mirror of
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1306 lines
39 KiB
EmacsLisp
1306 lines
39 KiB
EmacsLisp
;; Calculator for GNU Emacs, part II [calc-map.el]
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;; Copyright (C) 1990, 1991, 1992, 1993 Free Software Foundation, Inc.
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;; Written by Dave Gillespie, daveg@synaptics.com.
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;; This file is part of GNU Emacs.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY. No author or distributor
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;; accepts responsibility to anyone for the consequences of using it
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;; or for whether it serves any particular purpose or works at all,
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;; unless he says so in writing. Refer to the GNU Emacs General Public
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;; License for full details.
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;; Everyone is granted permission to copy, modify and redistribute
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;; GNU Emacs, but only under the conditions described in the
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;; GNU Emacs General Public License. A copy of this license is
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;; supposed to have been given to you along with GNU Emacs so you
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;; can know your rights and responsibilities. It should be in a
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;; file named COPYING. Among other things, the copyright notice
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;; and this notice must be preserved on all copies.
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;; This file is autoloaded from calc-ext.el.
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(require 'calc-ext)
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(require 'calc-macs)
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(defun calc-Need-calc-map () nil)
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(defun calc-apply (&optional oper)
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(interactive)
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(calc-wrapper
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(let* ((sel-mode nil)
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(calc-dollar-values (mapcar 'calc-get-stack-element
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(nthcdr calc-stack-top calc-stack)))
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(calc-dollar-used 0)
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(oper (or oper (calc-get-operator "Apply"
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(if (math-vectorp (calc-top 1))
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(1- (length (calc-top 1)))
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-1))))
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(expr (calc-top-n (1+ calc-dollar-used))))
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(message "Working...")
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(calc-set-command-flag 'clear-message)
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(calc-enter-result (1+ calc-dollar-used)
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(concat (substring "apl" 0 (- 4 (length (nth 2 oper))))
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(nth 2 oper))
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(list 'calcFunc-apply
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(math-calcFunc-to-var (nth 1 oper))
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expr))))
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)
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(defun calc-reduce (&optional oper accum)
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(interactive)
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(calc-wrapper
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(let* ((sel-mode nil)
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(nest (calc-is-hyperbolic))
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(rev (calc-is-inverse))
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(nargs (if (and nest (not rev)) 2 1))
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(calc-dollar-values (mapcar 'calc-get-stack-element
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(nthcdr calc-stack-top calc-stack)))
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(calc-dollar-used 0)
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(calc-mapping-dir (and (not accum) (not nest) ""))
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(oper (or oper (calc-get-operator
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(if nest
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(concat (if accum "Accumulate " "")
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(if rev "Fixed Point" "Nest"))
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(concat (if rev "Inv " "")
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(if accum "Accumulate" "Reduce")))
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(if nest 1 2)))))
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(message "Working...")
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(calc-set-command-flag 'clear-message)
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(calc-enter-result (+ calc-dollar-used nargs)
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(concat (substring (if nest
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(if rev "fxp" "nst")
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(if accum "acc" "red"))
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0 (- 4 (length (nth 2 oper))))
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(nth 2 oper))
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(if nest
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(cons (if rev
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(if accum 'calcFunc-afixp 'calcFunc-fixp)
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(if accum 'calcFunc-anest 'calcFunc-nest))
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(cons (math-calcFunc-to-var (nth 1 oper))
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(calc-top-list-n
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nargs (1+ calc-dollar-used))))
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(list (if accum
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(if rev 'calcFunc-raccum 'calcFunc-accum)
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(intern (concat "calcFunc-"
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(if rev "r" "")
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"reduce"
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calc-mapping-dir)))
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(math-calcFunc-to-var (nth 1 oper))
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(calc-top-n (1+ calc-dollar-used)))))))
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)
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(defun calc-accumulate (&optional oper)
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(interactive)
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(calc-reduce oper t)
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)
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(defun calc-map (&optional oper)
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(interactive)
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(calc-wrapper
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(let* ((sel-mode nil)
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(calc-dollar-values (mapcar 'calc-get-stack-element
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(nthcdr calc-stack-top calc-stack)))
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(calc-dollar-used 0)
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(calc-mapping-dir "")
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(oper (or oper (calc-get-operator "Map")))
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(nargs (car oper)))
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(message "Working...")
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(calc-set-command-flag 'clear-message)
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(calc-enter-result (+ nargs calc-dollar-used)
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(concat (substring "map" 0 (- 4 (length (nth 2 oper))))
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(nth 2 oper))
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(cons (intern (concat "calcFunc-map" calc-mapping-dir))
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(cons (math-calcFunc-to-var (nth 1 oper))
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(calc-top-list-n
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nargs
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(1+ calc-dollar-used)))))))
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)
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(defun calc-map-equation (&optional oper)
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(interactive)
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(calc-wrapper
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(let* ((sel-mode nil)
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(calc-dollar-values (mapcar 'calc-get-stack-element
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(nthcdr calc-stack-top calc-stack)))
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(calc-dollar-used 0)
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(oper (or oper (calc-get-operator "Map-equation")))
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(nargs (car oper)))
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(message "Working...")
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(calc-set-command-flag 'clear-message)
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(calc-enter-result (+ nargs calc-dollar-used)
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(concat (substring "map" 0 (- 4 (length (nth 2 oper))))
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(nth 2 oper))
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(cons (if (calc-is-inverse)
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'calcFunc-mapeqr
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(if (calc-is-hyperbolic)
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'calcFunc-mapeqp 'calcFunc-mapeq))
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(cons (math-calcFunc-to-var (nth 1 oper))
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(calc-top-list-n
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nargs
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(1+ calc-dollar-used)))))))
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)
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(defun calc-map-stack ()
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"This is meant to be called by calc-keypad mode."
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(interactive)
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(let ((calc-verify-arglist nil))
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(calc-unread-command ?\$)
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(calc-map))
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)
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(defun calc-outer-product (&optional oper)
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(interactive)
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(calc-wrapper
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(let* ((sel-mode nil)
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(calc-dollar-values (mapcar 'calc-get-stack-element
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(nthcdr calc-stack-top calc-stack)))
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(calc-dollar-used 0)
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(oper (or oper (calc-get-operator "Outer" 2))))
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(message "Working...")
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(calc-set-command-flag 'clear-message)
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(calc-enter-result (+ 2 calc-dollar-used)
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(concat (substring "out" 0 (- 4 (length (nth 2 oper))))
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(nth 2 oper))
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(cons 'calcFunc-outer
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(cons (math-calcFunc-to-var (nth 1 oper))
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(calc-top-list-n
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2 (1+ calc-dollar-used)))))))
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)
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(defun calc-inner-product (&optional mul-oper add-oper)
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(interactive)
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(calc-wrapper
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(let* ((sel-mode nil)
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(calc-dollar-values (mapcar 'calc-get-stack-element
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(nthcdr calc-stack-top calc-stack)))
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(calc-dollar-used 0)
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(mul-oper (or mul-oper (calc-get-operator "Inner (Mult)" 2)))
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(mul-used calc-dollar-used)
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(calc-dollar-values (if (> mul-used 0)
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(cdr calc-dollar-values)
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calc-dollar-values))
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(calc-dollar-used 0)
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(add-oper (or add-oper (calc-get-operator "Inner (Add)" 2))))
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(message "Working...")
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(calc-set-command-flag 'clear-message)
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(calc-enter-result (+ 2 mul-used calc-dollar-used)
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(concat "in"
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(substring (nth 2 mul-oper) 0 1)
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(substring (nth 2 add-oper) 0 1))
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(nconc (list 'calcFunc-inner
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(math-calcFunc-to-var (nth 1 mul-oper))
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(math-calcFunc-to-var (nth 1 add-oper)))
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(calc-top-list-n
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2 (+ 1 mul-used calc-dollar-used))))))
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)
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;;; Return a list of the form (nargs func name)
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(defun calc-get-operator (msg &optional nargs)
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(setq calc-aborted-prefix nil)
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(let ((inv nil) (hyp nil) (prefix nil) (forcenargs nil)
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done key oper (which 0)
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(msgs '( "(Press ? for help)"
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"+, -, *, /, ^, %, \\, :, &, !, |, Neg"
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"SHIFT + Abs, conJ, arG; maX, miN; Floor, Round; sQrt"
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"SHIFT + Inv, Hyp; Sin, Cos, Tan; Exp, Ln, logB"
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"Algebra + Simp, Esimp, Deriv, Integ, !, =, etc."
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"Binary + And, Or, Xor, Diff; l/r/t/L/R shifts; Not, Clip"
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"Conversions + Deg, Rad, HMS; Float; SHIFT + Fraction"
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"Functions + Re, Im; Hypot; Mant, Expon, Scale; etc."
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"Kombinatorics + Dfact, Lcm, Gcd, Choose; Random; etc."
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"Time/date + newYear, Incmonth, etc."
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"Vectors + Length, Row, Col, Diag, Mask, etc."
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"_ = mapr/reducea, : = mapc/reduced, = = reducer"
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"X or Z = any function by name; ' = alg entry; $ = stack")))
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(while (not done)
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(message "%s%s: %s: %s%s%s"
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msg
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(cond ((equal calc-mapping-dir "r") " rows")
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((equal calc-mapping-dir "c") " columns")
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((equal calc-mapping-dir "a") " across")
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((equal calc-mapping-dir "d") " down")
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(t ""))
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(if forcenargs
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(format "(%d arg%s)"
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forcenargs (if (= forcenargs 1) "" "s"))
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(nth which msgs))
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(if inv "Inv " "") (if hyp "Hyp " "")
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(if prefix (concat (char-to-string prefix) "-") ""))
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(setq key (read-char))
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(if (>= key 128) (setq key (- key 128)))
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(cond ((memq key '(?\C-g ?q))
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(keyboard-quit))
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((memq key '(?\C-u ?\e)))
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((= key ??)
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(setq which (% (1+ which) (length msgs))))
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((and (= key ?I) (null prefix))
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(setq inv (not inv)))
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((and (= key ?H) (null prefix))
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(setq hyp (not hyp)))
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((and (eq key prefix) (not (eq key ?v)))
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(setq prefix nil))
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((and (memq key '(?a ?b ?c ?f ?k ?s ?t ?u ?v ?V))
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(null prefix))
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(setq prefix (downcase key)))
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((and (eq key ?\=) (null prefix))
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(if calc-mapping-dir
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(setq calc-mapping-dir (if (equal calc-mapping-dir "r")
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"" "r"))
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(beep)))
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((and (eq key ?\_) (null prefix))
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(if calc-mapping-dir
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(if (string-match "map$" msg)
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(setq calc-mapping-dir (if (equal calc-mapping-dir "r")
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"" "r"))
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(setq calc-mapping-dir (if (equal calc-mapping-dir "a")
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"" "a")))
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(beep)))
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((and (eq key ?\:) (null prefix))
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(if calc-mapping-dir
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(if (string-match "map$" msg)
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(setq calc-mapping-dir (if (equal calc-mapping-dir "c")
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"" "c"))
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(setq calc-mapping-dir (if (equal calc-mapping-dir "d")
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"" "d")))
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(beep)))
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((and (>= key ?0) (<= key ?9) (null prefix))
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(setq forcenargs (if (eq forcenargs (- key ?0)) nil (- key ?0)))
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(and nargs forcenargs (/= nargs forcenargs) (>= nargs 0)
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(error "Must be a %d-argument operator" nargs)))
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((memq key '(?\$ ?\'))
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(let* ((arglist nil)
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(has-args nil)
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(record-entry nil)
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(expr (if (eq key ?\$)
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(progn
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(setq calc-dollar-used 1)
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(if calc-dollar-values
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(car calc-dollar-values)
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(error "Stack underflow")))
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(let* ((calc-dollar-values calc-arg-values)
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(calc-dollar-used 0)
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(calc-hashes-used 0)
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(func (calc-do-alg-entry "" "Function: ")))
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(setq record-entry t)
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(or (= (length func) 1)
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(error "Bad format"))
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(if (> calc-dollar-used 0)
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(progn
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(setq has-args calc-dollar-used
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arglist (calc-invent-args has-args))
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(math-multi-subst (car func)
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(reverse arglist)
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arglist))
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(if (> calc-hashes-used 0)
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(setq has-args calc-hashes-used
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arglist (calc-invent-args has-args)))
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(car func))))))
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(if (eq (car-safe expr) 'calcFunc-lambda)
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(setq oper (list "$" (- (length expr) 2) expr)
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done t)
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(or has-args
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(progn
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(calc-default-formula-arglist expr)
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(setq record-entry t
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arglist (sort arglist 'string-lessp))
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(if calc-verify-arglist
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(setq arglist (read-from-minibuffer
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"Function argument list: "
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(if arglist
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(prin1-to-string arglist)
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"()")
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minibuffer-local-map
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t)))
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(setq arglist (mapcar (function
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(lambda (x)
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(list 'var
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x
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(intern
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(concat
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"var-"
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(symbol-name x))))))
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arglist))))
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(setq oper (list "$"
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(length arglist)
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(append '(calcFunc-lambda) arglist
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(list expr)))
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done t))
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(if record-entry
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(calc-record (nth 2 oper) "oper"))))
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((setq oper (assq key (nth (if inv (if hyp 3 1) (if hyp 2 0))
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(if prefix
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(symbol-value
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(intern (format "calc-%c-oper-keys"
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prefix)))
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calc-oper-keys))))
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(if (eq (nth 1 oper) 'user)
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(let ((func (intern
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(completing-read "Function name: "
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obarray 'fboundp
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nil "calcFunc-"))))
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(if (or forcenargs nargs)
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(setq oper (list "z" (or forcenargs nargs) func)
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done t)
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(if (fboundp func)
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(let* ((defn (symbol-function func)))
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(and (symbolp defn)
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(setq defn (symbol-function defn)))
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(if (eq (car-safe defn) 'lambda)
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(let ((args (nth 1 defn))
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(nargs 0))
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(while (not (memq (car args) '(&optional
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&rest nil)))
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(setq nargs (1+ nargs)
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args (cdr args)))
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(setq oper (list "z" nargs func)
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done t))
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(error
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"Function is not suitable for this operation")))
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(message "Number of arguments: ")
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(let ((nargs (read-char)))
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(if (and (>= nargs ?0) (<= nargs ?9))
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(setq oper (list "z" (- nargs ?0) func)
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done t)
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(beep))))))
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(if (or (and (eq prefix ?v) (memq key '(?A ?I ?M ?O ?R ?U)))
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(and (eq prefix ?a) (eq key ?M)))
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(let* ((dir (cond ((and (equal calc-mapping-dir "")
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(string-match "map$" msg))
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(setq calc-mapping-dir "r")
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" rows")
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((equal calc-mapping-dir "r") " rows")
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((equal calc-mapping-dir "c") " columns")
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((equal calc-mapping-dir "a") " across")
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((equal calc-mapping-dir "d") " down")
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(t "")))
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(calc-mapping-dir (and (memq (nth 2 oper)
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'(calcFunc-map
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calcFunc-reduce
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calcFunc-rreduce))
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""))
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(oper2 (calc-get-operator
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(format "%s%s, %s%s" msg dir
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(substring (symbol-name (nth 2 oper))
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9)
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(if (eq key ?I) " (mult)" ""))
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(cdr (assq (nth 2 oper)
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'((calcFunc-reduce . 2)
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(calcFunc-rreduce . 2)
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(calcFunc-accum . 2)
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(calcFunc-raccum . 2)
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(calcFunc-nest . 2)
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(calcFunc-anest . 2)
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(calcFunc-fixp . 2)
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(calcFunc-afixp . 2))))))
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(oper3 (if (eq (nth 2 oper) 'calcFunc-inner)
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(calc-get-operator
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(format "%s%s, inner (add)" msg dir
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(substring
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(symbol-name (nth 2 oper))
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9)))
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'(0 0 0)))
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(args nil)
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(nargs (if (> (nth 1 oper) 0)
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(nth 1 oper)
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(car oper2)))
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(n nargs)
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(p calc-arg-values))
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(while (and p (> n 0))
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(or (math-expr-contains (nth 1 oper2) (car p))
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(math-expr-contains (nth 1 oper3) (car p))
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(setq args (nconc args (list (car p)))
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n (1- n)))
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(setq p (cdr p)))
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(setq oper (list "" nargs
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(append
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'(calcFunc-lambda)
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args
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(list (math-build-call
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(intern
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(concat
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(symbol-name (nth 2 oper))
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calc-mapping-dir))
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(cons (math-calcFunc-to-var
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(nth 1 oper2))
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(if (eq key ?I)
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(cons
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(math-calcFunc-to-var
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(nth 1 oper3))
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args)
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args))))))
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done t))
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(setq done t))))
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(t (beep))))
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(and nargs (>= nargs 0)
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(/= nargs (nth 1 oper))
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(error "Must be a %d-argument operator" nargs))
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(append (if forcenargs
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(cons forcenargs (cdr (cdr oper)))
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(cdr oper))
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(list
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(let ((name (concat (if inv "I" "") (if hyp "H" "")
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(if prefix (char-to-string prefix) "")
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(char-to-string key))))
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(if (> (length name) 3)
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(substring name 0 3)
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name)))))
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)
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(setq calc-verify-arglist t)
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(setq calc-mapping-dir nil)
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(defconst calc-oper-keys '( ( ( ?+ 2 calcFunc-add )
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( ?- 2 calcFunc-sub )
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( ?* 2 calcFunc-mul )
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( ?/ 2 calcFunc-div )
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( ?^ 2 calcFunc-pow )
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( ?| 2 calcFunc-vconcat )
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( ?% 2 calcFunc-mod )
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( ?\\ 2 calcFunc-idiv )
|
|
( ?! 1 calcFunc-fact )
|
|
( ?& 1 calcFunc-inv )
|
|
( ?n 1 calcFunc-neg )
|
|
( ?x user )
|
|
( ?z user )
|
|
( ?A 1 calcFunc-abs )
|
|
( ?J 1 calcFunc-conj )
|
|
( ?G 1 calcFunc-arg )
|
|
( ?Q 1 calcFunc-sqrt )
|
|
( ?N 2 calcFunc-min )
|
|
( ?X 2 calcFunc-max )
|
|
( ?F 1 calcFunc-floor )
|
|
( ?R 1 calcFunc-round )
|
|
( ?S 1 calcFunc-sin )
|
|
( ?C 1 calcFunc-cos )
|
|
( ?T 1 calcFunc-tan )
|
|
( ?L 1 calcFunc-ln )
|
|
( ?E 1 calcFunc-exp )
|
|
( ?B 2 calcFunc-log ) )
|
|
( ( ?F 1 calcFunc-ceil ) ; inverse
|
|
( ?R 1 calcFunc-trunc )
|
|
( ?Q 1 calcFunc-sqr )
|
|
( ?S 1 calcFunc-arcsin )
|
|
( ?C 1 calcFunc-arccos )
|
|
( ?T 1 calcFunc-arctan )
|
|
( ?L 1 calcFunc-exp )
|
|
( ?E 1 calcFunc-ln )
|
|
( ?B 2 calcFunc-alog )
|
|
( ?^ 2 calcFunc-nroot )
|
|
( ?| 2 calcFunc-vconcatrev ) )
|
|
( ( ?F 1 calcFunc-ffloor ) ; hyperbolic
|
|
( ?R 1 calcFunc-fround )
|
|
( ?S 1 calcFunc-sinh )
|
|
( ?C 1 calcFunc-cosh )
|
|
( ?T 1 calcFunc-tanh )
|
|
( ?L 1 calcFunc-log10 )
|
|
( ?E 1 calcFunc-exp10 )
|
|
( ?| 2 calcFunc-append ) )
|
|
( ( ?F 1 calcFunc-fceil ) ; inverse-hyperbolic
|
|
( ?R 1 calcFunc-ftrunc )
|
|
( ?S 1 calcFunc-arcsinh )
|
|
( ?C 1 calcFunc-arccosh )
|
|
( ?T 1 calcFunc-arctanh )
|
|
( ?L 1 calcFunc-exp10 )
|
|
( ?E 1 calcFunc-log10 )
|
|
( ?| 2 calcFunc-appendrev ) )
|
|
))
|
|
(defconst calc-a-oper-keys '( ( ( ?a 3 calcFunc-apart )
|
|
( ?b 3 calcFunc-subst )
|
|
( ?c 2 calcFunc-collect )
|
|
( ?d 2 calcFunc-deriv )
|
|
( ?e 1 calcFunc-esimplify )
|
|
( ?f 2 calcFunc-factor )
|
|
( ?g 2 calcFunc-pgcd )
|
|
( ?i 2 calcFunc-integ )
|
|
( ?m 2 calcFunc-match )
|
|
( ?n 1 calcFunc-nrat )
|
|
( ?r 2 calcFunc-rewrite )
|
|
( ?s 1 calcFunc-simplify )
|
|
( ?t 3 calcFunc-taylor )
|
|
( ?x 1 calcFunc-expand )
|
|
( ?M 2 calcFunc-mapeq )
|
|
( ?N 3 calcFunc-minimize )
|
|
( ?P 2 calcFunc-roots )
|
|
( ?R 3 calcFunc-root )
|
|
( ?S 2 calcFunc-solve )
|
|
( ?T 4 calcFunc-table )
|
|
( ?X 3 calcFunc-maximize )
|
|
( ?= 2 calcFunc-eq )
|
|
( ?\# 2 calcFunc-neq )
|
|
( ?< 2 calcFunc-lt )
|
|
( ?> 2 calcFunc-gt )
|
|
( ?\[ 2 calcFunc-leq )
|
|
( ?\] 2 calcFunc-geq )
|
|
( ?{ 2 calcFunc-in )
|
|
( ?! 1 calcFunc-lnot )
|
|
( ?& 2 calcFunc-land )
|
|
( ?\| 2 calcFunc-lor )
|
|
( ?: 3 calcFunc-if )
|
|
( ?. 2 calcFunc-rmeq )
|
|
( ?+ 4 calcFunc-sum )
|
|
( ?- 4 calcFunc-asum )
|
|
( ?* 4 calcFunc-prod )
|
|
( ?_ 2 calcFunc-subscr )
|
|
( ?\\ 2 calcFunc-pdiv )
|
|
( ?% 2 calcFunc-prem )
|
|
( ?/ 2 calcFunc-pdivrem ) )
|
|
( ( ?m 2 calcFunc-matchnot )
|
|
( ?M 2 calcFunc-mapeqr )
|
|
( ?S 2 calcFunc-finv ) )
|
|
( ( ?d 2 calcFunc-tderiv )
|
|
( ?f 2 calcFunc-factors )
|
|
( ?M 2 calcFunc-mapeqp )
|
|
( ?N 3 calcFunc-wminimize )
|
|
( ?R 3 calcFunc-wroot )
|
|
( ?S 2 calcFunc-fsolve )
|
|
( ?X 3 calcFunc-wmaximize )
|
|
( ?/ 2 calcFunc-pdivide ) )
|
|
( ( ?S 2 calcFunc-ffinv ) )
|
|
))
|
|
(defconst calc-b-oper-keys '( ( ( ?a 2 calcFunc-and )
|
|
( ?o 2 calcFunc-or )
|
|
( ?x 2 calcFunc-xor )
|
|
( ?d 2 calcFunc-diff )
|
|
( ?n 1 calcFunc-not )
|
|
( ?c 1 calcFunc-clip )
|
|
( ?l 2 calcFunc-lsh )
|
|
( ?r 2 calcFunc-rsh )
|
|
( ?L 2 calcFunc-ash )
|
|
( ?R 2 calcFunc-rash )
|
|
( ?t 2 calcFunc-rot )
|
|
( ?p 1 calcFunc-vpack )
|
|
( ?u 1 calcFunc-vunpack )
|
|
( ?D 4 calcFunc-ddb )
|
|
( ?F 3 calcFunc-fv )
|
|
( ?I 1 calcFunc-irr )
|
|
( ?M 3 calcFunc-pmt )
|
|
( ?N 2 calcFunc-npv )
|
|
( ?P 3 calcFunc-pv )
|
|
( ?S 3 calcFunc-sln )
|
|
( ?T 3 calcFunc-rate )
|
|
( ?Y 4 calcFunc-syd )
|
|
( ?\# 3 calcFunc-nper )
|
|
( ?\% 2 calcFunc-relch ) )
|
|
( ( ?F 3 calcFunc-fvb )
|
|
( ?I 1 calcFunc-irrb )
|
|
( ?M 3 calcFunc-pmtb )
|
|
( ?N 2 calcFunc-npvb )
|
|
( ?P 3 calcFunc-pvb )
|
|
( ?T 3 calcFunc-rateb )
|
|
( ?\# 3 calcFunc-nperb ) )
|
|
( ( ?F 3 calcFunc-fvl )
|
|
( ?M 3 calcFunc-pmtl )
|
|
( ?P 3 calcFunc-pvl )
|
|
( ?T 3 calcFunc-ratel )
|
|
( ?\# 3 calcFunc-nperl ) )
|
|
))
|
|
(defconst calc-c-oper-keys '( ( ( ?d 1 calcFunc-deg )
|
|
( ?r 1 calcFunc-rad )
|
|
( ?h 1 calcFunc-hms )
|
|
( ?f 1 calcFunc-float )
|
|
( ?F 1 calcFunc-frac ) )
|
|
))
|
|
(defconst calc-f-oper-keys '( ( ( ?b 2 calcFunc-beta )
|
|
( ?e 1 calcFunc-erf )
|
|
( ?g 1 calcFunc-gamma )
|
|
( ?h 2 calcFunc-hypot )
|
|
( ?i 1 calcFunc-im )
|
|
( ?j 2 calcFunc-besJ )
|
|
( ?n 2 calcFunc-min )
|
|
( ?r 1 calcFunc-re )
|
|
( ?s 1 calcFunc-sign )
|
|
( ?x 2 calcFunc-max )
|
|
( ?y 2 calcFunc-besY )
|
|
( ?A 1 calcFunc-abssqr )
|
|
( ?B 3 calcFunc-betaI )
|
|
( ?E 1 calcFunc-expm1 )
|
|
( ?G 2 calcFunc-gammaP )
|
|
( ?I 2 calcFunc-ilog )
|
|
( ?L 1 calcFunc-lnp1 )
|
|
( ?M 1 calcFunc-mant )
|
|
( ?Q 1 calcFunc-isqrt )
|
|
( ?S 1 calcFunc-scf )
|
|
( ?T 2 calcFunc-arctan2 )
|
|
( ?X 1 calcFunc-xpon )
|
|
( ?\[ 2 calcFunc-decr )
|
|
( ?\] 2 calcFunc-incr ) )
|
|
( ( ?e 1 calcFunc-erfc )
|
|
( ?E 1 calcFunc-lnp1 )
|
|
( ?G 2 calcFunc-gammaQ )
|
|
( ?L 1 calcFunc-expm1 ) )
|
|
( ( ?B 3 calcFunc-betaB )
|
|
( ?G 2 calcFunc-gammag) )
|
|
( ( ?G 2 calcFunc-gammaG ) )
|
|
))
|
|
(defconst calc-k-oper-keys '( ( ( ?b 1 calcFunc-bern )
|
|
( ?c 2 calcFunc-choose )
|
|
( ?d 1 calcFunc-dfact )
|
|
( ?e 1 calcFunc-euler )
|
|
( ?f 1 calcFunc-prfac )
|
|
( ?g 2 calcFunc-gcd )
|
|
( ?h 2 calcFunc-shuffle )
|
|
( ?l 2 calcFunc-lcm )
|
|
( ?m 1 calcFunc-moebius )
|
|
( ?n 1 calcFunc-nextprime )
|
|
( ?r 1 calcFunc-random )
|
|
( ?s 2 calcFunc-stir1 )
|
|
( ?t 1 calcFunc-totient )
|
|
( ?B 3 calcFunc-utpb )
|
|
( ?C 2 calcFunc-utpc )
|
|
( ?F 3 calcFunc-utpf )
|
|
( ?N 3 calcFunc-utpn )
|
|
( ?P 2 calcFunc-utpp )
|
|
( ?T 2 calcFunc-utpt ) )
|
|
( ( ?n 1 calcFunc-prevprime )
|
|
( ?B 3 calcFunc-ltpb )
|
|
( ?C 2 calcFunc-ltpc )
|
|
( ?F 3 calcFunc-ltpf )
|
|
( ?N 3 calcFunc-ltpn )
|
|
( ?P 2 calcFunc-ltpp )
|
|
( ?T 2 calcFunc-ltpt ) )
|
|
( ( ?b 2 calcFunc-bern )
|
|
( ?c 2 calcFunc-perm )
|
|
( ?e 2 calcFunc-euler )
|
|
( ?s 2 calcFunc-stir2 ) )
|
|
))
|
|
(defconst calc-s-oper-keys '( ( ( ?: 2 calcFunc-assign )
|
|
( ?= 1 calcFunc-evalto ) )
|
|
))
|
|
(defconst calc-t-oper-keys '( ( ( ?C 3 calcFunc-tzconv )
|
|
( ?D 1 calcFunc-date )
|
|
( ?I 2 calcFunc-incmonth )
|
|
( ?J 1 calcFunc-julian )
|
|
( ?M 1 calcFunc-newmonth )
|
|
( ?W 1 calcFunc-newweek )
|
|
( ?U 1 calcFunc-unixtime )
|
|
( ?Y 1 calcFunc-newyear ) )
|
|
))
|
|
(defconst calc-u-oper-keys '( ( ( ?C 2 calcFunc-vcov )
|
|
( ?G 1 calcFunc-vgmean )
|
|
( ?M 1 calcFunc-vmean )
|
|
( ?N 1 calcFunc-vmin )
|
|
( ?S 1 calcFunc-vsdev )
|
|
( ?X 1 calcFunc-vmax ) )
|
|
( ( ?C 2 calcFunc-vpcov )
|
|
( ?M 1 calcFunc-vmeane )
|
|
( ?S 1 calcFunc-vpsdev ) )
|
|
( ( ?C 2 calcFunc-vcorr )
|
|
( ?G 1 calcFunc-agmean )
|
|
( ?M 1 calcFunc-vmedian )
|
|
( ?S 1 calcFunc-vvar ) )
|
|
( ( ?M 1 calcFunc-vhmean )
|
|
( ?S 1 calcFunc-vpvar ) )
|
|
))
|
|
(defconst calc-v-oper-keys '( ( ( ?a 2 calcFunc-arrange )
|
|
( ?b 2 calcFunc-cvec )
|
|
( ?c 2 calcFunc-mcol )
|
|
( ?d 2 calcFunc-diag )
|
|
( ?e 2 calcFunc-vexp )
|
|
( ?f 2 calcFunc-find )
|
|
( ?h 1 calcFunc-head )
|
|
( ?k 2 calcFunc-cons )
|
|
( ?l 1 calcFunc-vlen )
|
|
( ?m 2 calcFunc-vmask )
|
|
( ?n 1 calcFunc-rnorm )
|
|
( ?p 2 calcFunc-pack )
|
|
( ?r 2 calcFunc-mrow )
|
|
( ?s 3 calcFunc-subvec )
|
|
( ?t 1 calcFunc-trn )
|
|
( ?u 1 calcFunc-unpack )
|
|
( ?v 1 calcFunc-rev )
|
|
( ?x 1 calcFunc-index )
|
|
( ?A 1 calcFunc-apply )
|
|
( ?C 1 calcFunc-cross )
|
|
( ?D 1 calcFunc-det )
|
|
( ?E 1 calcFunc-venum )
|
|
( ?F 1 calcFunc-vfloor )
|
|
( ?G 1 calcFunc-grade )
|
|
( ?H 2 calcFunc-histogram )
|
|
( ?I 2 calcFunc-inner )
|
|
( ?L 1 calcFunc-lud )
|
|
( ?M 0 calcFunc-map )
|
|
( ?N 1 calcFunc-cnorm )
|
|
( ?O 2 calcFunc-outer )
|
|
( ?R 1 calcFunc-reduce )
|
|
( ?S 1 calcFunc-sort )
|
|
( ?T 1 calcFunc-tr )
|
|
( ?U 1 calcFunc-accum )
|
|
( ?V 2 calcFunc-vunion )
|
|
( ?X 2 calcFunc-vxor )
|
|
( ?- 2 calcFunc-vdiff )
|
|
( ?^ 2 calcFunc-vint )
|
|
( ?~ 1 calcFunc-vcompl )
|
|
( ?# 1 calcFunc-vcard )
|
|
( ?: 1 calcFunc-vspan )
|
|
( ?+ 1 calcFunc-rdup ) )
|
|
( ( ?h 1 calcFunc-tail )
|
|
( ?s 3 calcFunc-rsubvec )
|
|
( ?G 1 calcFunc-rgrade )
|
|
( ?R 1 calcFunc-rreduce )
|
|
( ?S 1 calcFunc-rsort )
|
|
( ?U 1 calcFunc-raccum ) )
|
|
( ( ?e 3 calcFunc-vexp )
|
|
( ?h 1 calcFunc-rhead )
|
|
( ?k 2 calcFunc-rcons )
|
|
( ?H 3 calcFunc-histogram )
|
|
( ?R 2 calcFunc-nest )
|
|
( ?U 2 calcFunc-anest ) )
|
|
( ( ?h 1 calcFunc-rtail )
|
|
( ?R 1 calcFunc-fixp )
|
|
( ?U 1 calcFunc-afixp ) )
|
|
))
|
|
|
|
|
|
;;; Convert a variable name (as a formula) into a like-looking function name.
|
|
(defun math-var-to-calcFunc (f)
|
|
(if (eq (car-safe f) 'var)
|
|
(if (fboundp (nth 2 f))
|
|
(nth 2 f)
|
|
(intern (concat "calcFunc-" (symbol-name (nth 1 f)))))
|
|
(if (memq (car-safe f) '(lambda calcFunc-lambda))
|
|
f
|
|
(math-reject-arg f "*Expected a function name")))
|
|
)
|
|
|
|
;;; Convert a function name into a like-looking variable name formula.
|
|
(defun math-calcFunc-to-var (f)
|
|
(if (symbolp f)
|
|
(let* ((func (or (cdr (assq f '( ( + . calcFunc-add )
|
|
( - . calcFunc-sub )
|
|
( * . calcFunc-mul )
|
|
( / . calcFunc-div )
|
|
( ^ . calcFunc-pow )
|
|
( % . calcFunc-mod )
|
|
( neg . calcFunc-neg )
|
|
( | . calcFunc-vconcat ) )))
|
|
f))
|
|
(base (if (string-match "\\`calcFunc-\\(.+\\)\\'"
|
|
(symbol-name func))
|
|
(math-match-substring (symbol-name func) 1)
|
|
(symbol-name func))))
|
|
(list 'var
|
|
(intern base)
|
|
(intern (concat "var-" base))))
|
|
f)
|
|
)
|
|
|
|
;;; Expand a function call using "lambda" notation.
|
|
(defun math-build-call (f args)
|
|
(if (eq (car-safe f) 'calcFunc-lambda)
|
|
(if (= (length args) (- (length f) 2))
|
|
(math-multi-subst (nth (1- (length f)) f) (cdr f) args)
|
|
(calc-record-why "*Wrong number of arguments" f)
|
|
(cons 'calcFunc-call (cons (math-calcFunc-to-var f) args)))
|
|
(if (and (eq f 'calcFunc-neg)
|
|
(= (length args) 1))
|
|
(list 'neg (car args))
|
|
(let ((func (assq f '( ( calcFunc-add . + )
|
|
( calcFunc-sub . - )
|
|
( calcFunc-mul . * )
|
|
( calcFunc-div . / )
|
|
( calcFunc-pow . ^ )
|
|
( calcFunc-mod . % )
|
|
( calcFunc-vconcat . | ) ))))
|
|
(if (and func (= (length args) 2))
|
|
(cons (cdr func) args)
|
|
(cons f args)))))
|
|
)
|
|
|
|
;;; Do substitutions in parallel to avoid crosstalk.
|
|
(defun math-multi-subst (expr olds news)
|
|
(let ((args nil)
|
|
temp)
|
|
(while (and olds news)
|
|
(setq args (cons (cons (car olds) (car news)) args)
|
|
olds (cdr olds)
|
|
news (cdr news)))
|
|
(math-multi-subst-rec expr))
|
|
)
|
|
|
|
(defun math-multi-subst-rec (expr)
|
|
(cond ((setq temp (assoc expr args)) (cdr temp))
|
|
((Math-primp expr) expr)
|
|
((and (eq (car expr) 'calcFunc-lambda) (> (length expr) 2))
|
|
(let ((new (list (car expr)))
|
|
(args args))
|
|
(while (cdr (setq expr (cdr expr)))
|
|
(setq new (cons (car expr) new))
|
|
(if (assoc (car expr) args)
|
|
(setq args (cons (cons (car expr) (car expr)) args))))
|
|
(nreverse (cons (math-multi-subst-rec (car expr)) new))))
|
|
(t
|
|
(cons (car expr)
|
|
(mapcar 'math-multi-subst-rec (cdr expr)))))
|
|
)
|
|
|
|
(defun calcFunc-call (f &rest args)
|
|
(setq args (math-build-call (math-var-to-calcFunc f) args))
|
|
(if (eq (car-safe args) 'calcFunc-call)
|
|
args
|
|
(math-normalize args))
|
|
)
|
|
|
|
(defun calcFunc-apply (f args)
|
|
(or (Math-vectorp args)
|
|
(math-reject-arg args 'vectorp))
|
|
(apply 'calcFunc-call (cons f (cdr args)))
|
|
)
|
|
|
|
|
|
|
|
|
|
;;; Map a function over a vector symbolically. [Public]
|
|
(defun math-symb-map (f mode args)
|
|
(let* ((func (math-var-to-calcFunc f))
|
|
(nargs (length args))
|
|
(ptrs (vconcat args))
|
|
(vflags (make-vector nargs nil))
|
|
(heads '(vec))
|
|
(head nil)
|
|
(vec nil)
|
|
(i -1)
|
|
(math-working-step 0)
|
|
(math-working-step-2 nil)
|
|
len cols obj expr)
|
|
(if (eq mode 'eqn)
|
|
(setq mode 'elems
|
|
heads '(calcFunc-eq calcFunc-neq calcFunc-lt calcFunc-gt
|
|
calcFunc-leq calcFunc-geq))
|
|
(while (and (< (setq i (1+ i)) nargs)
|
|
(not (math-matrixp (aref ptrs i)))))
|
|
(if (< i nargs)
|
|
(if (eq mode 'elems)
|
|
(setq func (list 'lambda '(&rest x)
|
|
(list 'math-symb-map
|
|
(list 'quote f) '(quote elems) 'x))
|
|
mode 'rows)
|
|
(if (eq mode 'cols)
|
|
(while (< i nargs)
|
|
(if (math-matrixp (aref ptrs i))
|
|
(aset ptrs i (math-transpose (aref ptrs i))))
|
|
(setq i (1+ i)))))
|
|
(setq mode 'elems))
|
|
(setq i -1))
|
|
(while (< (setq i (1+ i)) nargs)
|
|
(setq obj (aref ptrs i))
|
|
(if (and (memq (car-safe obj) heads)
|
|
(or (eq mode 'elems)
|
|
(math-matrixp obj)))
|
|
(progn
|
|
(aset vflags i t)
|
|
(if head
|
|
(if (cdr heads)
|
|
(setq head (nth
|
|
(aref (aref [ [0 1 2 3 4 5]
|
|
[1 1 2 3 2 3]
|
|
[2 2 2 1 2 1]
|
|
[3 3 1 3 1 3]
|
|
[4 2 2 1 4 1]
|
|
[5 3 1 3 1 5] ]
|
|
(- 6 (length (memq head heads))))
|
|
(- 6 (length (memq (car obj) heads))))
|
|
heads)))
|
|
(setq head (car obj)))
|
|
(if len
|
|
(or (= (length obj) len)
|
|
(math-dimension-error))
|
|
(setq len (length obj))))))
|
|
(or len
|
|
(if (= nargs 1)
|
|
(math-reject-arg (aref ptrs 0) 'vectorp)
|
|
(math-reject-arg nil "At least one argument must be a vector")))
|
|
(setq math-working-step-2 (1- len))
|
|
(while (> (setq len (1- len)) 0)
|
|
(setq expr nil
|
|
i -1)
|
|
(while (< (setq i (1+ i)) nargs)
|
|
(if (aref vflags i)
|
|
(progn
|
|
(aset ptrs i (cdr (aref ptrs i)))
|
|
(setq expr (nconc expr (list (car (aref ptrs i))))))
|
|
(setq expr (nconc expr (list (aref ptrs i))))))
|
|
(setq math-working-step (1+ math-working-step)
|
|
vec (cons (math-normalize (math-build-call func expr)) vec)))
|
|
(setq vec (cons head (nreverse vec)))
|
|
(if (and (eq mode 'cols) (math-matrixp vec))
|
|
(math-transpose vec)
|
|
vec))
|
|
)
|
|
|
|
(defun calcFunc-map (func &rest args)
|
|
(math-symb-map func 'elems args)
|
|
)
|
|
|
|
(defun calcFunc-mapr (func &rest args)
|
|
(math-symb-map func 'rows args)
|
|
)
|
|
|
|
(defun calcFunc-mapc (func &rest args)
|
|
(math-symb-map func 'cols args)
|
|
)
|
|
|
|
(defun calcFunc-mapa (func arg)
|
|
(if (math-matrixp arg)
|
|
(math-symb-map func 'elems (cdr (math-transpose arg)))
|
|
(math-symb-map func 'elems arg))
|
|
)
|
|
|
|
(defun calcFunc-mapd (func arg)
|
|
(if (math-matrixp arg)
|
|
(math-symb-map func 'elems (cdr arg))
|
|
(math-symb-map func 'elems arg))
|
|
)
|
|
|
|
(defun calcFunc-mapeq (func &rest args)
|
|
(if (and (or (equal func '(var mul var-mul))
|
|
(equal func '(var div var-div)))
|
|
(= (length args) 2))
|
|
(if (math-negp (car args))
|
|
(let ((func (nth 1 (assq (car-safe (nth 1 args))
|
|
calc-tweak-eqn-table))))
|
|
(and func (setq args (list (car args)
|
|
(cons func (cdr (nth 1 args)))))))
|
|
(if (math-negp (nth 1 args))
|
|
(let ((func (nth 1 (assq (car-safe (car args))
|
|
calc-tweak-eqn-table))))
|
|
(and func (setq args (list (cons func (cdr (car args)))
|
|
(nth 1 args))))))))
|
|
(if (or (and (equal func '(var div var-div))
|
|
(assq (car-safe (nth 1 args)) calc-tweak-eqn-table))
|
|
(equal func '(var neg var-neg))
|
|
(equal func '(var inv var-inv)))
|
|
(apply 'calcFunc-mapeqr func args)
|
|
(apply 'calcFunc-mapeqp func args))
|
|
)
|
|
|
|
(defun calcFunc-mapeqr (func &rest args)
|
|
(setq args (mapcar (function (lambda (x)
|
|
(let ((func (assq (car-safe x)
|
|
calc-tweak-eqn-table)))
|
|
(if func
|
|
(cons (nth 1 func) (cdr x))
|
|
x))))
|
|
args))
|
|
(apply 'calcFunc-mapeqp func args)
|
|
)
|
|
|
|
(defun calcFunc-mapeqp (func &rest args)
|
|
(if (or (and (memq (car-safe (car args)) '(calcFunc-lt calcFunc-leq))
|
|
(memq (car-safe (nth 1 args)) '(calcFunc-gt calcFunc-geq)))
|
|
(and (memq (car-safe (car args)) '(calcFunc-gt calcFunc-geq))
|
|
(memq (car-safe (nth 1 args)) '(calcFunc-lt calcFunc-leq))))
|
|
(setq args (cons (car args)
|
|
(cons (list (nth 1 (assq (car (nth 1 args))
|
|
calc-tweak-eqn-table))
|
|
(nth 2 (nth 1 args))
|
|
(nth 1 (nth 1 args)))
|
|
(cdr (cdr args))))))
|
|
(math-symb-map func 'eqn args)
|
|
)
|
|
|
|
|
|
|
|
;;; Reduce a function over a vector symbolically. [Public]
|
|
(defun calcFunc-reduce (func vec)
|
|
(if (math-matrixp vec)
|
|
(let (expr row)
|
|
(setq func (math-var-to-calcFunc func))
|
|
(while (setq vec (cdr vec))
|
|
(setq row (car vec))
|
|
(while (setq row (cdr row))
|
|
(setq expr (if expr
|
|
(if (Math-numberp expr)
|
|
(math-normalize
|
|
(math-build-call func (list expr (car row))))
|
|
(math-build-call func (list expr (car row))))
|
|
(car row)))))
|
|
(math-normalize expr))
|
|
(calcFunc-reducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-rreduce (func vec)
|
|
(if (math-matrixp vec)
|
|
(let (expr row)
|
|
(setq func (math-var-to-calcFunc func)
|
|
vec (reverse (cdr vec)))
|
|
(while vec
|
|
(setq row (reverse (cdr (car vec))))
|
|
(while row
|
|
(setq expr (if expr
|
|
(math-build-call func (list (car row) expr))
|
|
(car row))
|
|
row (cdr row)))
|
|
(setq vec (cdr vec)))
|
|
(math-normalize expr))
|
|
(calcFunc-rreducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-reducer (func vec)
|
|
(setq func (math-var-to-calcFunc func))
|
|
(or (math-vectorp vec)
|
|
(math-reject-arg vec 'vectorp))
|
|
(let ((expr (car (setq vec (cdr vec)))))
|
|
(if expr
|
|
(progn
|
|
(condition-case err
|
|
(and (symbolp func)
|
|
(let ((lfunc (or (cdr (assq func
|
|
'( (calcFunc-add . math-add)
|
|
(calcFunc-sub . math-sub)
|
|
(calcFunc-mul . math-mul)
|
|
(calcFunc-div . math-div)
|
|
(calcFunc-pow . math-pow)
|
|
(calcFunc-mod . math-mod)
|
|
(calcFunc-vconcat .
|
|
math-concat) )))
|
|
lfunc)))
|
|
(while (cdr vec)
|
|
(setq expr (funcall lfunc expr (nth 1 vec))
|
|
vec (cdr vec)))))
|
|
(error nil))
|
|
(while (setq vec (cdr vec))
|
|
(setq expr (math-build-call func (list expr (car vec)))))
|
|
(math-normalize expr))
|
|
(or (math-identity-value func)
|
|
(math-reject-arg vec "*Vector is empty"))))
|
|
)
|
|
|
|
(defun math-identity-value (func)
|
|
(cdr (assq func '( (calcFunc-add . 0) (calcFunc-sub . 0)
|
|
(calcFunc-mul . 1) (calcFunc-div . 1)
|
|
(calcFunc-idiv . 1) (calcFunc-fdiv . 1)
|
|
(calcFunc-min . (var inf var-inf))
|
|
(calcFunc-max . (neg (var inf var-inf)))
|
|
(calcFunc-vconcat . (vec))
|
|
(calcFunc-append . (vec)) )))
|
|
)
|
|
|
|
(defun calcFunc-rreducer (func vec)
|
|
(setq func (math-var-to-calcFunc func))
|
|
(or (math-vectorp vec)
|
|
(math-reject-arg vec 'vectorp))
|
|
(if (eq func 'calcFunc-sub) ; do this in a way that looks nicer
|
|
(let ((expr (car (setq vec (cdr vec)))))
|
|
(if expr
|
|
(progn
|
|
(while (setq vec (cdr vec))
|
|
(setq expr (math-build-call func (list expr (car vec)))
|
|
func (if (eq func 'calcFunc-sub)
|
|
'calcFunc-add 'calcFunc-sub)))
|
|
(math-normalize expr))
|
|
0))
|
|
(let ((expr (car (setq vec (reverse (cdr vec))))))
|
|
(if expr
|
|
(progn
|
|
(while (setq vec (cdr vec))
|
|
(setq expr (math-build-call func (list (car vec) expr))))
|
|
(math-normalize expr))
|
|
(or (math-identity-value func)
|
|
(math-reject-arg vec "*Vector is empty")))))
|
|
)
|
|
|
|
(defun calcFunc-reducec (func vec)
|
|
(if (math-matrixp vec)
|
|
(calcFunc-reducer func (math-transpose vec))
|
|
(calcFunc-reducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-rreducec (func vec)
|
|
(if (math-matrixp vec)
|
|
(calcFunc-rreducer func (math-transpose vec))
|
|
(calcFunc-rreducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-reducea (func vec)
|
|
(if (math-matrixp vec)
|
|
(cons 'vec
|
|
(mapcar (function (lambda (x) (calcFunc-reducer func x)))
|
|
(cdr vec)))
|
|
(calcFunc-reducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-rreducea (func vec)
|
|
(if (math-matrixp vec)
|
|
(cons 'vec
|
|
(mapcar (function (lambda (x) (calcFunc-rreducer func x)))
|
|
(cdr vec)))
|
|
(calcFunc-rreducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-reduced (func vec)
|
|
(if (math-matrixp vec)
|
|
(cons 'vec
|
|
(mapcar (function (lambda (x) (calcFunc-reducer func x)))
|
|
(cdr (math-transpose vec))))
|
|
(calcFunc-reducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-rreduced (func vec)
|
|
(if (math-matrixp vec)
|
|
(cons 'vec
|
|
(mapcar (function (lambda (x) (calcFunc-rreducer func x)))
|
|
(cdr (math-transpose vec))))
|
|
(calcFunc-rreducer func vec))
|
|
)
|
|
|
|
(defun calcFunc-accum (func vec)
|
|
(setq func (math-var-to-calcFunc func))
|
|
(or (math-vectorp vec)
|
|
(math-reject-arg vec 'vectorp))
|
|
(let* ((expr (car (setq vec (cdr vec))))
|
|
(res (list 'vec expr)))
|
|
(or expr
|
|
(math-reject-arg vec "*Vector is empty"))
|
|
(while (setq vec (cdr vec))
|
|
(setq expr (math-build-call func (list expr (car vec)))
|
|
res (nconc res (list expr))))
|
|
(math-normalize res))
|
|
)
|
|
|
|
(defun calcFunc-raccum (func vec)
|
|
(setq func (math-var-to-calcFunc func))
|
|
(or (math-vectorp vec)
|
|
(math-reject-arg vec 'vectorp))
|
|
(let* ((expr (car (setq vec (reverse (cdr vec)))))
|
|
(res (list expr)))
|
|
(or expr
|
|
(math-reject-arg vec "*Vector is empty"))
|
|
(while (setq vec (cdr vec))
|
|
(setq expr (math-build-call func (list (car vec) expr))
|
|
res (cons (list expr) res)))
|
|
(math-normalize (cons 'vec res)))
|
|
)
|
|
|
|
|
|
(defun math-nest-calls (func base iters accum tol)
|
|
(or (symbolp tol)
|
|
(if (math-realp tol)
|
|
(or (math-numberp base) (math-reject-arg base 'numberp))
|
|
(math-reject-arg tol 'realp)))
|
|
(setq func (math-var-to-calcFunc func))
|
|
(or (null iters)
|
|
(if (equal iters '(var inf var-inf))
|
|
(setq iters nil)
|
|
(progn
|
|
(if (math-messy-integerp iters)
|
|
(setq iters (math-trunc iters)))
|
|
(or (integerp iters) (math-reject-arg iters 'fixnump))
|
|
(or (not tol) (natnump iters) (math-reject-arg iters 'fixnatnump))
|
|
(if (< iters 0)
|
|
(let* ((dummy '(var DummyArg var-DummyArg))
|
|
(dummy2 '(var DummyArg2 var-DummyArg2))
|
|
(finv (math-solve-for (math-build-call func (list dummy2))
|
|
dummy dummy2 nil)))
|
|
(or finv (math-reject-arg nil "*Unable to find an inverse"))
|
|
(if (and (= (length finv) 2)
|
|
(equal (nth 1 finv) dummy))
|
|
(setq func (car finv))
|
|
(setq func (list 'calcFunc-lambda dummy finv)))
|
|
(setq iters (- iters)))))))
|
|
(math-with-extra-prec 1
|
|
(let ((value base)
|
|
(ovalue nil)
|
|
(avalues (list base))
|
|
(math-working-step 0)
|
|
(math-working-step-2 iters))
|
|
(while (and (or (null iters)
|
|
(>= (setq iters (1- iters)) 0))
|
|
(or (null tol)
|
|
(null ovalue)
|
|
(if (eq tol t)
|
|
(not (if (and (Math-numberp value)
|
|
(Math-numberp ovalue))
|
|
(math-nearly-equal value ovalue)
|
|
(Math-equal value ovalue)))
|
|
(if (math-numberp value)
|
|
(Math-lessp tol (math-abs (math-sub value ovalue)))
|
|
(math-reject-arg value 'numberp)))))
|
|
(setq ovalue value
|
|
math-working-step (1+ math-working-step)
|
|
value (math-normalize (math-build-call func (list value))))
|
|
(if accum
|
|
(setq avalues (cons value avalues))))
|
|
(if accum
|
|
(cons 'vec (nreverse avalues))
|
|
value)))
|
|
)
|
|
|
|
(defun calcFunc-nest (func base iters)
|
|
(math-nest-calls func base iters nil nil)
|
|
)
|
|
|
|
(defun calcFunc-anest (func base iters)
|
|
(math-nest-calls func base iters t nil)
|
|
)
|
|
|
|
(defun calcFunc-fixp (func base &optional iters tol)
|
|
(math-nest-calls func base iters nil (or tol t))
|
|
)
|
|
|
|
(defun calcFunc-afixp (func base &optional iters tol)
|
|
(math-nest-calls func base iters t (or tol t))
|
|
)
|
|
|
|
|
|
(defun calcFunc-outer (func a b)
|
|
(or (math-vectorp a) (math-reject-arg a 'vectorp))
|
|
(or (math-vectorp b) (math-reject-arg b 'vectorp))
|
|
(setq func (math-var-to-calcFunc func))
|
|
(let ((mat nil))
|
|
(while (setq a (cdr a))
|
|
(setq mat (cons (cons 'vec
|
|
(mapcar (function (lambda (x)
|
|
(math-build-call func
|
|
(list (car a)
|
|
x))))
|
|
(cdr b)))
|
|
mat)))
|
|
(math-normalize (cons 'vec (nreverse mat))))
|
|
)
|
|
|
|
|
|
(defun calcFunc-inner (mul-func add-func a b)
|
|
(or (math-vectorp a) (math-reject-arg a 'vectorp))
|
|
(or (math-vectorp b) (math-reject-arg b 'vectorp))
|
|
(if (math-matrixp a)
|
|
(if (math-matrixp b)
|
|
(if (= (length (nth 1 a)) (length b))
|
|
(math-inner-mats a b)
|
|
(math-dimension-error))
|
|
(if (= (length (nth 1 a)) 2)
|
|
(if (= (length a) (length b))
|
|
(math-inner-mats a (list 'vec b))
|
|
(math-dimension-error))
|
|
(if (= (length (nth 1 a)) (length b))
|
|
(math-mat-col (math-inner-mats a (math-col-matrix b))
|
|
1)
|
|
(math-dimension-error))))
|
|
(if (math-matrixp b)
|
|
(nth 1 (math-inner-mats (list 'vec a) b))
|
|
(calcFunc-reduce add-func (calcFunc-map mul-func a b))))
|
|
)
|
|
|
|
(defun math-inner-mats (a b)
|
|
(let ((mat nil)
|
|
(cols (length (nth 1 b)))
|
|
row col ap bp accum)
|
|
(while (setq a (cdr a))
|
|
(setq col cols
|
|
row nil)
|
|
(while (> (setq col (1- col)) 0)
|
|
(setq row (cons (calcFunc-reduce add-func
|
|
(calcFunc-map mul-func
|
|
(car a)
|
|
(math-mat-col b col)))
|
|
row)))
|
|
(setq mat (cons (cons 'vec row) mat)))
|
|
(cons 'vec (nreverse mat)))
|
|
)
|
|
|
|
|
|
|