defun math-compose-choose (a prec)
(let ((a1 (math-compose-expr (nth 1 a) 0))
(a2 (math-compose-expr (nth 2 a) 0)))
(list 'horiz
"("
(list 'vcent
(math-comp-height a1)
a1 " " a2)
")")))
(put 'calcFunc-integ 'math-compose-big 'math-compose-integ)
(defun math-compose-integ (a prec)
(and (memq (length a) '(3 5))
(eq (car-safe (nth 2 a)) 'var)
(let* ((parens (and (>= prec 196) (/= prec 1000)))
(var (math-compose-expr (nth 2 a) 0))
(over (and (eq (car-safe (nth 2 a)) 'var)
(or (and (eq (car-safe (nth 1 a)) '/)
(math-numberp (nth 1 (nth 1 a))))
(and (eq (car-safe (nth 1 a)) '^)
(math-looks-negp (nth 2 (nth 1 a)))))))
(expr (math-compose-expr (if over
(math-mul (nth 1 a)
(math-build-var-name
(format
"d%s"
(nth 1 (nth 2 a)))))
(nth 1 a)) 185))
(calc-language 'flat)
(low (and (nth 3 a) (math-compose-expr (nth 3 a) 0)))
(high (and (nth 4 a) (math-compose-expr (nth 4 a) 0))))
(list 'horiz
(if parens "(" "")
(append (list 'vcent (if high 3 2))
(and high (list (list 'horiz " " high)))
'(" /"
" | "
" | "
" | "
"/ ")
(and low (list (list 'horiz low " "))))
expr
(if over
""
(list 'horiz " d" var))
(if parens ")" "")))))
(put 'calcFunc-sum 'math-compose-big 'math-compose-sum)
(defun math-compose-sum (a prec)
(and (memq (length a) '(3 5 6))
(let* ((expr (math-compose-expr (nth 1 a) 185))
(calc-language 'flat)
(var (math-compose-expr (nth 2 a) 0))
(low (and (nth 3 a) (math-compose-expr (nth 3 a) 0)))
(high (and (nth 4 a) (math-compose-vector (nthcdr 4 a) ", " 0))))
(list 'horiz
(if (memq prec '(180 201)) "(" "")
(append (list 'vcent (if high 3 2))
(and high (list high))
'("---- "
"\\ "
" > "
"/ "
"---- ")
(if low
(list (list 'horiz var " = " low))
(list var)))
(if (memq (car-safe (nth 1 a)) '(calcFunc-sum calcFunc-prod))
" " "")
expr
(if (memq prec '(180 201)) ")" "")))))
(put 'calcFunc-prod 'math-compose-big 'math-compose-prod)
(defun math-compose-prod (a prec)
(and (memq (length a) '(3 5 6))
(let* ((expr (math-compose-expr (nth 1 a) 198))
(calc-language 'flat)
(var (math-compose-expr (nth 2 a) 0))
(low (and (nth 3 a) (math-compose-expr (nth 3 a) 0)))
(high (and (nth 4 a) (math-compose-vector (nthcdr 4 a) ", " 0))))
(list 'horiz
(if (memq prec '(196 201)) "(" "")
(append (list 'vcent (if high 3 2))
(and high (list high))
'("----- "
" | | "
" | | "
" | | ")
(if low
(list (list 'horiz var " = " low))
(list var)))
(if (memq (car-safe (nth 1 a)) '(calcFunc-sum calcFunc-prod))
" " "")
expr
(if (memq prec '(196 201)) ")" "")))))
;; The variables math-svo-c, math-svo-wid and math-svo-off are local
;; to math-stack-value-offset in calc.el, but are used by
;; math-stack-value-offset-fancy, which is called by math-stack-value-offset..
(defvar math-svo-c)
(defvar math-svo-wid)
(defvar math-svo-off)
(defun math-stack-value-offset-fancy ()
(let ((cwid (+ (math-comp-width math-svo-c))))
(cond ((eq calc-display-just 'right)
(if calc-display-origin
(setq math-svo-wid (max calc-display-origin 5))
(if (integerp calc-line-breaking)
(setq math-svo-wid calc-line-breaking)))
(setq math-svo-off (- math-svo-wid cwid
(max (- (length calc-right-label)
(if (and (integerp calc-line-breaking)
calc-display-origin)
(max (- calc-line-breaking
calc-display-origin)
0)
0))
0))))
(t
(if calc-display-origin
(progn
(setq math-svo-off (- calc-display-origin (/ cwid 2)))
(if (integerp calc-line-breaking)
(setq math-svo-off (min math-svo-off (- calc-line-breaking cwid
(length calc-right-label)))))
(if (>= math-svo-off 0)
(setq math-svo-wid (max math-svo-wid (+ math-svo-off cwid)))))
(if (integerp calc-line-breaking)
(setq math-svo-wid calc-line-breaking))
(setq math-svo-off (/ (- math-svo-wid cwid) 2)))))
(and (integerp calc-line-breaking)
(or (< math-svo-off 0)
(and calc-display-origin
(> calc-line-breaking calc-display-origin)))
(setq math-svo-wid calc-line-breaking))))
;;; Convert a composition to string form, with embedded \n's if necessary.
(defun math-composition-to-string (c &optional width)
(or width (setq width (calc-window-width)))
(if calc-display-raw
(math-comp-to-string-raw c 0)
(if (math-comp-is-flat c)
(math-comp-to-string-flat c width)
(math-vert-comp-to-string
(math-comp-simplify c width)))))
(defvar math-comp-buf-string (make-vector 10 ""))
(defvar math-comp-buf-margin (make-vector 10 0))
(defvar math-comp-buf-level (make-vector 10 0))
(defun math-comp-is-flat (c) ; check if c's height is 1.
(cond ((not (consp c)) t)
((memq (car c) '(set break)) t)
((eq (car c) 'horiz)
(while (and (setq c (cdr c))
(math-comp-is-flat (car c))))
(null c))
((memq (car c) '(vleft vcent vright))
(and (= (length c) 3)
(= (nth 1 c) 0)
(math-comp-is-flat (nth 2 c))))
((eq (car c) 'tag)
(math-comp-is-flat (nth 2 c)))
(t nil)))
;;; Convert a one-line composition to a string. Break into multiple
;;; lines if necessary, choosing break points according to the structure
;;; of the formula.
;; The variables math-comp-full-width, math-comp-highlight, math-comp-word,
;; math-comp-level, math-comp-margin and math-comp-buf are local to
;; math-comp-to-string-flat, but are used by math-comp-to-string-flat-term,
;; which is called by math-comp-to-string-flat.
;; math-comp-highlight and math-comp-buf are also local to
;; math-comp-simplify-term and math-comp-simplify respectively, but are used
;; by math-comp-add-string.
(defvar math-comp-full-width)
(defvar math-comp-highlight)
(defvar math-comp-word)
(defvar math-comp-level)
(defvar math-comp-margin)
(defvar math-comp-buf)
;; The variable math-comp-pos is local to math-comp-to-string-flat, but
;; is used by math-comp-to-string-flat-term and math-comp-sel-first-term,
;; which are called by math-comp-to-string-flat.
(defvar math-comp-pos)
(defun math-comp-to-string-flat (c math-comp-full-width)
(if math-comp-sel-hpos
(let ((math-comp-pos 0))
(math-comp-sel-flat-term c))
(let ((math-comp-buf "")
(math-comp-word "")
(math-comp-pos 0)
(math-comp-margin 0)
(math-comp-highlight (and math-comp-selected calc-show-selections))
(math-comp-level -1))
(math-comp-to-string-flat-term '(set -1 0))
(math-comp-to-string-flat-term c)
(math-comp-to-string-flat-term '(break -1))
(let ((str (aref math-comp-buf-string 0))
(prefix ""))
(and (> (length str) 0) (= (aref str 0) ? )
(> (length math-comp-buf) 0)
(let ((k (length math-comp-buf)))
(while (not (= (aref math-comp-buf (setq k (1- k))) ?\n)))
(aset math-comp-buf k ? )
(if (and (< (1+ k) (length math-comp-buf))
(= (aref math-comp-buf (1+ k)) ? ))
(progn
(aset math-comp-buf (1+ k) ?\n)
(setq prefix " "))
(setq prefix "\n"))))
(concat math-comp-buf prefix str)))))
(defun math-comp-to-string-flat-term (c)
(cond ((not (consp c))
(if math-comp-highlight
(setq c (math-comp-highlight-string c)))
(setq math-comp-word (if (= (length math-comp-word) 0) c
(concat math-comp-word c))
math-comp-pos (+ math-comp-pos (length c))))
((eq (car c) 'horiz)
(while (setq c (cdr c))
(math-comp-to-string-flat-term (car c))))
((eq (car c) 'set)
(if (nth 1 c)
(progn
(setq math-comp-level (1+ math-comp-level))
(if (>= math-comp-level (length math-comp-buf-string))
(setq math-comp-buf-string (vconcat math-comp-buf-string
math-comp-buf-string)
math-comp-buf-margin (vconcat math-comp-buf-margin
math-comp-buf-margin)
math-comp-buf-level (vconcat math-comp-buf-level
math-comp-buf-level)))
(aset math-comp-buf-string math-comp-level "")
(aset math-comp-buf-margin math-comp-level (+ math-comp-pos
(or (nth 2 c) 0)))
(aset math-comp-buf-level math-comp-level (nth 1 c)))))
((eq (car c) 'break)
(if (not calc-line-breaking)
(setq math-comp-buf (concat math-comp-buf math-comp-word)
math-comp-word "")
(let ((i 0) str)
(if (and (> math-comp-pos math-comp-full-width)
(progn
(while (progn
(setq str (aref math-comp-buf-string i))
(and (= (length str) 0) (< i math-comp-level)))
(setq i (1+ i)))
(or (> (length str) 0) (> (length math-comp-buf) 0))))
(let ((prefix "") mrg wid)
(setq mrg (aref math-comp-buf-margin i))
(if (> mrg 12) ; indenting too far, go back to far left
(setq mrg (if calc-line-numbering 5 1)))
(setq wid (+ (length str) math-comp-margin))
(and (> (length str) 0) (= (aref str 0) ? )
(> (length math-comp-buf) 0)
(let ((k (length math-comp-buf)))
(while (not (= (aref math-comp-buf (setq k (1- k))) ?\n)))
(aset math-comp-buf k ? )
(if (and (< (1+ k) (length math-comp-buf))
(= (aref math-comp-buf (1+ k)) ? ))
(progn
(aset math-comp-buf (1+ k) ?\n)
(setq prefix " "))
(setq prefix "\n"))))
(setq math-comp-buf (concat math-comp-buf prefix str "\n"
(make-string mrg ? ))
math-comp-pos (+ math-comp-pos (- mrg wid))
math-comp-margin mrg)
(aset math-comp-buf-string i "")
(while (<= (setq i (1+ i)) math-comp-level)
(if (> (aref math-comp-buf-margin i) wid)
(aset math-comp-buf-margin i
(+ (aref math-comp-buf-margin i)
(- mrg wid))))))))
(if (and (= (nth 1 c) (aref math-comp-buf-level math-comp-level))
(< math-comp-pos (+ (aref math-comp-buf-margin math-comp-level) 2)))
() ; avoid stupid breaks, e.g., "1 +\n really_long_expr"
(let ((str (aref math-comp-buf-string math-comp-level)))
(setq str (if (= (length str) 0)
math-comp-word
(concat str math-comp-word))
math-comp-word "")
(while (< (nth 1 c) (aref math-comp-buf-level math-comp-level))
(setq math-comp-level (1- math-comp-level))
(or (= (length (aref math-comp-buf-string math-comp-level)) 0)
(setq str (concat (aref math-comp-buf-string math-comp-level)
str))))
(aset math-comp-buf-string math-comp-level str)))))
((eq (car c) 'tag)
(cond ((eq (nth 1 c) math-comp-selected)
(let ((math-comp-highlight (not calc-show-selections)))
(math-comp-to-string-flat-term (nth 2 c))))
((eq (nth 1 c) t)
(let ((math-comp-highlight nil))
(math-comp-to-string-flat-term (nth 2 c))))
(t (math-comp-to-string-flat-term (nth 2 c)))))
(t (math-comp-to-string-flat-term (nth 2 c)))))
(defun math-comp-highlight-string (s)
(setq s (copy-sequence s))
(if calc-highlight-selections-with-faces
(if (not calc-show-selections)
(propertize s 'face 'calc-selected-face)
(propertize s 'face 'calc-nonselected-face))
(let ((i (length s)))
(while (>= (setq i (1- i)) 0)
(or (memq (aref s i) '(32 ?\n))
(aset s i (if calc-show-selections ?\. ?\#)))))
s))
;; The variable math-comp-sel-tag is local to calc-find-selected-part
;; in calc-sel.el, but is used by math-comp-sel-flat-term and
;; math-comp-add-string-sel, which are called (indirectly) by
;; calc-find-selected-part.
(defvar math-comp-sel-tag)
(defun math-comp-sel-flat-term (c)
(cond ((not (consp c))
(setq math-comp-pos (+ math-comp-pos (length c))))
((memq (car c) '(set break)))
((eq (car c) 'horiz)
(while (and (setq c (cdr c)) (< math-comp-sel-cpos 1000000))
(math-comp-sel-flat-term (car c))))
((eq (car c) 'tag)
(if (<= math-comp-pos math-comp-sel-cpos)
(progn
(math-comp-sel-flat-term (nth 2 c))
(if (> math-comp-pos math-comp-sel-cpos)
(setq math-comp-sel-tag c
math-comp-sel-cpos 1000000)))
(math-comp-sel-flat-term (nth 2 c))))
(t (math-comp-sel-flat-term (nth 2 c)))))
;;; Simplify a composition to a canonical form consisting of
;;; (vleft n "string" "string" "string" ...)
;;; where 0 <= n < number-of-strings.
;; The variables math-comp-base, math-comp-hgt, math-comp-tag,
;; math-comp-hpos and math-comp-vpos are local to math-comp-simplify,
;; but are used by math-comp-add-string (math-comp-base, math-comp-hgt),
;; math-comp-add-string-sel (math-comp-tag) and math-comp-simplify-term
;; (math-comp-tag, math-comp-vpos, math-comp-hpos), which are called by
;; math-comp-simplify.
(defvar math-comp-base)
(defvar math-comp-hgt)
(defvar math-comp-tag)
(defvar math-comp-hpos)
(defvar math-comp-vpos)
(defun math-comp-simplify (c full-width)
(let ((math-comp-buf (list ""))
(math-comp-base 0)
(math-comp-hgt 1)
(math-comp-hpos 0)
(math-comp-vpos 0)
(math-comp-highlight (and math-comp-selected calc-show-selections))
(math-comp-tag nil))
(math-comp-simplify-term c)
(cons 'vleft (cons math-comp-base math-comp-buf))))
(defun math-comp-add-string (s h v)
(and (> (length s) 0)
(let ((vv (+ v math-comp-base)))
(if math-comp-sel-hpos
(math-comp-add-string-sel h vv (length s) 1)
(if (< vv 0)
(setq math-comp-buf (nconc (make-list (- vv) "") math-comp-buf)
math-comp-base (- v)
math-comp-hgt (- math-comp-hgt vv)
vv 0)
(if (>= vv math-comp-hgt)
(setq math-comp-buf (nconc math-comp-buf
(make-list (1+ (- vv math-comp-hgt)) ""))
math-comp-hgt (1+ vv))))
(let ((str (nthcdr vv math-comp-buf)))
(setcar str (concat (car str)
(make-string (- h (length (car str))) 32)
(if math-comp-highlight
(math-comp-highlight-string s)
s))))))))
(defun math-comp-add-string-sel (x y w h)
(if (and (<= y math-comp-sel-vpos)
(> (+ y h) math-comp-sel-vpos)
(<= x math-comp-sel-hpos)
(> (+ x w) math-comp-sel-hpos))
(setq math-comp-sel-tag math-comp-tag
math-comp-sel-vpos 10000)))
(defun math-comp-simplify-term (c)
(cond ((stringp c)
(math-comp-add-string c math-comp-hpos math-comp-vpos)
(setq math-comp-hpos (+ math-comp-hpos (length c))))
((memq (car c) '(set break))
nil)
((eq (car c) 'horiz)
(while (setq c (cdr c))
(math-comp-simplify-term (car c))))
((memq (car c) '(vleft vcent vright))
(let* ((math-comp-vpos (+ (- math-comp-vpos (nth 1 c))
(1- (math-comp-ascent (nth 2 c)))))
(widths (mapcar 'math-comp-width (cdr (cdr c))))
(maxwid (apply 'max widths))
(bias (cond ((eq (car c) 'vleft) 0)
((eq (car c) 'vcent) 1)
(t 2))))
(setq c (cdr c))
(while (setq c (cdr c))
(if (eq (car-safe (car c)) 'rule)
(math-comp-add-string (make-string maxwid (nth 1 (car c)))
math-comp-hpos math-comp-vpos)
(let ((math-comp-hpos (+ math-comp-hpos (/ (* bias (- maxwid
(car widths)))
2))))
(math-comp-simplify-term (car c))))
(and (cdr c)
(setq math-comp-vpos (+ math-comp-vpos
(+ (math-comp-descent (car c))
(math-comp-ascent (nth 1 c))))
widths (cdr widths))))
(setq math-comp-hpos (+ math-comp-hpos maxwid))))
((eq (car c) 'supscr)
(let* ((asc (or 1 (math-comp-ascent (nth 1 c))))
(desc (math-comp-descent (nth 2 c)))
(oldh (prog1
math-comp-hpos
(math-comp-simplify-term (nth 1 c))))
(math-comp-vpos (- math-comp-vpos (+ asc desc))))
(math-comp-simplify-term (nth 2 c))
(if math-comp-sel-hpos
(math-comp-add-string-sel oldh
(- math-comp-vpos
-1
(math-comp-ascent (nth 2 c)))
(- math-comp-hpos oldh)
(math-comp-height c)))))
((eq (car c) 'subscr)
(let* ((asc (math-comp-ascent (nth 2 c)))
(desc (math-comp-descent (nth 1 c)))
(oldv math-comp-vpos)
(oldh (prog1
math-comp-hpos
(math-comp-simplify-term (nth 1 c))))
(math-comp-vpos (+ math-comp-vpos (+ asc desc))))
(math-comp-simplify-term (nth 2 c))
(if math-comp-sel-hpos
(math-comp-add-string-sel oldh oldv
(- math-comp-hpos oldh)
(math-comp-height c)))))
((eq (car c) 'tag)
(cond ((eq (nth 1 c) math-comp-selected)
(let ((math-comp-highlight (not calc-show-selections)))
(math-comp-simplify-term (nth 2 c))))
((eq (nth 1 c) t)
(let ((math-comp-highlight nil))
(math-comp-simplify-term (nth 2 c))))
(t (let ((math-comp-tag c))
(math-comp-simplify-term (nth 2 c))))))))
;;; Measuring a composition.
(defun math-comp-first-char (c)
(cond ((stringp c)
(and (> (length c) 0)
(elt c 0)))
((memq (car c) '(horiz subscr supscr))
(while (and (setq c (cdr c))
(math-comp-is-null (car c))))
(and c (math-comp-first-char (car c))))
((eq (car c) 'tag)
(math-comp-first-char (nth 2 c)))))
(defun math-comp-first-string (c)
(cond ((stringp c)
(and (> (length c) 0)
c))
((eq (car c) 'horiz)
(while (and (setq c (cdr c))
(math-comp-is-null (car c))))
(and c (math-comp-first-string (car c))))
((eq (car c) 'tag)
(math-comp-first-string (nth 2 c)))))
(defun math-comp-last-char (c)
(cond ((stringp c)
(and (> (length c) 0)
(elt c (1- (length c)))))
((eq (car c) 'horiz)
(let ((c (reverse (cdr c))))
(while (and c (math-comp-is-null (car c)))
(setq c (cdr c)))
(and c (math-comp-last-char (car c)))))
((eq (car c) 'tag)
(math-comp-last-char (nth 2 c)))))
(defun math-comp-is-null (c)
(cond ((stringp c) (= (length c) 0))
((memq (car c) '(horiz subscr supscr))
(while (and (setq c (cdr c))
(math-comp-is-null (car c))))
(null c))
((eq (car c) 'tag)
(math-comp-is-null (nth 2 c)))
((memq (car c) '(set break)) t)))
(defun math-comp-width (c)
(cond ((not (consp c)) (length c))
((memq (car c) '(horiz subscr supscr))
(let ((accum 0))
(while (setq c (cdr c))
(setq accum (+ accum (math-comp-width (car c)))))
accum))
((memq (car c) '(vcent vleft vright))
(setq c (cdr c))
(let ((accum 0))
(while (setq c (cdr c))
(setq accum (max accum (math-comp-width (car c)))))
accum))
((eq (car c) 'tag)
(math-comp-width (nth 2 c)))
(t 0)))
(defun math-comp-height (c)
(if (stringp c)
1
(+ (math-comp-ascent c) (math-comp-descent c))))
(defun math-comp-ascent (c)
(cond ((not (consp c)) 1)
((eq (car c) 'horiz)
(let ((accum 0))
(while (setq c (cdr c))
(setq accum (max accum (math-comp-ascent (car c)))))
accum))
((memq (car c) '(vcent vleft vright))
(if (> (nth 1 c) 0) (1+ (nth 1 c)) 1))
((eq (car c) 'supscr)
(max (math-comp-ascent (nth 1 c)) (1+ (math-comp-height (nth 2 c)))))
((eq (car c) 'subscr)
(math-comp-ascent (nth 1 c)))
((eq (car c) 'tag)
(math-comp-ascent (nth 2 c)))
(t 1)))
(defun math-comp-descent (c)
(cond ((not (consp c)) 0)
((eq (car c) 'horiz)
(let ((accum 0))
(while (setq c (cdr c))
(setq accum (max accum (math-comp-descent (car c)))))
accum))
((memq (car c) '(vcent vleft vright))
(let ((accum (- (nth 1 c))))
(setq c (cdr c))
(while (setq c (cdr c))
(setq accum (+ accum (math-comp-height (car c)))))
(max (1- accum) 0)))
((eq (car c) 'supscr)
(math-comp-descent (nth 1 c)))
((eq (car c) 'subscr)
(+ (math-comp-descent (nth 1 c)) (math-comp-height (nth 2 c))))
((eq (car c) 'tag)
(math-comp-descent (nth 2 c)))
(t 0)))
(defun calcFunc-cwidth (a &optional prec)
(if (and prec (not (integerp prec))) (math-reject-arg prec 'fixnump))
(math-comp-width (math-compose-expr a (or prec 0))))
(defun calcFunc-cheight (a &optional prec)
(if (and prec (not (integerp prec))) (math-reject-arg prec 'fixnump))
(if (and (memq (car a) '(calcFunc-cvspace calcFunc-ctspace calcFunc-cbspace))
(memq (length a) '(2 3))
(eq (nth 1 a) 0))
0
(math-comp-height (math-compose-expr a (or prec 0)))))
(defun calcFunc-cascent (a &optional prec)
(if (and prec (not (integerp prec))) (math-reject-arg prec 'fixnump))
(if (and (memq (car a) '(calcFunc-cvspace calcFunc-ctspace calcFunc-cbspace))
(memq (length a) '(2 3))
(eq (nth 1 a) 0))
0
(math-comp-ascent (math-compose-expr a (or prec 0)))))
(defun calcFunc-cdescent (a &optional prec)
(if (and prec (not (integerp prec))) (math-reject-arg prec 'fixnump))
(math-comp-descent (math-compose-expr a (or prec 0))))
;;; Convert a simplified composition into string form.
(defun math-vert-comp-to-string (c)
(if (stringp c)
c
(math-vert-comp-to-string-step (cdr (cdr c)))))
(defun math-vert-comp-to-string-step (c)
(if (cdr c)
(concat (car c) "\n" (math-vert-comp-to-string-step (cdr c)))
(car c)))
;;; Convert a composition to a string in "raw" form (for debugging).
(defun math-comp-to-string-raw (c indent)
(cond ((or (not (consp c)) (eq (car c) 'set))
(prin1-to-string c))
((null (cdr c))
(concat "(" (symbol-name (car c)) ")"))
(t
(let ((next-indent (+ indent 2 (length (symbol-name (car c))))))
(concat "("
(symbol-name (car c))
" "
(math-comp-to-string-raw (nth 1 c) next-indent)
(math-comp-to-string-raw-step (cdr (cdr c))
next-indent)
")")))))
(defun math-comp-to-string-raw-step (cl indent)
(if cl
(concat "\n"
(make-string indent 32)
(math-comp-to-string-raw (car cl) indent)
(math-comp-to-string-raw-step (cdr cl) indent))
""))
(provide 'calccomp)
;; Local variables:
;; coding: utf-8
;; End:
;;; calccomp.el ends here