f342b7c969
Includes the following pervasive changes: - Move some defvars earlier in the file so they cover earlier let-bindings - Change dynamically scoped `calc-FOO` or `math-FOO` function arguments to just FOO and then let-bind the `calc-FOO` or `math-FOO` variable explicitly in the body of the function. In some cases, the beginning of the function was changed to refer to FOO so as to delay the binding to a nearby `let` when I could ensure that it did not make a difference. - Add an underscore in front of unused vars or comment them out altogether. - Replace unused `err` arg to `condition-case` with nil. Plus the additional itemized changes below. * lisp/calc/calc-map.el (calcFunc-reducer): * lisp/calc/calc-arith.el (math-setup-declarations): * lisp/calc/calc-help.el (calc-full-help, calc-help-index-entries) (calc-full-help): Use `ignore-errors`. * lisp/calc/calc-embed.el (calc-embedded-modes-change): Declare `the-language` and `the-display-just` as dynamically scoped. * lisp/calc/calc-forms.el (math-setup-year-holidays): Use `dolist`. * lisp/calc/calc-graph.el (calc-graph-set-styles): Use `symbol-value` rather than `eval.` (calc-graph-delete-temps, calc-graph-set-styles): Use ignore-errors. * lisp/calc/calc-macs.el (calc-with-trail-buffer): Add artificial use of `save-buf` to silence compiler warnings in all the cases where `body` doesn't make use of it. * lisp/calc/calc-math.el (math-largest-emacs-expt) (math-smallest-emacs-expt, math-use-emacs-fn): Use ignore-errors. * lisp/calc/calc-mode.el (calc-total-algebraic-mode): Remove "P" from interactive spec since it's not used anyway. * lisp/calc/calc-rewr.el (calc-match): Simplify. * lisp/calc/calc.el (calc-buffer): Give it a global nil value, so it's automatically declared dynbound in any file that requires `calc`. (calcDigit-nondigit): Adjust accordingly. * lisp/calc/calcalg2.el (calcFunc-table): Declare `var-dummy` as dynbound. (math-scan-for-limits): Comment out dead code. * lisp/calc/calcalg3.el (math-general-fit): Declare `var-YVAL` and `var-YVALX` as dynbound.
297 lines
9.5 KiB
EmacsLisp
297 lines
9.5 KiB
EmacsLisp
;;; calc-stuff.el --- miscellaneous functions for Calc -*- lexical-binding:t -*-
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;; Copyright (C) 1990-1993, 2001-2020 Free Software Foundation, Inc.
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;; Author: David Gillespie <daveg@synaptics.com>
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>.
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;;; Commentary:
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;;; Code:
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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-num-prefix (n)
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"Use the number at the top of stack as the numeric prefix for the next command.
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With a prefix, push that prefix as a number onto the stack."
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(interactive "P")
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(calc-wrapper
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(if n
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(calc-enter-result 0 "" (prefix-numeric-value n))
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(let ((num (calc-top 1)))
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(if (math-messy-integerp num)
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(setq num (math-trunc num)))
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(or (integerp num)
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(error "Argument must be a small integer"))
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(calc-pop-stack 1)
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(setq prefix-arg num)
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(message "%d-" num))))) ; a (lame) simulation of the real thing...
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(defun calc-more-recursion-depth (n)
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(interactive "P")
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(calc-wrapper
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(if (calc-is-inverse)
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(calc-less-recursion-depth n)
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(let ((n (if n (prefix-numeric-value n) 2)))
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(if (> n 1)
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(setq max-specpdl-size (* max-specpdl-size n)
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max-lisp-eval-depth (* max-lisp-eval-depth n))))
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(message "max-lisp-eval-depth is now %d" max-lisp-eval-depth))))
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(defun calc-less-recursion-depth (n)
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(interactive "P")
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(let ((n (if n (prefix-numeric-value n) 2)))
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(if (> n 1)
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(setq max-specpdl-size
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(max (/ max-specpdl-size n) 600)
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max-lisp-eval-depth
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(max (/ max-lisp-eval-depth n) 200))))
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(message "max-lisp-eval-depth is now %d" max-lisp-eval-depth))
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(defvar calc-which-why nil)
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(defvar calc-last-why-command nil)
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(defun calc-explain-why (why &optional more)
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(if (eq (car why) '*)
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(setq why (cdr why)))
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(let* ((pred (car why))
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(arg (nth 1 why))
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(msg (cond ((not pred) "Wrong type of argument")
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((stringp pred) pred)
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((eq pred 'integerp) "Integer expected")
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((eq pred 'natnump)
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(if (and arg (Math-objvecp arg) (not (Math-integerp arg)))
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"Integer expected"
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"Nonnegative integer expected"))
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((eq pred 'posintp)
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(if (and arg (Math-objvecp arg) (not (Math-integerp arg)))
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"Integer expected"
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"Positive integer expected"))
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((eq pred 'fixnump)
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(if (and arg (Math-integerp arg))
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"Small integer expected"
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"Integer expected"))
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((eq pred 'fixnatnump)
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(if (and arg (Math-natnump arg))
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"Small integer expected"
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(if (and arg (Math-objvecp arg)
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(not (Math-integerp arg)))
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"Integer expected"
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"Nonnegative integer expected")))
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((eq pred 'fixposintp)
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(if (and arg (Math-integerp arg) (Math-posp arg))
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"Small integer expected"
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(if (and arg (Math-objvecp arg)
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(not (Math-integerp arg)))
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"Integer expected"
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"Positive integer expected")))
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((eq pred 'posp) "Positive number expected")
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((eq pred 'negp) "Negative number expected")
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((eq pred 'nonzerop) "Nonzero number expected")
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((eq pred 'realp) "Real number expected")
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((eq pred 'anglep) "Real number expected")
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((eq pred 'hmsp) "HMS form expected")
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((eq pred 'datep)
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(if (and arg (Math-objectp arg)
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(not (Math-realp arg)))
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"Real number or date form expected"
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"Date form expected"))
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((eq pred 'numberp) "Number expected")
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((eq pred 'scalarp) "Number expected")
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((eq pred 'vectorp) "Vector or matrix expected")
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((eq pred 'numvecp) "Number or vector expected")
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((eq pred 'matrixp) "Matrix expected")
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((eq pred 'square-matrixp)
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(if (and arg (math-matrixp arg))
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"Square matrix expected"
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"Matrix expected"))
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((eq pred 'objectp) "Number expected")
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((eq pred 'constp) "Constant expected")
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((eq pred 'range) "Argument out of range")
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(t (format "%s expected" pred))))
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(punc ": ")
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(calc-can-abbrev-vectors t))
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(while (setq why (cdr why))
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(and (car why)
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(setq msg (concat msg punc (if (stringp (car why))
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(car why)
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(math-format-flat-expr (car why) 0)))
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punc ", ")))
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(message "%s%s" msg (if more " [w=more]" ""))))
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(defun calc-why ()
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(interactive)
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(if (not (eq this-command last-command))
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(if (eq last-command calc-last-why-command)
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(setq calc-which-why (cdr calc-why))
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(setq calc-which-why calc-why)))
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(if calc-which-why
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(progn
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(calc-explain-why (car calc-which-why) (cdr calc-which-why))
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(setq calc-which-why (cdr calc-which-why)))
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(if calc-why
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(progn
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(message "(No further explanations available)")
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(setq calc-which-why calc-why))
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(message "No explanations available"))))
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;; The following caches are declared in other files, but are
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;; reset here.
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(defvar math-lud-cache) ; calc-mtx.el
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(defvar math-log2-cache) ; calc-bin.el
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(defvar math-radix-digits-cache) ; calc-bin.el
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(defvar math-radix-float-cache-tag) ; calc-bin.el
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(defvar math-random-cache) ; calc-comb.el
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(defvar math-max-digits-cache) ; calc-bin.el
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(defvar math-integral-cache) ; calcalg2.el
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(defvar math-units-table) ; calc-units.el
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(defvar math-decls-cache-tag) ; calc-arith.el
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(defvar math-format-date-cache) ; calc-forms.el
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(defvar math-holidays-cache-tag) ; calc-forms.el
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(defun calc-flush-caches (&optional inhibit-msg)
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(interactive "P")
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(calc-wrapper
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(setq math-lud-cache nil
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math-log2-cache nil
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math-radix-digits-cache nil
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math-radix-float-cache-tag nil
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math-random-cache nil
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math-max-digits-cache nil
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math-integral-cache nil
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math-units-table nil
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math-decls-cache-tag nil
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math-eval-rules-cache-tag t
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math-format-date-cache nil
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math-holidays-cache-tag t)
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(mapc (function (lambda (x) (set x -100))) math-cache-list)
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(unless inhibit-msg
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(message "All internal calculator caches have been reset"))))
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;;; Conversions.
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(defun calc-clean (n)
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(interactive "P")
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(calc-slow-wrapper
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(calc-with-default-simplification
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(let ((func (if (calc-is-hyperbolic) 'calcFunc-clean 'calcFunc-pclean)))
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(calc-enter-result 1 "cln"
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(if n
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(let ((n (prefix-numeric-value n)))
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(list func
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(calc-top-n 1)
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(if (<= n 0)
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(+ n calc-internal-prec)
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n)))
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(list func (calc-top-n 1))))))))
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(defun calc-clean-num (num)
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(interactive "P")
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(calc-clean (- (if num
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(prefix-numeric-value num)
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(if (and (>= last-command-event ?0)
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(<= last-command-event ?9))
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(- last-command-event ?0)
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(error "Number required"))))))
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(defvar math-chopping-small nil)
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(defun calcFunc-clean (a &optional prec) ; [X X S] [Public]
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(if prec
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(cond ((Math-messy-integerp prec)
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(calcFunc-clean a (math-trunc prec)))
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((or (not (integerp prec))
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(< prec 3))
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(calc-record-why "*Precision must be an integer 3 or above")
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(list 'calcFunc-clean a prec))
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((not (Math-objvecp a))
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(list 'calcFunc-clean a prec))
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(t (let ((calc-internal-prec prec)
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(math-chopping-small t))
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(calcFunc-clean (math-normalize a)))))
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(cond ((eq (car-safe a) 'polar)
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(let ((theta (math-mod (nth 2 a)
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(if (eq calc-angle-mode 'rad)
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(math-two-pi)
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360))))
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(math-neg
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(math-neg
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(math-normalize
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(list 'polar
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(calcFunc-clean (nth 1 a))
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(calcFunc-clean theta)))))))
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((memq (car-safe a) '(vec date hms))
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(cons (car a) (mapcar 'calcFunc-clean (cdr a))))
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((memq (car-safe a) '(cplx mod sdev intv))
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(math-normalize (cons (car a) (mapcar 'calcFunc-clean (cdr a)))))
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((eq (car-safe a) 'float)
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(if math-chopping-small
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(if (or (> (nth 2 a) (- calc-internal-prec))
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(Math-lessp (- calc-internal-prec) (calcFunc-xpon a)))
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(if (and (math-num-integerp a)
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(math-lessp (calcFunc-xpon a) calc-internal-prec))
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(math-trunc a)
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a)
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0)
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a))
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((Math-objectp a) a)
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((math-infinitep a) a)
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(t (list 'calcFunc-clean a)))))
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(defun calcFunc-pclean (a &optional prec)
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(math-map-over-constants (function (lambda (x) (calcFunc-clean x prec)))
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a))
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(defun calcFunc-pfloat (a)
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(math-map-over-constants 'math-float a))
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(defun calcFunc-pfrac (a &optional tol)
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(math-map-over-constants (function (lambda (x) (calcFunc-frac x tol)))
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a))
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;; The variable math-moc-func is local to math-map-over-constants,
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;; but is used by math-map-over-constants-rec, which is called by
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;; math-map-over-constants.
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(defvar math-moc-func)
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(defun math-map-over-constants (moc-func expr)
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(let ((math-moc-func moc-func))
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(math-map-over-constants-rec expr)))
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(defun math-map-over-constants-rec (expr)
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(cond ((or (Math-primp expr)
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(memq (car expr) '(intv sdev)))
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(or (and (Math-objectp expr)
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(funcall math-moc-func expr))
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expr))
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((and (memq (car expr) '(^ calcFunc-subscr))
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(eq math-moc-func 'math-float)
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(= (length expr) 3)
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(Math-integerp (nth 2 expr)))
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(list (car expr)
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(math-map-over-constants-rec (nth 1 expr))
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(nth 2 expr)))
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(t (cons (car expr) (mapcar 'math-map-over-constants-rec (cdr expr))))))
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(provide 'calc-stuff)
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;;; calc-stuff.el ends here
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