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emacs/lisp/calc/calc-rewr.el

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;;; calc-rewr.el --- rewriting functions for Calc
;; Copyright (C) 1990-1993, 2001-2012 Free Software Foundation, Inc.
;; Author: David Gillespie <daveg@synaptics.com>
2007-04-23 21:30:42 +00:00
;; Maintainer: Jay Belanger <jay.p.belanger@gmail.com>
2001-11-06 18:59:06 +00:00
;; 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.
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;; 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/>.
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;;; Commentary:
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;;; Code:
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;; This file is autoloaded from calc-ext.el.
(require 'calc-ext)
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(require 'calc-macs)
(defvar math-rewrite-default-iters 100)
;; The variable calc-rewr-sel is local to calc-rewrite-selection and
;; calc-rewrite, but is used by calc-locate-selection-marker.
(defvar calc-rewr-sel)
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(defun calc-rewrite-selection (rules-str &optional many prefix)
(interactive "sRewrite rule(s): \np")
(calc-slow-wrapper
(calc-preserve-point)
(let* ((num (max 1 (calc-locate-cursor-element (point))))
(reselect t)
(pop-rules nil)
rules
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(entry (calc-top num 'entry))
(expr (car entry))
(calc-rewr-sel (calc-auto-selection entry))
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(math-rewrite-selections t)
(math-rewrite-default-iters 1))
(if (or (null rules-str) (equal rules-str "") (equal rules-str "$"))
(if (= num 1)
(error "Can't use same stack entry for formula and rules")
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(setq rules (calc-top-n 1 t)
pop-rules t))
(setq rules (if (stringp rules-str)
(math-read-exprs rules-str) rules-str))
(if (eq (car-safe rules) 'error)
(error "Bad format in expression: %s" (nth 1 rules)))
(if (= (length rules) 1)
(setq rules (car rules))
(setq rules (cons 'vec rules)))
(or (memq (car-safe rules) '(vec var calcFunc-assign
calcFunc-condition))
(let ((rhs (math-read-expr
(read-string (concat "Rewrite from: " rules-str
" to: ")))))
(if (eq (car-safe rhs) 'error)
(error "Bad format in expression: %s" (nth 1 rhs)))
(setq rules (list 'calcFunc-assign rules rhs))))
(or (eq (car-safe rules) 'var)
(calc-record rules "rule")))
(if (eq many 0)
(setq many '(var inf var-inf))
(if many (setq many (prefix-numeric-value many))))
(if calc-rewr-sel
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(setq expr (calc-replace-sub-formula (car entry)
calc-rewr-sel
(list 'calcFunc-select calc-rewr-sel)))
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(setq expr (car entry)
reselect nil
math-rewrite-selections nil))
(setq expr (calc-encase-atoms
(calc-normalize
(math-rewrite
(calc-normalize expr)
rules many)))
calc-rewr-sel nil
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expr (calc-locate-select-marker expr))
(or (consp calc-rewr-sel) (setq calc-rewr-sel nil))
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(if pop-rules (calc-pop-stack 1))
(calc-pop-push-record-list 1 (or prefix "rwrt") (list expr)
(- num (if pop-rules 1 0))
(list (and reselect calc-rewr-sel))))
(calc-handle-whys)))
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(defun calc-locate-select-marker (expr)
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(if (Math-primp expr)
expr
(if (and (eq (car expr) 'calcFunc-select)
(= (length expr) 2))
(progn
(setq calc-rewr-sel (if calc-rewr-sel t (nth 1 expr)))
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(nth 1 expr))
(cons (car expr)
(mapcar 'calc-locate-select-marker (cdr expr))))))
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(defun calc-rewrite (rules-str many)
(interactive "sRewrite rule(s): \nP")
(calc-slow-wrapper
(let (n rules expr)
(if (or (null rules-str) (equal rules-str "") (equal rules-str "$"))
(setq expr (calc-top-n 2)
rules (calc-top-n 1 t)
n 2)
(setq rules (if (stringp rules-str)
(math-read-exprs rules-str) rules-str))
(if (eq (car-safe rules) 'error)
(error "Bad format in expression: %s" (nth 1 rules)))
(if (= (length rules) 1)
(setq rules (car rules))
(setq rules (cons 'vec rules)))
(or (memq (car-safe rules) '(vec var calcFunc-assign
calcFunc-condition))
(let ((rhs (math-read-expr
(read-string (concat "Rewrite from: " rules-str
" to: ")))))
(if (eq (car-safe rhs) 'error)
(error "Bad format in expression: %s" (nth 1 rhs)))
(setq rules (list 'calcFunc-assign rules rhs))))
(or (eq (car-safe rules) 'var)
(calc-record rules "rule"))
(setq expr (calc-top-n 1)
n 1))
(if (eq many 0)
(setq many '(var inf var-inf))
(if many (setq many (prefix-numeric-value many))))
(setq expr (calc-normalize (math-rewrite expr rules many)))
(let (calc-rewr-sel)
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(setq expr (calc-locate-select-marker expr)))
(calc-pop-push-record-list n "rwrt" (list expr)))
(calc-handle-whys)))
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(defun calc-match (pat &optional interactive)
(interactive "sPattern: \np")
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(calc-slow-wrapper
(let (n expr)
(if (or (null pat) (equal pat "") (equal pat "$"))
(setq expr (calc-top-n 2)
pat (calc-top-n 1)
n 2)
(setq pat (if (stringp pat) (math-read-expr pat) pat))
(if (eq (car-safe pat) 'error)
(error "Bad format in expression: %s" (nth 1 pat)))
(if (not (eq (car-safe pat) 'var))
(calc-record pat "pat"))
(setq expr (calc-top-n 1)
n 1))
(or (math-vectorp expr) (error "Argument must be a vector"))
(if (calc-is-inverse)
(calc-enter-result n "mtcn" (math-match-patterns pat expr t))
(calc-enter-result n "mtch" (math-match-patterns pat expr nil))))))
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(defvar math-mt-many)
;; The variable math-rewrite-whole-expr is local to math-rewrite,
;; but is used by math-rewrite-phase
(defvar math-rewrite-whole-expr)
(defun math-rewrite (math-rewrite-whole-expr rules &optional math-mt-many)
(let* ((crules (math-compile-rewrites rules))
(heads (math-rewrite-heads math-rewrite-whole-expr))
(trace-buffer (get-buffer "*Trace*"))
(calc-display-just 'center)
(calc-display-origin 39)
(calc-line-breaking 78)
(calc-line-numbering nil)
(calc-show-selections t)
(calc-why nil)
(math-mt-func (function
(lambda (x)
(let ((result (math-apply-rewrites x (cdr crules)
heads crules)))
(if result
(progn
(if trace-buffer
(let ((fmt (math-format-stack-value
(list result nil nil))))
(with-current-buffer trace-buffer
(insert "\nrewrite to\n" fmt "\n"))))
(setq heads (math-rewrite-heads result heads t))))
result)))))
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(if trace-buffer
(let ((fmt (math-format-stack-value (list math-rewrite-whole-expr nil nil))))
(with-current-buffer trace-buffer
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(setq truncate-lines t)
(goto-char (point-max))
(insert "\n\nBegin rewriting\n" fmt "\n"))))
(or math-mt-many (setq math-mt-many (or (nth 1 (car crules))
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math-rewrite-default-iters)))
(if (equal math-mt-many '(var inf var-inf)) (setq math-mt-many 1000000))
(if (equal math-mt-many '(neg (var inf var-inf))) (setq math-mt-many -1000000))
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(math-rewrite-phase (nth 3 (car crules)))
(if trace-buffer
(let ((fmt (math-format-stack-value (list math-rewrite-whole-expr nil nil))))
(with-current-buffer trace-buffer
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(insert "\nDone rewriting"
(if (= math-mt-many 0) " (reached iteration limit)" "")
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":\n" fmt "\n"))))
math-rewrite-whole-expr))
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(defun math-rewrite-phase (sched)
(while (and sched (/= math-mt-many 0))
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(if (listp (car sched))
(while (let ((save-expr math-rewrite-whole-expr))
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(math-rewrite-phase (car sched))
(not (equal math-rewrite-whole-expr save-expr))))
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(if (symbolp (car sched))
(progn
(setq math-rewrite-whole-expr
(math-normalize (list (car sched) math-rewrite-whole-expr)))
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(if trace-buffer
(let ((fmt (math-format-stack-value
(list math-rewrite-whole-expr nil nil))))
(with-current-buffer trace-buffer
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(insert "\ncall "
(substring (symbol-name (car sched)) 9)
":\n" fmt "\n")))))
(let ((math-rewrite-phase (car sched)))
(if trace-buffer
(with-current-buffer trace-buffer
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(insert (format "\n(Phase %d)\n" math-rewrite-phase))))
(while (let ((save-expr math-rewrite-whole-expr))
(setq math-rewrite-whole-expr (math-normalize
(math-map-tree-rec math-rewrite-whole-expr)))
(not (equal math-rewrite-whole-expr save-expr)))))))
(setq sched (cdr sched))))
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(defun calcFunc-rewrite (expr rules &optional many)
(or (null many) (integerp many)
(equal many '(var inf var-inf)) (equal many '(neg (var inf var-inf)))
(math-reject-arg many 'fixnump))
(condition-case err
(math-rewrite expr rules (or many 1))
(error (math-reject-arg rules (nth 1 err)))))
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(defun calcFunc-match (pat vec)
(or (math-vectorp vec) (math-reject-arg vec 'vectorp))
(condition-case err
(math-match-patterns pat vec nil)
(error (math-reject-arg pat (nth 1 err)))))
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(defun calcFunc-matchnot (pat vec)
(or (math-vectorp vec) (math-reject-arg vec 'vectorp))
(condition-case err
(math-match-patterns pat vec t)
(error (math-reject-arg pat (nth 1 err)))))
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(defun math-match-patterns (pat vec &optional not-flag)
(let ((newvec nil)
(crules (math-compile-patterns pat)))
(while (setq vec (cdr vec))
(if (eq (not (math-apply-rewrites (car vec) crules))
not-flag)
(setq newvec (cons (car vec) newvec))))
(cons 'vec (nreverse newvec))))
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(defun calcFunc-matches (expr pat)
(condition-case err
(if (math-apply-rewrites expr (math-compile-patterns pat))
1
0)
(error (math-reject-arg pat (nth 1 err)))))
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(defun calcFunc-vmatches (expr pat)
(condition-case err
(or (math-apply-rewrites expr (math-compile-patterns pat))
0)
(error (math-reject-arg pat (nth 1 err)))))
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;; A compiled rule set is an a-list of entries whose cars are functors,
;; and whose cdrs are lists of rules. If there are rules with no
;; well-defined head functor, they are included on all lists and also
;; on an extra list whose car is nil.
;;
;; The first entry in the a-list is of the form (schedule A B C ...).
;;
;; Rule list entries take the form (regs prog head phases), where:
;;
;; regs is a vector of match registers.
;;
;; prog is a match program (see below).
;;
;; head is a rare function name appearing in the rule body (but not the
;; head of the whole rule), or nil if none.
;;
;; phases is a list of phase numbers for which the rule is enabled.
;;
;; A match program is a list of match instructions.
;;
;; In the following, "part" is a register number that contains the
;; subexpression to be operated on.
;;
;; Register 0 is the whole expression being matched. The others are
;; meta-variables in the pattern, temporaries used for matching and
;; backtracking, and constant expressions.
;;
;; (same part reg)
;; The selected part must be math-equal to the contents of "reg".
;;
;; (same-neg part reg)
;; The selected part must be math-equal to the negative of "reg".
;;
;; (copy part reg)
;; The selected part is copied into "reg". (Rarely used.)
;;
;; (copy-neg part reg)
;; The negative of the selected part is copied into "reg".
;;
;; (integer part)
;; The selected part must be an integer.
;;
;; (real part)
;; The selected part must be a real.
;;
;; (constant part)
;; The selected part must be a constant.
;;
;; (negative part)
;; The selected part must "look" negative.
;;
;; (rel part op reg)
;; The selected part must satisfy "part op reg", where "op"
;; is one of the 6 relational ops, and "reg" is a register.
;;
;; (mod part modulo value)
;; The selected part must satisfy "part % modulo = value", where
;; "modulo" and "value" are constants.
;;
;; (func part head reg1 reg2 ... regn)
;; The selected part must be an n-ary call to function "head".
;; The arguments are stored in "reg1" through "regn".
;;
;; (func-def part head defs reg1 reg2 ... regn)
;; The selected part must be an n-ary call to function "head".
;; "Defs" is a list of value/register number pairs for default args.
;; If a match, assign default values to registers and then skip
;; immediately over any following "func-def" instructions and
;; the following "func" instruction. If wrong number of arguments,
;; proceed to the following "func-def" or "func" instruction.
;;
;; (func-opt part head defs reg1)
;; Like func-def with "n=1", except that if the selected part is
;; not a call to "head", then the part itself successfully matches
;; "reg1" (and the defaults are assigned).
;;
;; (try part heads mark reg1 [def])
;; The selected part must be a function of the correct type which is
;; associative and/or commutative. "Heads" is a list of acceptable
;; types. An initial assignment of arguments to "reg1" is tried.
;; If the program later fails, it backtracks to this instruction
;; and tries other assignments of arguments to "reg1".
;; If "def" exists and normal matching fails, backtrack and assign
;; "part" to "reg1", and "def" to "reg2" in the following "try2".
;; The "mark" is a vector of size 5; only "mark[3-4]" are initialized.
;; "mark[0]" points to the argument list; "mark[1]" points to the
;; current argument; "mark[2]" is 0 if there are two arguments,
;; 1 if reg1 is matching single arguments, 2 if reg2 is matching
;; single arguments (a+b+c+d is never split as (a+b)+(c+d)), or
;; 3 if reg2 is matching "def"; "mark[3]" is 0 if the function must
;; have two arguments, 1 if phase-2 can be skipped, 2 if full
;; backtracking is necessary; "mark[4]" is t if the arguments have
;; been switched from the order given in the original pattern.
;;
;; (try2 try reg2)
;; Every "try" will be followed by a "try2" whose "try" field is
;; a pointer to the corresponding "try". The arguments which were
;; not stored in "reg1" by that "try" are now stored in "reg2".
;;
;; (alt instr nil mark)
;; Basic backtracking. Execute the instruction sequence "instr".
;; If this fails, back up and execute following the "alt" instruction.
;; The "mark" must be the vector "[nil nil 4]". The "instr" sequence
;; should execute "end-alt" at the end.
;;
;; (end-alt ptr)
;; Register success of the first alternative of a previous "alt".
;; "Ptr" is a pointer to the next instruction following that "alt".
;;
;; (apply part reg1 reg2)
;; The selected part must be a function call. The functor
;; (as a variable name) is stored in "reg1"; the arguments
;; (as a vector) are stored in "reg2".
;;
;; (cons part reg1 reg2)
;; The selected part must be a nonempty vector. The first element
;; of the vector is stored in "reg1"; the rest of the vector
;; (as another vector) is stored in "reg2".
;;
;; (rcons part reg1 reg2)
;; The selected part must be a nonempty vector. The last element
;; of the vector is stored in "reg2"; the rest of the vector
;; (as another vector) is stored in "reg1".
;;
;; (select part reg)
;; If the selected part is a unary call to function "select", its
;; argument is stored in "reg"; otherwise (provided this is an `a r'
;; and not a `g r' command) the selected part is stored in "reg".
;;
;; (cond expr)
;; The "expr", with registers substituted, must simplify to
;; a non-zero value.
;;
;; (let reg expr)
;; Evaluate "expr" and store the result in "reg". Always succeeds.
;;
;; (done rhs remember)
;; Rewrite the expression to "rhs", with register substituted.
;; Normalize; if the result is different from the original
;; expression, the match has succeeded. This is the last
;; instruction of every program. If "remember" is non-nil,
;; record the result of the match as a new literal rule.
;; Pseudo-functions related to rewrites:
;;
;; In patterns: quote, plain, condition, opt, apply, cons, select
;;
;; In righthand sides: quote, plain, eval, evalsimp, evalextsimp,
;; apply, cons, select
;;
;; In conditions: let + same as for righthand sides
;; Some optimizations that would be nice to have:
;;
;; * Merge registers with disjoint lifetimes.
;; * Merge constant registers with equivalent values.
;;
;; * If an argument of a commutative op math-depends neither on the
;; rest of the pattern nor on any of the conditions, then no backtracking
;; should be done for that argument. (This won't apply to very many
;; cases.)
;;
;; * If top functor is "select", and its argument is a unique function,
;; add the rule to the lists for both "select" and that function.
;; (Currently rules like this go on the "nil" list.)
;; Same for "func-opt" functions. (Though not urgent for these.)
;;
;; * Shouldn't evaluate a "let" condition until the end, or until it
;; would enable another condition to be evaluated.
;;
;; Some additional features to add / things to think about:
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;;;
;;; * Figure out what happens to "a +/- b" and "a +/- opt(b)".
;;;
;;; * Same for interval forms.
;;;
;;; * Have a name(v,pat) pattern which matches pat, and gives the
;;; whole match the name v. Beware of circular structures!
;;;
(defun math-compile-patterns (pats)
(if (and (eq (car-safe pats) 'var)
(calc-var-value (nth 2 pats)))
(let ((prop (get (nth 2 pats) 'math-pattern-cache)))
(or prop
(put (nth 2 pats) 'math-pattern-cache (setq prop (list nil))))
(or (eq (car prop) (symbol-value (nth 2 pats)))
(progn
(setcdr prop (math-compile-patterns
(symbol-value (nth 2 pats))))
(setcar prop (symbol-value (nth 2 pats)))))
(cdr prop))
(let ((math-rewrite-whole t))
(cdr (math-compile-rewrites (cons
'vec
(mapcar (function (lambda (x)
(list 'vec x t)))
(if (eq (car-safe pats) 'vec)
(cdr pats)
(list pats)))))))))
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(defvar math-rewrite-whole nil)
(defvar math-make-import-list nil)
;; The variable math-import-list is local to part of math-compile-rewrites,
;; but is also used in a different part, and so the local version could
;; be affected by the non-local version when math-compile-rewrites calls itself.
(defvar math-import-list nil)
;; The variables math-regs, math-num-regs, math-prog-last, math-bound-vars,
;; math-conds, math-copy-neg, math-rhs, math-pattern, math-remembering and
;; math-aliased-vars are local to math-compile-rewrites,
;; but are used by many functions math-rwcomp-*, which are called by
;; math-compile-rewrites.
(defvar math-regs)
(defvar math-num-regs)
(defvar math-prog-last)
(defvar math-bound-vars)
(defvar math-conds)
(defvar math-copy-neg)
(defvar math-rhs)
(defvar math-pattern)
(defvar math-remembering)
(defvar math-aliased-vars)
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(defun math-compile-rewrites (rules &optional name)
(if (eq (car-safe rules) 'var)
(let ((prop (get (nth 2 rules) 'math-rewrite-cache))
(math-import-list nil)
(math-make-import-list t)
p)
(or (calc-var-value (nth 2 rules))
(error "Rules variable %s has no stored value" (nth 1 rules)))
(or prop
(put (nth 2 rules) 'math-rewrite-cache
(setq prop (list (list (cons (nth 2 rules) nil))))))
(setq p (car prop))
(while (and p (eq (symbol-value (car (car p))) (cdr (car p))))
(setq p (cdr p)))
(or (null p)
(progn
(message "Compiling rule set %s..." (nth 1 rules))
(setcdr prop (math-compile-rewrites
(symbol-value (nth 2 rules))
(nth 2 rules)))
(message "Compiling rule set %s...done" (nth 1 rules))
(setcar prop (cons (cons (nth 2 rules)
(symbol-value (nth 2 rules)))
math-import-list))))
(cdr prop))
(if (or (not (eq (car-safe rules) 'vec))
(and (memq (length rules) '(3 4))
(let ((p rules))
(while (and (setq p (cdr p))
(memq (car-safe (car p))
'(vec
calcFunc-assign
calcFunc-condition
calcFunc-import
calcFunc-phase
calcFunc-schedule
calcFunc-iterations))))
p)))
(setq rules (list rules))
(setq rules (cdr rules)))
(if (assq 'calcFunc-import rules)
(let ((pp (setq rules (copy-sequence rules)))
p part)
(while (setq p (car (cdr pp)))
(if (eq (car-safe p) 'calcFunc-import)
(progn
(setcdr pp (cdr (cdr pp)))
(or (and (eq (car-safe (nth 1 p)) 'var)
(setq part (calc-var-value (nth 2 (nth 1 p))))
(memq (car-safe part) '(vec
calcFunc-assign
calcFunc-condition)))
(error "Argument of import() must be a rules variable"))
(if math-make-import-list
(setq math-import-list
(cons (cons (nth 2 (nth 1 p))
(symbol-value (nth 2 (nth 1 p))))
math-import-list)))
(while (setq p (cdr (cdr p)))
(or (cdr p)
(error "import() must have odd number of arguments"))
(setq part (math-rwcomp-substitute part
(car p) (nth 1 p))))
(if (eq (car-safe part) 'vec)
(setq part (cdr part))
(setq part (list part)))
(setcdr pp (append part (cdr pp))))
(setq pp (cdr pp))))))
(let ((rule-set nil)
(all-heads nil)
(nil-rules nil)
(rule-count 0)
(math-schedule nil)
(math-iterations nil)
(math-phases nil)
(math-all-phases nil)
(math-remembering nil)
math-pattern math-rhs math-conds)
(while rules
(cond
((and (eq (car-safe (car rules)) 'calcFunc-iterations)
(= (length (car rules)) 2))
(or (integerp (nth 1 (car rules)))
(equal (nth 1 (car rules)) '(var inf var-inf))
(equal (nth 1 (car rules)) '(neg (var inf var-inf)))
(error "Invalid argument for iterations(n)"))
(or math-iterations
(setq math-iterations (nth 1 (car rules)))))
((eq (car-safe (car rules)) 'calcFunc-schedule)
(or math-schedule
(setq math-schedule (math-parse-schedule (cdr (car rules))))))
((eq (car-safe (car rules)) 'calcFunc-phase)
(setq math-phases (cdr (car rules)))
(if (equal math-phases '((var all var-all)))
(setq math-phases nil))
(let ((p math-phases))
(while p
(or (integerp (car p))
(error "Phase numbers must be small integers"))
(or (memq (car p) math-all-phases)
(setq math-all-phases (cons (car p) math-all-phases)))
(setq p (cdr p)))))
((or (and (eq (car-safe (car rules)) 'vec)
(cdr (cdr (car rules)))
(not (nthcdr 4 (car rules)))
(setq math-conds (nth 3 (car rules))
math-rhs (nth 2 (car rules))
math-pattern (nth 1 (car rules))))
(progn
(setq math-conds nil
math-pattern (car rules))
(while (and (eq (car-safe math-pattern) 'calcFunc-condition)
(= (length math-pattern) 3))
(let ((cond (nth 2 math-pattern)))
(setq math-conds (if math-conds
(list 'calcFunc-land math-conds cond)
cond)
math-pattern (nth 1 math-pattern))))
(and (eq (car-safe math-pattern) 'calcFunc-assign)
(= (length math-pattern) 3)
(setq math-rhs (nth 2 math-pattern)
math-pattern (nth 1 math-pattern)))))
(let* ((math-prog (list nil))
(math-prog-last math-prog)
(math-num-regs 1)
(math-regs (list (list nil 0 nil nil)))
(math-bound-vars nil)
(math-aliased-vars nil)
(math-copy-neg nil))
(setq math-conds (and math-conds (math-flatten-lands math-conds)))
(math-rwcomp-pattern math-pattern 0)
(while math-conds
(let ((expr (car math-conds)))
(setq math-conds (cdr math-conds))
(math-rwcomp-cond-instr expr)))
(math-rwcomp-instr 'done
(if (eq math-rhs t)
(cons 'vec
(delq
nil
(nreverse
(mapcar
(function
(lambda (v)
(and (car v)
(list
'calcFunc-assign
(math-build-var-name
(car v))
(math-rwcomp-register-expr
(nth 1 v))))))
math-regs))))
(math-rwcomp-match-vars math-rhs))
math-remembering)
(setq math-prog (cdr math-prog))
(let* ((heads (math-rewrite-heads math-pattern))
(rule (list (vconcat
(nreverse
(mapcar (function (lambda (x) (nth 3 x)))
math-regs)))
math-prog
heads
math-phases))
(head (and (not (Math-primp math-pattern))
(not (and (eq (car (car math-prog)) 'try)
(nth 5 (car math-prog))))
(not (memq (car (car math-prog)) '(func-opt
apply
select
alt)))
(if (memq (car (car math-prog)) '(func
func-def))
(nth 2 (car math-prog))
(if (eq (car math-pattern) 'calcFunc-quote)
(car-safe (nth 1 math-pattern))
(car math-pattern))))))
(let (found)
(while heads
(if (setq found (assq (car heads) all-heads))
(setcdr found (1+ (cdr found)))
(setq all-heads (cons (cons (car heads) 1) all-heads)))
(setq heads (cdr heads))))
(if (eq head '-) (setq head '+))
(if (memq head '(calcFunc-cons calcFunc-rcons)) (setq head 'vec))
(if head
(progn
(nconc (or (assq head rule-set)
(car (setq rule-set (cons (cons head
(copy-sequence
nil-rules))
rule-set))))
(list rule))
(if (eq head '*)
(nconc (or (assq '/ rule-set)
(car (setq rule-set (cons (cons
'/
(copy-sequence
nil-rules))
rule-set))))
(list rule))))
(setq nil-rules (nconc nil-rules (list rule)))
(let ((ptr rule-set))
(while ptr
(nconc (car ptr) (list rule))
(setq ptr (cdr ptr))))))))
(t
(error "Rewrite rule set must be a vector of A := B rules")))
(setq rules (cdr rules)))
(if nil-rules
(setq rule-set (cons (cons nil nil-rules) rule-set)))
(setq all-heads (mapcar 'car
(sort all-heads (function
(lambda (x y)
(< (cdr x) (cdr y)))))))
(let ((set rule-set)
rule heads ptr)
(while set
(setq rule (cdr (car set)))
(while rule
(if (consp (setq heads (nth 2 (car rule))))
(progn
(setq heads (delq (car (car set)) heads)
ptr all-heads)
(while (and ptr (not (memq (car ptr) heads)))
(setq ptr (cdr ptr)))
(setcar (nthcdr 2 (car rule)) (car ptr))))
(setq rule (cdr rule)))
(setq set (cdr set))))
(let ((plus (assq '+ rule-set)))
(if plus
(setq rule-set (cons (cons '- (cdr plus)) rule-set))))
(cons (list 'schedule math-iterations name
(or math-schedule
(sort math-all-phases '<)
(list 1)))
rule-set))))
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(defun math-flatten-lands (expr)
(if (eq (car-safe expr) 'calcFunc-land)
(append (math-flatten-lands (nth 1 expr))
(math-flatten-lands (nth 2 expr)))
(list expr)))
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;; The variables math-rewrite-heads-heads (i.e.; heads for math-rewrite-heads)
;; math-rewrite-heads-blanks and math-rewrite-heads-skips are local to
;; math-rewrite-heads, but used by math-rewrite-heads-rec, which is called by
;; math-rewrite-heads.
(defvar math-rewrite-heads-heads)
(defvar math-rewrite-heads-skips)
(defvar math-rewrite-heads-blanks)
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(defun math-rewrite-heads (expr &optional more all)
(let ((math-rewrite-heads-heads more)
(math-rewrite-heads-skips (and (not all)
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'(calcFunc-apply calcFunc-condition calcFunc-opt
calcFunc-por calcFunc-pnot)))
(math-rewrite-heads-blanks (and (not all)
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'(calcFunc-quote calcFunc-plain calcFunc-select
calcFunc-cons calcFunc-rcons
calcFunc-pand))))
(or (Math-primp expr)
(math-rewrite-heads-rec expr))
math-rewrite-heads-heads))
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(defun math-rewrite-heads-rec (expr)
(or (memq (car expr) math-rewrite-heads-skips)
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(progn
(or (memq (car expr) math-rewrite-heads-heads)
(memq (car expr) math-rewrite-heads-blanks)
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(memq 'algebraic (get (car expr) 'math-rewrite-props))
(setq math-rewrite-heads-heads (cons (car expr) math-rewrite-heads-heads)))
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(while (setq expr (cdr expr))
(or (Math-primp (car expr))
(math-rewrite-heads-rec (car expr)))))))
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(defun math-parse-schedule (sched)
(mapcar (function
(lambda (s)
(if (integerp s)
s
(if (math-vectorp s)
(math-parse-schedule (cdr s))
(if (eq (car-safe s) 'var)
(math-var-to-calcFunc s)
(error "Improper component in rewrite schedule"))))))
sched))
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(defun math-rwcomp-match-vars (expr)
(if (Math-primp expr)
(if (eq (car-safe expr) 'var)
(let ((entry (assq (nth 2 expr) math-regs)))
(if entry
(math-rwcomp-register-expr (nth 1 entry))
expr))
expr)
(if (and (eq (car expr) 'calcFunc-quote)
(= (length expr) 2))
(math-rwcomp-match-vars (nth 1 expr))
(if (and (eq (car expr) 'calcFunc-plain)
(= (length expr) 2)
(not (Math-primp (nth 1 expr))))
(list (car expr)
(cons (car (nth 1 expr))
(mapcar 'math-rwcomp-match-vars (cdr (nth 1 expr)))))
(cons (car expr)
(mapcar 'math-rwcomp-match-vars (cdr expr)))))))
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(defun math-rwcomp-register-expr (num)
(let ((entry (nth (1- (- math-num-regs num)) math-regs)))
(if (nth 2 entry)
(list 'neg (list 'calcFunc-register (nth 1 entry)))
(list 'calcFunc-register (nth 1 entry)))))
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;; The variables math-rwcomp-subst-old, math-rwcomp-subst-new,
;; math-rwcomp-subst-old-func and math-rwcomp-subst-new-func
;; are local to math-rwcomp-substitute, but are used by
;; math-rwcomp-subst-rec, which is called by math-rwcomp-substitute.
(defvar math-rwcomp-subst-new)
(defvar math-rwcomp-subst-old)
(defvar math-rwcomp-subst-new-func)
(defvar math-rwcomp-subst-old-func)
(defun math-rwcomp-substitute (expr math-rwcomp-subst-old math-rwcomp-subst-new)
(if (and (eq (car-safe math-rwcomp-subst-old) 'var)
(memq (car-safe math-rwcomp-subst-new) '(var calcFunc-lambda)))
(let ((math-rwcomp-subst-old-func (math-var-to-calcFunc math-rwcomp-subst-old))
(math-rwcomp-subst-new-func (math-var-to-calcFunc math-rwcomp-subst-new)))
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(math-rwcomp-subst-rec expr))
(let ((math-rwcomp-subst-old-func nil))
(math-rwcomp-subst-rec expr))))
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(defun math-rwcomp-subst-rec (expr)
(cond ((equal expr math-rwcomp-subst-old) math-rwcomp-subst-new)
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((Math-primp expr) expr)
(t (if (eq (car expr) math-rwcomp-subst-old-func)
(math-build-call math-rwcomp-subst-new-func
(mapcar 'math-rwcomp-subst-rec
(cdr expr)))
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(cons (car expr)
(mapcar 'math-rwcomp-subst-rec (cdr expr)))))))
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(defvar math-rwcomp-tracing nil)
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(defun math-rwcomp-trace (instr)
(when math-rwcomp-tracing
(terpri) (princ instr))
instr)
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(defun math-rwcomp-instr (&rest instr)
(setcdr math-prog-last
(setq math-prog-last (list (math-rwcomp-trace instr)))))
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(defun math-rwcomp-multi-instr (tail &rest instr)
(setcdr math-prog-last
(setq math-prog-last (list (math-rwcomp-trace (append instr tail))))))
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(defun math-rwcomp-bind-var (reg var)
(setcar (math-rwcomp-reg-entry reg) (nth 2 var))
(setq math-bound-vars (cons (nth 2 var) math-bound-vars))
(math-rwcomp-do-conditions))
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(defun math-rwcomp-unbind-vars (mark)
(while (not (eq math-bound-vars mark))
(setcar (assq (car math-bound-vars) math-regs) nil)
(setq math-bound-vars (cdr math-bound-vars))))
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(defun math-rwcomp-do-conditions ()
(let ((cond math-conds))
(while cond
(if (math-rwcomp-all-regs-done (car cond))
(let ((expr (car cond)))
(setq math-conds (delq (car cond) math-conds))
(setcar cond 1)
(math-rwcomp-cond-instr expr)))
(setq cond (cdr cond)))))
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(defun math-rwcomp-cond-instr (expr)
(let (op arg)
(cond ((and (eq (car-safe expr) 'calcFunc-matches)
(= (length expr) 3)
(eq (car-safe (setq arg (math-rwcomp-match-vars (nth 1 expr))))
'calcFunc-register))
(math-rwcomp-pattern (nth 2 expr) (nth 1 arg)))
((math-numberp (setq expr (math-rwcomp-match-vars expr)))
(if (Math-zerop expr)
(math-rwcomp-instr 'backtrack)))
((and (eq (car expr) 'calcFunc-let)
(= (length expr) 3))
(let ((reg (math-rwcomp-reg)))
(math-rwcomp-instr 'let reg (nth 2 expr))
(math-rwcomp-pattern (nth 1 expr) reg)))
((and (eq (car expr) 'calcFunc-let)
(= (length expr) 2)
(eq (car-safe (nth 1 expr)) 'calcFunc-assign)
(= (length (nth 1 expr)) 3))
(let ((reg (math-rwcomp-reg)))
(math-rwcomp-instr 'let reg (nth 2 (nth 1 expr)))
(math-rwcomp-pattern (nth 1 (nth 1 expr)) reg)))
((and (setq op (cdr (assq (car-safe expr)
'( (calcFunc-integer . integer)
(calcFunc-real . real)
(calcFunc-constant . constant)
(calcFunc-negative . negative) ))))
(= (length expr) 2)
(or (and (eq (car-safe (nth 1 expr)) 'neg)
(memq op '(integer real constant))
(setq arg (nth 1 (nth 1 expr))))
(setq arg (nth 1 expr)))
(eq (car-safe (setq arg (nth 1 expr))) 'calcFunc-register))
(math-rwcomp-instr op (nth 1 arg)))
((and (assq (car-safe expr) calc-tweak-eqn-table)
(= (length expr) 3)
(eq (car-safe (nth 1 expr)) 'calcFunc-register))
(if (math-constp (nth 2 expr))
(let ((reg (math-rwcomp-reg)))
(setcar (nthcdr 3 (car math-regs)) (nth 2 expr))
(math-rwcomp-instr 'rel (nth 1 (nth 1 expr))
(car expr) reg))
(if (eq (car (nth 2 expr)) 'calcFunc-register)
(math-rwcomp-instr 'rel (nth 1 (nth 1 expr))
(car expr) (nth 1 (nth 2 expr)))
(math-rwcomp-instr 'cond expr))))
((and (eq (car-safe expr) 'calcFunc-eq)
(= (length expr) 3)
(eq (car-safe (nth 1 expr)) '%)
(eq (car-safe (nth 1 (nth 1 expr))) 'calcFunc-register)
(math-constp (nth 2 (nth 1 expr)))
(math-constp (nth 2 expr)))
(math-rwcomp-instr 'mod (nth 1 (nth 1 (nth 1 expr)))
(nth 2 (nth 1 expr)) (nth 2 expr)))
((equal expr '(var remember var-remember))
(setq math-remembering 1))
((and (eq (car-safe expr) 'calcFunc-remember)
(= (length expr) 2))
(setq math-remembering (if math-remembering
(list 'calcFunc-lor
math-remembering (nth 1 expr))
(nth 1 expr))))
(t (math-rwcomp-instr 'cond expr)))))
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(defun math-rwcomp-same-instr (reg1 reg2 neg)
(math-rwcomp-instr (if (eq (eq (nth 2 (math-rwcomp-reg-entry reg1))
(nth 2 (math-rwcomp-reg-entry reg2)))
neg)
'same-neg
'same)
reg1 reg2))
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(defun math-rwcomp-copy-instr (reg1 reg2 neg)
(if (eq (eq (nth 2 (math-rwcomp-reg-entry reg1))
(nth 2 (math-rwcomp-reg-entry reg2)))
neg)
(math-rwcomp-instr 'copy-neg reg1 reg2)
(or (eq reg1 reg2)
(math-rwcomp-instr 'copy reg1 reg2))))
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(defun math-rwcomp-reg ()
(prog1
math-num-regs
(setq math-regs (cons (list nil math-num-regs nil 0) math-regs)
math-num-regs (1+ math-num-regs))))
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(defun math-rwcomp-reg-entry (num)
(nth (1- (- math-num-regs num)) math-regs))
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(defun math-rwcomp-pattern (expr part &optional not-direct)
(cond ((or (math-rwcomp-no-vars expr)
(and (eq (car expr) 'calcFunc-quote)
(= (length expr) 2)
(setq expr (nth 1 expr))))
(if (eq (car-safe expr) 'calcFunc-register)
(math-rwcomp-same-instr part (nth 1 expr) nil)
(let ((reg (math-rwcomp-reg)))
(setcar (nthcdr 3 (car math-regs)) expr)
(math-rwcomp-same-instr part reg nil))))
((eq (car expr) 'var)
(let ((entry (assq (nth 2 expr) math-regs)))
(if entry
(math-rwcomp-same-instr part (nth 1 entry) nil)
(if not-direct
(let ((reg (math-rwcomp-reg)))
(math-rwcomp-pattern expr reg)
(math-rwcomp-copy-instr part reg nil))
(if (setq entry (assq (nth 2 expr) math-aliased-vars))
(progn
(setcar (math-rwcomp-reg-entry (nth 1 entry))
(nth 2 expr))
(setcar entry nil)
(math-rwcomp-copy-instr part (nth 1 entry) nil))
(math-rwcomp-bind-var part expr))))))
((and (eq (car expr) 'calcFunc-select)
(= (length expr) 2))
(let ((reg (math-rwcomp-reg)))
(math-rwcomp-instr 'select part reg)
(math-rwcomp-pattern (nth 1 expr) reg)))
((and (eq (car expr) 'calcFunc-opt)
(memq (length expr) '(2 3)))
(error "opt( ) occurs in context where it is not allowed"))
((eq (car expr) 'neg)
(if (eq (car (nth 1 expr)) 'var)
(let ((entry (assq (nth 2 (nth 1 expr)) math-regs)))
(if entry
(math-rwcomp-same-instr part (nth 1 entry) t)
(if math-copy-neg
(let ((reg (math-rwcomp-best-reg (nth 1 expr))))
(math-rwcomp-copy-instr part reg t)
(math-rwcomp-pattern (nth 1 expr) reg))
(setcar (cdr (cdr (math-rwcomp-reg-entry part))) t)
(math-rwcomp-pattern (nth 1 expr) part))))
(if (math-rwcomp-is-algebraic (nth 1 expr))
(math-rwcomp-cond-instr (list 'calcFunc-eq
(math-rwcomp-register-expr part)
expr))
(let ((reg (math-rwcomp-reg)))
(math-rwcomp-instr 'func part 'neg reg)
(math-rwcomp-pattern (nth 1 expr) reg)))))
((and (eq (car expr) 'calcFunc-apply)
(= (length expr) 3))
(let ((reg1 (math-rwcomp-reg))
(reg2 (math-rwcomp-reg)))
(math-rwcomp-instr 'apply part reg1 reg2)
(math-rwcomp-pattern (nth 1 expr) reg1)
(math-rwcomp-pattern (nth 2 expr) reg2)))
((and (eq (car expr) 'calcFunc-cons)
(= (length expr) 3))
(let ((reg1 (math-rwcomp-reg))
(reg2 (math-rwcomp-reg)))
(math-rwcomp-instr 'cons part reg1 reg2)
(math-rwcomp-pattern (nth 1 expr) reg1)
(math-rwcomp-pattern (nth 2 expr) reg2)))
((and (eq (car expr) 'calcFunc-rcons)
(= (length expr) 3))
(let ((reg1 (math-rwcomp-reg))
(reg2 (math-rwcomp-reg)))
(math-rwcomp-instr 'rcons part reg1 reg2)
(math-rwcomp-pattern (nth 1 expr) reg1)
(math-rwcomp-pattern (nth 2 expr) reg2)))
((and (eq (car expr) 'calcFunc-condition)
(>= (length expr) 3))
(math-rwcomp-pattern (nth 1 expr) part)
(setq expr (cdr expr))
(while (setq expr (cdr expr))
(let ((cond (math-flatten-lands (car expr))))
(while cond
(if (math-rwcomp-all-regs-done (car cond))
(math-rwcomp-cond-instr (car cond))
(setq math-conds (cons (car cond) math-conds)))
(setq cond (cdr cond))))))
((and (eq (car expr) 'calcFunc-pand)
(= (length expr) 3))
(math-rwcomp-pattern (nth 1 expr) part)
(math-rwcomp-pattern (nth 2 expr) part))
((and (eq (car expr) 'calcFunc-por)
(= (length expr) 3))
(math-rwcomp-instr 'alt nil nil [nil nil 4])
(let ((math-conds nil)
(head math-prog-last)
(mark math-bound-vars)
(math-copy-neg t))
(math-rwcomp-pattern (nth 1 expr) part t)
(let ((amark math-aliased-vars)
(math-aliased-vars math-aliased-vars)
(tail math-prog-last)
(p math-bound-vars)
entry)
(while (not (eq p mark))
(setq entry (assq (car p) math-regs)
math-aliased-vars (cons (list (car p) (nth 1 entry) nil)
math-aliased-vars)
p (cdr p))
(setcar (math-rwcomp-reg-entry (nth 1 entry)) nil))
(setcar (cdr (car head)) (cdr head))
(setcdr head nil)
(setq math-prog-last head)
(math-rwcomp-pattern (nth 2 expr) part)
(math-rwcomp-instr 'same 0 0)
(setcdr tail math-prog-last)
(setq p math-aliased-vars)
(while (not (eq p amark))
(if (car (car p))
(setcar (math-rwcomp-reg-entry (nth 1 (car p)))
(car (car p))))
(setq p (cdr p)))))
(math-rwcomp-do-conditions))
((and (eq (car expr) 'calcFunc-pnot)
(= (length expr) 2))
(math-rwcomp-instr 'alt nil nil [nil nil 4])
(let ((head math-prog-last)
(mark math-bound-vars))
(math-rwcomp-pattern (nth 1 expr) part)
(math-rwcomp-unbind-vars mark)
(math-rwcomp-instr 'end-alt head)
(math-rwcomp-instr 'backtrack)
(setcar (cdr (car head)) (cdr head))
(setcdr head nil)
(setq math-prog-last head)))
(t (let ((props (get (car expr) 'math-rewrite-props)))
(if (and (eq (car expr) 'calcFunc-plain)
(= (length expr) 2)
(not (math-primp (nth 1 expr))))
(setq expr (nth 1 expr))) ; but "props" is still nil
(if (and (memq 'algebraic props)
(math-rwcomp-is-algebraic expr))
(math-rwcomp-cond-instr (list 'calcFunc-eq
(math-rwcomp-register-expr part)
expr))
(if (and (memq 'commut props)
(= (length expr) 3))
(let ((arg1 (nth 1 expr))
(arg2 (nth 2 expr))
try1 def code head (flip nil))
(if (eq (car expr) '-)
(setq arg2 (math-rwcomp-neg arg2)))
(setq arg1 (cons arg1 (math-rwcomp-best-reg arg1))
arg2 (cons arg2 (math-rwcomp-best-reg arg2)))
(or (math-rwcomp-order arg1 arg2)
(setq def arg1 arg1 arg2 arg2 def flip t))
(if (math-rwcomp-optional-arg (car expr) arg1)
(error "Too many opt( ) arguments in this context"))
(setq def (math-rwcomp-optional-arg (car expr) arg2)
head (if (memq (car expr) '(+ -))
'(+ -)
(if (eq (car expr) '*)
'(* /)
(list (car expr))))
code (if (math-rwcomp-is-constrained
(car arg1) head)
(if (math-rwcomp-is-constrained
(car arg2) head)
0 1)
2))
(math-rwcomp-multi-instr (and def (list def))
'try part head
(vector nil nil nil code flip)
(cdr arg1))
(setq try1 (car math-prog-last))
(math-rwcomp-pattern (car arg1) (cdr arg1))
(math-rwcomp-instr 'try2 try1 (cdr arg2))
(if (and (= part 0) (not def) (not math-rewrite-whole)
(not (eq math-rhs t))
(setq def (get (car expr)
'math-rewrite-default)))
(let ((reg1 (math-rwcomp-reg))
(reg2 (math-rwcomp-reg)))
(if (= (aref (nth 3 try1) 3) 0)
(aset (nth 3 try1) 3 1))
(math-rwcomp-instr 'try (cdr arg2)
(if (equal head '(* /))
'(*) head)
(vector nil nil nil
(if (= code 0)
1 2)
nil)
reg1 def)
(setq try1 (car math-prog-last))
(math-rwcomp-pattern (car arg2) reg1)
(math-rwcomp-instr 'try2 try1 reg2)
(setq math-rhs (list (if (eq (car expr) '-)
'+ (car expr))
math-rhs
(list 'calcFunc-register
reg2))))
(math-rwcomp-pattern (car arg2) (cdr arg2))))
(let* ((args (mapcar (function
(lambda (x)
(cons x (math-rwcomp-best-reg x))))
(cdr expr)))
(args2 (copy-sequence args))
(argp (reverse args2))
(defs nil)
(num 1))
(while argp
(let ((def (math-rwcomp-optional-arg (car expr)
(car argp))))
(if def
(progn
(setq args2 (delq (car argp) args2)
defs (cons (cons def (cdr (car argp)))
defs))
(math-rwcomp-multi-instr
(mapcar 'cdr args2)
(if (or (and (memq 'unary1 props)
(= (length args2) 1)
(eq (car args2) (car args)))
(and (memq 'unary2 props)
(= (length args) 2)
(eq (car args2) (nth 1 args))))
'func-opt
'func-def)
part (car expr)
defs))))
(setq argp (cdr argp)))
(math-rwcomp-multi-instr (mapcar 'cdr args)
'func part (car expr))
(setq args (sort args 'math-rwcomp-order))
(while args
(math-rwcomp-pattern (car (car args)) (cdr (car args)))
(setq num (1+ num)
args (cdr args))))))))))
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(defun math-rwcomp-best-reg (x)
(or (and (eq (car-safe x) 'var)
(let ((entry (assq (nth 2 x) math-aliased-vars)))
(and entry
(not (nth 2 entry))
(not (nth 2 (math-rwcomp-reg-entry (nth 1 entry))))
(progn
(setcar (cdr (cdr entry)) t)
(nth 1 entry)))))
(math-rwcomp-reg)))
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(defun math-rwcomp-all-regs-done (expr)
(if (Math-primp expr)
(or (not (eq (car-safe expr) 'var))
(assq (nth 2 expr) math-regs)
(eq (nth 2 expr) 'var-remember)
(math-const-var expr))
(if (and (eq (car expr) 'calcFunc-let)
(= (length expr) 3))
(math-rwcomp-all-regs-done (nth 2 expr))
(if (and (eq (car expr) 'calcFunc-let)
(= (length expr) 2)
(eq (car-safe (nth 1 expr)) 'calcFunc-assign)
(= (length (nth 1 expr)) 3))
(math-rwcomp-all-regs-done (nth 2 (nth 1 expr)))
(while (and (setq expr (cdr expr))
(math-rwcomp-all-regs-done (car expr))))
(null expr)))))
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(defun math-rwcomp-no-vars (expr)
(if (Math-primp expr)
(or (not (eq (car-safe expr) 'var))
(math-const-var expr))
(and (not (memq (car expr) '(calcFunc-condition
calcFunc-select calcFunc-quote
calcFunc-plain calcFunc-opt
calcFunc-por calcFunc-pand
calcFunc-pnot calcFunc-apply
calcFunc-cons calcFunc-rcons)))
(progn
(while (and (setq expr (cdr expr))
(math-rwcomp-no-vars (car expr))))
(null expr)))))
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(defun math-rwcomp-is-algebraic (expr)
(if (Math-primp expr)
(or (not (eq (car-safe expr) 'var))
(math-const-var expr)
(assq (nth 2 expr) math-regs))
(and (memq 'algebraic (get (car expr) 'math-rewrite-props))
(progn
(while (and (setq expr (cdr expr))
(math-rwcomp-is-algebraic (car expr))))
(null expr)))))
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(defun math-rwcomp-is-constrained (expr not-these)
(if (Math-primp expr)
(not (eq (car-safe expr) 'var))
(if (eq (car expr) 'calcFunc-plain)
(math-rwcomp-is-constrained (nth 1 expr) not-these)
(not (or (memq (car expr) '(neg calcFunc-select))
(memq (car expr) not-these)
(and (memq 'commut (get (car expr) 'math-rewrite-props))
(or (eq (car-safe (nth 1 expr)) 'calcFunc-opt)
(eq (car-safe (nth 2 expr)) 'calcFunc-opt))))))))
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(defun math-rwcomp-optional-arg (head argp)
(let ((arg (car argp)))
(if (eq (car-safe arg) 'calcFunc-opt)
(and (memq (length arg) '(2 3))
(progn
(or (eq (car-safe (nth 1 arg)) 'var)
(error "First argument of opt( ) must be a variable"))
(setcar argp (nth 1 arg))
(if (= (length arg) 2)
(or (get head 'math-rewrite-default)
(error "opt( ) must include a default in this context"))
(nth 2 arg))))
(and (eq (car-safe arg) 'neg)
(let* ((part (list (nth 1 arg)))
(partp (math-rwcomp-optional-arg head part)))
(and partp
(setcar argp (math-rwcomp-neg (car part)))
(math-neg partp)))))))
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(defun math-rwcomp-neg (expr)
(if (memq (car-safe expr) '(* /))
(if (eq (car-safe (nth 1 expr)) 'var)
(list (car expr) (list 'neg (nth 1 expr)) (nth 2 expr))
(if (eq (car-safe (nth 2 expr)) 'var)
(list (car expr) (nth 1 expr) (list 'neg (nth 2 expr)))
(math-neg expr)))
(math-neg expr)))
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(defun math-rwcomp-assoc-args (expr)
(if (and (eq (car-safe (nth 1 expr)) (car expr))
(= (length (nth 1 expr)) 3))
(math-rwcomp-assoc-args (nth 1 expr)))
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(if (and (eq (car-safe (nth 2 expr)) (car expr))
(= (length (nth 2 expr)) 3))
(math-rwcomp-assoc-args (nth 2 expr))))
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(defun math-rwcomp-addsub-args (expr)
(if (memq (car-safe (nth 1 expr)) '(+ -))
(math-rwcomp-addsub-args (nth 1 expr)))
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(if (eq (car expr) '-)
()
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(if (eq (car-safe (nth 2 expr)) '+)
(math-rwcomp-addsub-args (nth 2 expr)))))
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(defun math-rwcomp-order (a b)
(< (math-rwcomp-priority (car a))
(math-rwcomp-priority (car b))))
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;; Order of priority: 0 Constants and other exact matches (first)
;; 10 Functions (except below)
;; 20 Meta-variables which occur more than once
;; 30 Algebraic functions
;; 40 Commutative/associative functions
;; 50 Meta-variables which occur only once
;; +100 for every "!!!" (pnot) in the pattern
;; 10000 Optional arguments (last)
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(defun math-rwcomp-priority (expr)
(+ (math-rwcomp-count-pnots expr)
(cond ((eq (car-safe expr) 'calcFunc-opt)
10000)
((math-rwcomp-no-vars expr)
0)
((eq (car expr) 'calcFunc-quote)
0)
((eq (car expr) 'var)
(if (assq (nth 2 expr) math-regs)
0
(if (= (math-rwcomp-count-refs expr) 1)
50
20)))
(t (let ((props (get (car expr) 'math-rewrite-props)))
(if (or (memq 'commut props)
(memq 'assoc props))
40
(if (memq 'algebraic props)
30
10)))))))
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(defun math-rwcomp-count-refs (var)
(let ((count (or (math-expr-contains-count math-pattern var) 0))
(p math-conds))
(while p
(if (eq (car-safe (car p)) 'calcFunc-let)
(if (= (length (car p)) 3)
(setq count (+ count
(or (math-expr-contains-count (nth 2 (car p)) var)
0)))
(if (and (= (length (car p)) 2)
(eq (car-safe (nth 1 (car p))) 'calcFunc-assign)
(= (length (nth 1 (car p))) 3))
(setq count (+ count
(or (math-expr-contains-count
(nth 2 (nth 1 (car p))) var) 0))))))
(setq p (cdr p)))
count))
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(defun math-rwcomp-count-pnots (expr)
(if (Math-primp expr)
0
(if (eq (car expr) 'calcFunc-pnot)
100
(let ((count 0))
(while (setq expr (cdr expr))
(setq count (+ count (math-rwcomp-count-pnots (car expr)))))
count))))
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;; In the current implementation, all associative functions must
;; also be commutative.
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(put '+ 'math-rewrite-props '(algebraic assoc commut))
(put '- 'math-rewrite-props '(algebraic assoc commut)) ; see below
(put '* 'math-rewrite-props '(algebraic assoc commut)) ; see below
(put '/ 'math-rewrite-props '(algebraic unary1))
(put '^ 'math-rewrite-props '(algebraic unary1))
(put '% 'math-rewrite-props '(algebraic))
(put 'neg 'math-rewrite-props '(algebraic))
(put 'calcFunc-idiv 'math-rewrite-props '(algebraic))
(put 'calcFunc-abs 'math-rewrite-props '(algebraic))
(put 'calcFunc-sign 'math-rewrite-props '(algebraic))
(put 'calcFunc-round 'math-rewrite-props '(algebraic))
(put 'calcFunc-rounde 'math-rewrite-props '(algebraic))
(put 'calcFunc-roundu 'math-rewrite-props '(algebraic))
(put 'calcFunc-trunc 'math-rewrite-props '(algebraic))
(put 'calcFunc-floor 'math-rewrite-props '(algebraic))
(put 'calcFunc-ceil 'math-rewrite-props '(algebraic))
(put 'calcFunc-re 'math-rewrite-props '(algebraic))
(put 'calcFunc-im 'math-rewrite-props '(algebraic))
(put 'calcFunc-conj 'math-rewrite-props '(algebraic))
(put 'calcFunc-arg 'math-rewrite-props '(algebraic))
(put 'calcFunc-and 'math-rewrite-props '(assoc commut))
(put 'calcFunc-or 'math-rewrite-props '(assoc commut))
(put 'calcFunc-xor 'math-rewrite-props '(assoc commut))
(put 'calcFunc-eq 'math-rewrite-props '(commut))
(put 'calcFunc-neq 'math-rewrite-props '(commut))
(put 'calcFunc-land 'math-rewrite-props '(assoc commut))
(put 'calcFunc-lor 'math-rewrite-props '(assoc commut))
(put 'calcFunc-beta 'math-rewrite-props '(commut))
(put 'calcFunc-gcd 'math-rewrite-props '(assoc commut))
(put 'calcFunc-lcm 'math-rewrite-props '(assoc commut))
(put 'calcFunc-max 'math-rewrite-props '(algebraic assoc commut))
(put 'calcFunc-min 'math-rewrite-props '(algebraic assoc commut))
(put 'calcFunc-vunion 'math-rewrite-props '(assoc commut))
(put 'calcFunc-vint 'math-rewrite-props '(assoc commut))
(put 'calcFunc-vxor 'math-rewrite-props '(assoc commut))
;; Note: "*" is not commutative for matrix args, but we pretend it is.
;; Also, "-" is not commutative but the code tweaks things so that it is.
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(put '+ 'math-rewrite-default 0)
(put '- 'math-rewrite-default 0)
(put '* 'math-rewrite-default 1)
(put '/ 'math-rewrite-default 1)
(put '^ 'math-rewrite-default 1)
(put 'calcFunc-land 'math-rewrite-default 1)
(put 'calcFunc-lor 'math-rewrite-default 0)
(put 'calcFunc-vunion 'math-rewrite-default '(vec))
(put 'calcFunc-vint 'math-rewrite-default '(vec))
(put 'calcFunc-vdiff 'math-rewrite-default '(vec))
(put 'calcFunc-vxor 'math-rewrite-default '(vec))
(defmacro math-rwfail (&optional back)
`(setq pc (and ,(if back
'(setq btrack (cdr btrack))
'btrack)
'((backtrack)))))
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;; This monstrosity is necessary because the use of static vectors of
;; registers makes rewrite rules non-reentrant. Yucko!
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(defmacro math-rweval (form)
`(let ((orig (car rules)))
(setcar rules '(nil nil nil no-phase))
(unwind-protect
,form
(setcar rules orig))))
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(defvar math-rewrite-phase 1)
;; The variable math-apply-rw-regs is local to math-apply-rewrites,
;; but is used by math-rwapply-replace-regs and math-rwapply-reg-looks-negp
;; which are called by math-apply-rewrites.
(defvar math-apply-rw-regs)
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;; The variable math-apply-rw-ruleset is local to math-apply-rewrites,
;; but is used by math-rwapply-remember.
(defvar math-apply-rw-ruleset)
(defun math-apply-rewrites (expr rules &optional heads math-apply-rw-ruleset)
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(and
(setq rules (cdr (or (assq (car-safe expr) rules)
(assq nil rules))))
(let ((result nil)
op math-apply-rw-regs inst part pc mark btrack
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(tracing math-rwcomp-tracing)
(phase math-rewrite-phase))
(while rules
(or
(and (setq part (nth 2 (car rules)))
heads
(not (memq part heads)))
(and (setq part (nth 3 (car rules)))
(not (memq phase part)))
(progn
(setq math-apply-rw-regs (car (car rules))
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pc (nth 1 (car rules))
btrack nil)
(aset math-apply-rw-regs 0 expr)
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(while pc
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(and tracing
(progn (terpri) (princ (car pc))
(if (and (natnump (nth 1 (car pc)))
(< (nth 1 (car pc)) (length math-apply-rw-regs)))
(princ
(format "\n part = %s"
(aref math-apply-rw-regs (nth 1 (car pc))))))))
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(cond ((eq (setq op (car (setq inst (car pc)))) 'func)
(if (and (consp
(setq part (aref math-apply-rw-regs (car (cdr inst)))))
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(eq (car part)
(car (setq inst (cdr (cdr inst)))))
(progn
(while (and (setq inst (cdr inst)
part (cdr part))
inst)
(aset math-apply-rw-regs (car inst) (car part)))
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(not (or inst part))))
(setq pc (cdr pc))
(math-rwfail)))
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((eq op 'same)
(if (or (equal (setq part (aref math-apply-rw-regs (nth 1 inst)))
(setq mark (aref math-apply-rw-regs (nth 2 inst))))
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(Math-equal part mark))
(setq pc (cdr pc))
(math-rwfail)))
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((and (eq op 'try)
calc-matrix-mode
(not (eq calc-matrix-mode 'scalar))
(eq (car (nth 2 inst)) '*)
(consp (setq part (aref math-apply-rw-regs (car (cdr inst)))))
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(eq (car part) '*)
(not (math-known-scalarp part)))
(setq mark (nth 3 inst)
pc (cdr pc))
(if (aref mark 4)
(progn
(aset math-apply-rw-regs (nth 4 inst) (nth 2 part))
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(aset mark 1 (cdr (cdr part))))
(aset math-apply-rw-regs (nth 4 inst) (nth 1 part))
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(aset mark 1 (cdr part)))
(aset mark 0 (cdr part))
(aset mark 2 0))
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((eq op 'try)
(if (and (consp (setq part
(aref math-apply-rw-regs (car (cdr inst)))))
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(memq (car part) (nth 2 inst))
(= (length part) 3)
(or (not (eq (car part) '/))
(Math-objectp (nth 2 part))))
(progn
(setq op nil
mark (car (cdr (setq inst (cdr (cdr inst))))))
(and
(memq 'assoc (get (car part) 'math-rewrite-props))
(not (= (aref mark 3) 0))
(while (if (and (consp (nth 1 part))
(memq (car (nth 1 part)) (car inst)))
(setq op (cons (if (eq (car part) '-)
(math-rwapply-neg
(nth 2 part))
(nth 2 part))
op)
part (nth 1 part))
(if (and (consp (nth 2 part))
(memq (car (nth 2 part))
(car inst))
(not (eq (car (nth 2 part)) '-)))
(setq op (cons (nth 1 part) op)
part (nth 2 part))))))
(setq op (cons (nth 1 part)
(cons (if (eq (car part) '-)
(math-rwapply-neg
(nth 2 part))
(if (eq (car part) '/)
(math-rwapply-inv
(nth 2 part))
(nth 2 part)))
op))
btrack (cons pc btrack)
pc (cdr pc))
(aset math-apply-rw-regs (nth 2 inst) (car op))
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(aset mark 0 op)
(aset mark 1 op)
(aset mark 2 (if (cdr (cdr op)) 1 0)))
(if (nth 5 inst)
(if (and (consp part)
(eq (car part) 'neg)
(eq (car (nth 2 inst)) '*)
(eq (nth 5 inst) 1))
(progn
(setq mark (nth 3 inst)
pc (cdr pc))
(aset math-apply-rw-regs (nth 4 inst) (nth 1 part))
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(aset mark 1 -1)
(aset mark 2 4))
(setq mark (nth 3 inst)
pc (cdr pc))
(aset math-apply-rw-regs (nth 4 inst) part)
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(aset mark 2 3))
(math-rwfail))))
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((eq op 'try2)
(setq part (nth 1 inst) ; try instr
mark (nth 3 part)
op (aref mark 2)
pc (cdr pc))
(aset math-apply-rw-regs (nth 2 inst)
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(cond
((eq op 0)
(if (eq (aref mark 0) (aref mark 1))
(nth 1 (aref mark 0))
(car (aref mark 0))))
((eq op 1)
(setq mark (delq (car (aref mark 1))
(copy-sequence (aref mark 0)))
op (car (nth 2 part)))
(if (eq op '*)
(progn
(setq mark (nreverse mark)
part (list '* (nth 1 mark) (car mark))
mark (cdr mark))
(while (setq mark (cdr mark))
(setq part (list '* (car mark) part))))
(setq part (car mark)
mark (cdr mark)
part (if (and (eq op '+)
(consp (car mark))
(eq (car (car mark)) 'neg))
(list '- part
(nth 1 (car mark)))
(list op part (car mark))))
(while (setq mark (cdr mark))
(setq part (if (and (eq op '+)
(consp (car mark))
(eq (car (car mark)) 'neg))
(list '- part
(nth 1 (car mark)))
(list op part (car mark))))))
part)
((eq op 2)
(car (aref mark 1)))
((eq op 3) (nth 5 part))
(t (aref mark 1)))))
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((eq op 'select)
(setq pc (cdr pc))
(if (and (consp (setq part (aref math-apply-rw-regs (nth 1 inst))))
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(eq (car part) 'calcFunc-select))
(aset math-apply-rw-regs (nth 2 inst) (nth 1 part))
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(if math-rewrite-selections
(math-rwfail)
(aset math-apply-rw-regs (nth 2 inst) part))))
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((eq op 'same-neg)
(if (or (equal (setq part (aref math-apply-rw-regs (nth 1 inst)))
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(setq mark (math-neg
(aref math-apply-rw-regs (nth 2 inst)))))
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(Math-equal part mark))
(setq pc (cdr pc))
(math-rwfail)))
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((eq op 'backtrack)
(setq inst (car (car btrack)) ; "try" or "alt" instr
pc (cdr (car btrack))
mark (or (nth 3 inst) [nil nil 4])
op (aref mark 2))
(cond ((eq op 0)
(if (setq op (cdr (aref mark 1)))
(aset math-apply-rw-regs (nth 4 inst)
(car (aset mark 1 op)))
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(if (nth 5 inst)
(progn
(aset mark 2 3)
(aset math-apply-rw-regs (nth 4 inst)
(aref math-apply-rw-regs (nth 1 inst))))
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(math-rwfail t))))
((eq op 1)
(if (setq op (cdr (aref mark 1)))
(aset math-apply-rw-regs (nth 4 inst)
(car (aset mark 1 op)))
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(if (= (aref mark 3) 1)
(if (nth 5 inst)
(progn
(aset mark 2 3)
(aset math-apply-rw-regs (nth 4 inst)
(aref math-apply-rw-regs (nth 1 inst))))
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(math-rwfail t))
(aset mark 2 2)
(aset mark 1 (cons nil (aref mark 0)))
(math-rwfail))))
((eq op 2)
(if (setq op (cdr (aref mark 1)))
(progn
(setq mark (delq (car (aset mark 1 op))
(copy-sequence
(aref mark 0)))
op (car (nth 2 inst)))
(if (eq op '*)
(progn
(setq mark (nreverse mark)
part (list '* (nth 1 mark)
(car mark))
mark (cdr mark))
(while (setq mark (cdr mark))
(setq part (list '* (car mark)
part))))
(setq part (car mark)
mark (cdr mark)
part (if (and (eq op '+)
(consp (car mark))
(eq (car (car mark))
'neg))
(list '- part
(nth 1 (car mark)))
(list op part (car mark))))
(while (setq mark (cdr mark))
(setq part (if (and (eq op '+)
(consp (car mark))
(eq (car (car mark))
'neg))
(list '- part
(nth 1 (car mark)))
(list op part (car mark))))))
(aset math-apply-rw-regs (nth 4 inst) part))
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(if (nth 5 inst)
(progn
(aset mark 2 3)
(aset math-apply-rw-regs (nth 4 inst)
(aref math-apply-rw-regs (nth 1 inst))))
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(math-rwfail t))))
((eq op 4)
(setq btrack (cdr btrack)))
(t (math-rwfail t))))
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((eq op 'integer)
(if (Math-integerp (setq part
(aref math-apply-rw-regs (nth 1 inst))))
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(setq pc (cdr pc))
(if (Math-primp part)
(math-rwfail)
(setq part (math-rweval (math-simplify part)))
(if (Math-integerp part)
(setq pc (cdr pc))
(math-rwfail)))))
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((eq op 'real)
(if (Math-realp (setq part (aref math-apply-rw-regs (nth 1 inst))))
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(setq pc (cdr pc))
(if (Math-primp part)
(math-rwfail)
(setq part (math-rweval (math-simplify part)))
(if (Math-realp part)
(setq pc (cdr pc))
(math-rwfail)))))
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((eq op 'constant)
(if (math-constp (setq part (aref math-apply-rw-regs (nth 1 inst))))
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(setq pc (cdr pc))
(if (Math-primp part)
(math-rwfail)
(setq part (math-rweval (math-simplify part)))
(if (math-constp part)
(setq pc (cdr pc))
(math-rwfail)))))
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((eq op 'negative)
(if (math-looks-negp (setq part
(aref math-apply-rw-regs (nth 1 inst))))
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(setq pc (cdr pc))
(if (Math-primp part)
(math-rwfail)
(setq part (math-rweval (math-simplify part)))
(if (math-looks-negp part)
(setq pc (cdr pc))
(math-rwfail)))))
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((eq op 'rel)
(setq part (math-compare (aref math-apply-rw-regs (nth 1 inst))
(aref math-apply-rw-regs (nth 3 inst)))
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op (nth 2 inst))
(if (= part 2)
(setq part (math-rweval
(math-simplify
(calcFunc-sign
(math-sub
(aref math-apply-rw-regs (nth 1 inst))
(aref math-apply-rw-regs (nth 3 inst))))))))
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(if (cond ((eq op 'calcFunc-eq)
(eq part 0))
((eq op 'calcFunc-neq)
(memq part '(-1 1)))
((eq op 'calcFunc-lt)
(eq part -1))
((eq op 'calcFunc-leq)
(memq part '(-1 0)))
((eq op 'calcFunc-gt)
(eq part 1))
((eq op 'calcFunc-geq)
(memq part '(0 1))))
(setq pc (cdr pc))
(math-rwfail)))
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((eq op 'func-def)
(if (and
(consp (setq part (aref math-apply-rw-regs (car (cdr inst)))))
(eq (car part)
(car (setq inst (cdr (cdr inst))))))
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(progn
(setq inst (cdr inst)
mark (car inst))
(while (and (setq inst (cdr inst)
part (cdr part))
inst)
(aset math-apply-rw-regs (car inst) (car part)))
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(if (or inst part)
(setq pc (cdr pc))
(while (eq (car (car (setq pc (cdr pc))))
'func-def))
(setq pc (cdr pc)) ; skip over "func"
(while mark
(aset math-apply-rw-regs (cdr (car mark)) (car (car mark)))
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(setq mark (cdr mark)))))
(math-rwfail)))
((eq op 'func-opt)
(if (or (not
(and
(consp
(setq part (aref math-apply-rw-regs (car (cdr inst)))))
(eq (car part) (nth 2 inst))))
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(and (= (length part) 2)
(setq part (nth 1 part))))
(progn
(setq mark (nth 3 inst))
(aset math-apply-rw-regs (nth 4 inst) part)
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(while (eq (car (car (setq pc (cdr pc)))) 'func-def))
(setq pc (cdr pc)) ; skip over "func"
(while mark
(aset math-apply-rw-regs (cdr (car mark)) (car (car mark)))
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(setq mark (cdr mark))))
(setq pc (cdr pc))))
((eq op 'mod)
(if (if (Math-zerop
(setq part (aref math-apply-rw-regs (nth 1 inst))))
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(Math-zerop (nth 3 inst))
(and (not (Math-zerop (nth 2 inst)))
(progn
(setq part (math-mod part (nth 2 inst)))
(or (Math-numberp part)
(setq part (math-rweval
(math-simplify part))))
(Math-equal part (nth 3 inst)))))
(setq pc (cdr pc))
(math-rwfail)))
((eq op 'apply)
(if (and (consp
(setq part (aref math-apply-rw-regs (car (cdr inst)))))
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(not (Math-objvecp part))
(not (eq (car part) 'var)))
(progn
(aset math-apply-rw-regs (nth 2 inst)
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(math-calcFunc-to-var (car part)))
(aset math-apply-rw-regs (nth 3 inst)
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(cons 'vec (cdr part)))
(setq pc (cdr pc)))
(math-rwfail)))
((eq op 'cons)
(if (and (consp
(setq part (aref math-apply-rw-regs (car (cdr inst)))))
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(eq (car part) 'vec)
(cdr part))
(progn
(aset math-apply-rw-regs (nth 2 inst) (nth 1 part))
(aset math-apply-rw-regs (nth 3 inst)
(cons 'vec (cdr (cdr part))))
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(setq pc (cdr pc)))
(math-rwfail)))
((eq op 'rcons)
(if (and (consp
(setq part (aref math-apply-rw-regs (car (cdr inst)))))
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(eq (car part) 'vec)
(cdr part))
(progn
(aset math-apply-rw-regs (nth 2 inst) (calcFunc-rhead part))
(aset math-apply-rw-regs (nth 3 inst) (calcFunc-rtail part))
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(setq pc (cdr pc)))
(math-rwfail)))
((eq op 'cond)
(if (math-is-true
(math-rweval
(math-simplify
(math-rwapply-replace-regs (nth 1 inst)))))
(setq pc (cdr pc))
(math-rwfail)))
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((eq op 'let)
(aset math-apply-rw-regs (nth 1 inst)
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(math-rweval
(math-normalize
(math-rwapply-replace-regs (nth 2 inst)))))
(setq pc (cdr pc)))
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((eq op 'copy)
(aset math-apply-rw-regs (nth 2 inst)
(aref math-apply-rw-regs (nth 1 inst)))
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(setq pc (cdr pc)))
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((eq op 'copy-neg)
(aset math-apply-rw-regs (nth 2 inst)
(math-rwapply-neg (aref math-apply-rw-regs (nth 1 inst))))
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(setq pc (cdr pc)))
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((eq op 'alt)
(setq btrack (cons pc btrack)
pc (nth 1 inst)))
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((eq op 'end-alt)
(while (and btrack (not (eq (car btrack) (nth 1 inst))))
(setq btrack (cdr btrack)))
(setq btrack (cdr btrack)
pc (cdr pc)))
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((eq op 'done)
(setq result (math-rwapply-replace-regs (nth 1 inst)))
(if (or (and (eq (car-safe result) '+)
(eq (nth 2 result) 0))
(and (eq (car-safe result) '*)
(eq (nth 2 result) 1)))
(setq result (nth 1 result)))
(setq part (and (nth 2 inst)
(math-is-true
(math-rweval
(math-simplify
(math-rwapply-replace-regs
(nth 2 inst)))))))
(if (or (equal result expr)
(equal (setq result (math-normalize result)) expr))
(setq result nil)
(if part (math-rwapply-remember expr result))
(setq rules nil))
(setq pc nil))
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(t (error "%s is not a valid rewrite opcode" op))))))
(setq rules (cdr rules)))
result)))
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(defun math-rwapply-neg (expr)
(if (and (consp expr)
(memq (car expr) '(* /)))
(if (Math-objectp (nth 2 expr))
(list (car expr) (nth 1 expr) (math-neg (nth 2 expr)))
(list (car expr)
(if (Math-objectp (nth 1 expr))
(math-neg (nth 1 expr))
(list '* -1 (nth 1 expr)))
(nth 2 expr)))
(math-neg expr)))
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(defun math-rwapply-inv (expr)
(if (and (Math-integerp expr)
calc-prefer-frac)
(math-make-frac 1 expr)
(list '/ 1 expr)))
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(defun math-rwapply-replace-regs (expr)
(cond ((Math-primp expr)
expr)
((eq (car expr) 'calcFunc-register)
(setq expr (aref math-apply-rw-regs (nth 1 expr)))
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(if (eq (car-safe expr) '*)
(if (eq (nth 1 expr) -1)
(math-neg (nth 2 expr))
(if (eq (nth 1 expr) 1)
(nth 2 expr)
expr))
expr))
((and (eq (car expr) 'calcFunc-eval)
(= (length expr) 2))
(calc-with-default-simplification
(math-normalize (math-rwapply-replace-regs (nth 1 expr)))))
((and (eq (car expr) 'calcFunc-evalsimp)
(= (length expr) 2))
(math-simplify (math-rwapply-replace-regs (nth 1 expr))))
((and (eq (car expr) 'calcFunc-evalextsimp)
(= (length expr) 2))
(math-simplify-extended (math-rwapply-replace-regs (nth 1 expr))))
((and (eq (car expr) 'calcFunc-apply)
(= (length expr) 3))
(let ((func (math-rwapply-replace-regs (nth 1 expr)))
(args (math-rwapply-replace-regs (nth 2 expr)))
call)
(if (and (math-vectorp args)
(not (eq (car-safe (setq call (math-build-call
(math-var-to-calcFunc func)
(cdr args))))
'calcFunc-call)))
call
(list 'calcFunc-apply func args))))
((and (eq (car expr) 'calcFunc-cons)
(= (length expr) 3))
(let ((head (math-rwapply-replace-regs (nth 1 expr)))
(tail (math-rwapply-replace-regs (nth 2 expr))))
(if (math-vectorp tail)
(cons 'vec (cons head (cdr tail)))
(list 'calcFunc-cons head tail))))
((and (eq (car expr) 'calcFunc-rcons)
(= (length expr) 3))
(let ((head (math-rwapply-replace-regs (nth 1 expr)))
(tail (math-rwapply-replace-regs (nth 2 expr))))
(if (math-vectorp head)
(append head (list tail))
(list 'calcFunc-rcons head tail))))
((and (eq (car expr) 'neg)
(math-rwapply-reg-looks-negp (nth 1 expr)))
(math-rwapply-reg-neg (nth 1 expr)))
((and (eq (car expr) 'neg)
(eq (car-safe (nth 1 expr)) 'calcFunc-register)
(math-scalarp (aref math-apply-rw-regs (nth 1 (nth 1 expr)))))
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(math-neg (math-rwapply-replace-regs (nth 1 expr))))
((and (eq (car expr) '+)
(math-rwapply-reg-looks-negp (nth 1 expr)))
(list '- (math-rwapply-replace-regs (nth 2 expr))
(math-rwapply-reg-neg (nth 1 expr))))
((and (eq (car expr) '+)
(math-rwapply-reg-looks-negp (nth 2 expr)))
(list '- (math-rwapply-replace-regs (nth 1 expr))
(math-rwapply-reg-neg (nth 2 expr))))
((and (eq (car expr) '-)
(math-rwapply-reg-looks-negp (nth 2 expr)))
(list '+ (math-rwapply-replace-regs (nth 1 expr))
(math-rwapply-reg-neg (nth 2 expr))))
((eq (car expr) '*)
(cond ((eq (nth 1 expr) -1)
(if (math-rwapply-reg-looks-negp (nth 2 expr))
(math-rwapply-reg-neg (nth 2 expr))
(math-neg (math-rwapply-replace-regs (nth 2 expr)))))
((eq (nth 1 expr) 1)
(math-rwapply-replace-regs (nth 2 expr)))
((eq (nth 2 expr) -1)
(if (math-rwapply-reg-looks-negp (nth 1 expr))
(math-rwapply-reg-neg (nth 1 expr))
(math-neg (math-rwapply-replace-regs (nth 1 expr)))))
((eq (nth 2 expr) 1)
(math-rwapply-replace-regs (nth 1 expr)))
(t
(let ((arg1 (math-rwapply-replace-regs (nth 1 expr)))
(arg2 (math-rwapply-replace-regs (nth 2 expr))))
(cond ((and (eq (car-safe arg1) '/)
(eq (nth 1 arg1) 1))
(list '/ arg2 (nth 2 arg1)))
((and (eq (car-safe arg2) '/)
(eq (nth 1 arg2) 1))
(list '/ arg1 (nth 2 arg2)))
(t (list '* arg1 arg2)))))))
((eq (car expr) '/)
(let ((arg1 (math-rwapply-replace-regs (nth 1 expr)))
(arg2 (math-rwapply-replace-regs (nth 2 expr))))
(if (eq (car-safe arg2) '/)
(list '/ (list '* arg1 (nth 2 arg2)) (nth 1 arg2))
(list '/ arg1 arg2))))
((and (eq (car expr) 'calcFunc-plain)
(= (length expr) 2))
(if (Math-primp (nth 1 expr))
(nth 1 expr)
(if (eq (car (nth 1 expr)) 'calcFunc-register)
(aref math-apply-rw-regs (nth 1 (nth 1 expr)))
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(cons (car (nth 1 expr)) (mapcar 'math-rwapply-replace-regs
(cdr (nth 1 expr)))))))
(t (cons (car expr) (mapcar 'math-rwapply-replace-regs (cdr expr))))))
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(defun math-rwapply-reg-looks-negp (expr)
(if (eq (car-safe expr) 'calcFunc-register)
(math-looks-negp (aref math-apply-rw-regs (nth 1 expr)))
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(if (memq (car-safe expr) '(* /))
(or (math-rwapply-reg-looks-negp (nth 1 expr))
(math-rwapply-reg-looks-negp (nth 2 expr))))))
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(defun math-rwapply-reg-neg (expr) ; expr must satisfy rwapply-reg-looks-negp
(if (eq (car expr) 'calcFunc-register)
(math-neg (math-rwapply-replace-regs expr))
(if (math-rwapply-reg-looks-negp (nth 1 expr))
(math-rwapply-replace-regs (list (car expr)
(math-rwapply-reg-neg (nth 1 expr))
(nth 2 expr)))
(math-rwapply-replace-regs (list (car expr)
(nth 1 expr)
(math-rwapply-reg-neg (nth 2 expr)))))))
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(defun math-rwapply-remember (old new)
(let ((varval (symbol-value (nth 2 (car math-apply-rw-ruleset))))
(rules (assq (car-safe old) math-apply-rw-ruleset)))
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(if (and (eq (car-safe varval) 'vec)
(not (memq (car-safe old) '(nil schedule + -)))
rules)
(progn
(setcdr varval (cons (list 'calcFunc-assign
(if (math-rwcomp-no-vars old)
old
(list 'calcFunc-quote old))
new)
(cdr varval)))
(setcdr rules (cons (list (vector nil old)
(list (list 'same 0 1)
(list 'done new nil))
nil nil)
(cdr rules)))))))
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(provide 'calc-rewr)
;;; calc-rewr.el ends here