Artifact 9aae1c1825cbb09e81ce26c2d45b6a90a8163fdc195e5e461e707987de2957a9:
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r38/lisp/csl/cslbase/compat.lsp
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[f2fda60abd]
at
2011-09-02 18:13:33
on branch master
— Some historical releases purely for archival purposes
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% This file defines functions and variables needed to make REDUCE % and the underlying CSL system compatible. it should % be loaded as the first file whenever REDUCE services are required. % % This code may be used and modified, and redistributed in binary % or source form, subject to the "CCL Public License", which should % accompany it. This license is a variant on the BSD license, and thus % permits use of code derived from this in either open and commercial % projects: but it does require that updates to this code be made % available back to the originators of the package. % Before merging other code in with this or linking this code % with other packages or libraries please check that the license terms % of the other material are compatible with those of this. % (setpchar "> ") (remflag '(geq leq neq logand logor logxor leftshift princ printc evenp reversip seprp atsoc eqcar flagp!*!* flagpcar get!* prin1 prin2 apply0 apply1 apply2 apply3 smemq spaces subla gcdn printprompt pair) 'lose) (symbol!-make!-fastget 32) (symbol!-make!-fastget 'noncom 0) % built into the kernel (symbol!-make!-fastget 'lose 1) (flag '(raise lower echo comp plap pgwd pwrds savedef) 'switch) (make!-special '!*echo) (setq !*echo nil) (make!-special '!*raise) (setq !*raise nil) (make!-special '!*lower) (setq !*lower t) (make!-special '!*savedef) % I only nil out !*savedef if it is not already present because of % some bootstrapping delicacies when this file is re-loaded. (if (not (boundp '!*savedef)) (setq !*savedef nil)) (make!-special '!*comp) (setq !*comp nil) (make!-special '!*plap) (setq !*plap nil) (make!-special '!*pgwd) (setq !*pgwd nil) (make!-special '!*pwrds) (setq !*pwrds t) % Until the following lines have been executed the % bitwise operations listed here will not work. (progn (symbol!-set!-env 'logand 1) (symbol!-set!-env 'logxor 6) (symbol!-set!-env 'logor 7) (symbol!-set!-env 'logeqv 9)) (make!-special '!!fleps1) (setq !!fleps1 1.0e-12) (symbol!-set!-env 'safe!-fp!-plus '!!fleps1) (de rplacw (a b) (progn (rplaca a (car b)) (rplacd a (cdr b)))) (de expand (l fn) (cond ((null (cdr l)) (car l)) (t (list fn (car l) (expand (cdr l) fn))))) (dm plus (a) (cond ((null (cdr a)) 0) (t (expand (cdr a) 'plus2)))) (dm times (a) (cond ((null (cdr a)) 1) (t (expand (cdr a) 'times2)))) (de mapcar (l fn) (prog (r) top (cond ((null l) (return (reversip r)))) (setq r (cons (funcall fn (car l)) r)) (setq l (cdr l)) (go top))) (de maplist (l fn) (prog (r) top (cond ((null l) (return (reversip r)))) (setq r (cons (funcall fn l) r)) (setq l (cdr l)) (go top))) (de mapcan (l fn) (cond ((null l) nil) (t (nconc (funcall fn (car l)) (mapcan (cdr l) fn))))) (de mapcon (l fn) (cond ((null l) nil) (t (nconc (funcall fn l) (mapcon (cdr l) fn))))) (de mapc (l fn) (prog () top (cond ((null l) (return nil))) (funcall fn (car l)) (setq l (cdr l)) (go top))) (de map (l fn) (prog () top (cond ((null l) (return nil))) (funcall fn l) (setq l (cdr l)) (go top))) (de copy (a) (cond ((atom a) a) (t (cons (copy (car a)) (copy (cdr a)))))) (de sassoc (a l fn) (cond ((atom l) (funcall fn)) ((equal a (caar l)) (car l)) (t (sassoc a (cdr l) fn)))) (de rassoc (x l) % Not in Standard Lisp (prog () loop (cond ((atom l) (return nil)) ((equal x (cdar l)) (return (car l))) (t (setq l (cdr l)) (go loop))) )) (de lastcar (x) % Not in Standard Lisp (cond ((null x) nil) ((null (cdr x)) (car x)) (t (lastcar (cdr x))))) % The system-coded primitive function INTERNAL-OPEN opens a file, and takes % a second argument that shows what options are wanted. See "print.c" for an % explanation of the bits. (de open (a b) (cond ((eq b 'input) (internal!-open a (plus 1 64))) % if-does-not-exist error ((eq b 'output) (internal!-open a (plus 2 20 32))) % if-does-not-exist create, % if-exists new-version ((eq b 'append) (internal!-open a (plus 2 8 32))) % if-exists append (t (error "bad direction ~A in open" b)))) (de binopen (a b) (cond ((eq b 'input) (internal!-open a (plus 1 64 128))) ((eq b 'output) (internal!-open a (plus 2 20 32 128))) ((eq b 'append) (internal!-open a (plus 2 8 32 128))) (t (error "bad direction ~A in binopen" b)))) (de pipe!-open (c d) (cond ((eq d 'input) (internal!-open c (plus 1 256))) ((eq d 'output) (internal!-open c (plus 2 256))) (t (error "bad direction ~A in pipe-open" d)))) (de putd (a type b) (progn (cond ((eqcar b 'funarg) (setq b (cons 'lambda (cddr b))))) (cond ((flagp a 'lose) (progn (terpri) (princ "+++ ") (prin a) (printc " not defined (LOSE flag)") nil)) (t (progn (cond ((and !*redefmsg (getd a)) (progn (terpri) (princ "+++ ") (prin a) (printc " redefined")))) (cond ((eq type 'expr) (symbol!-set!-definition a b)) ((eq type 'subr) (symbol!-set!-definition a b)) ((and (eq type 'macro) (eqcar b 'lambda)) (eval (list!* 'dm a (cdr b)))) (t (error "Bad type ~S in putd" type))) a)))))) (de putc (a b c) (put a b c)) (de traceset1 (name) (prog (w !*comp) (setq w (getd name)) (cond ((not (and (eqcar w 'expr) (eqcar (cdr w) 'lambda))) (princ "+++++ ") (prin name) (printc " should be interpreted for traceset to work") (return nil))) (putd name 'expr (subst 'noisy!-setq 'setq (cdr w))) (trace (list name)))) (de untraceset1 (name) (prog (w !*comp) (setq w (getd name)) (cond ((not (and (eqcar w 'expr) (eqcar (cdr w) 'lambda))) (princ "+++++ ") (prin name) (printc " should be interpreted for untraceset to work") (return nil))) (putd name 'expr (subst 'setq 'noisy!-setq (cdr w))) (untrace (list name)))) (de traceset (l) (mapc l (function traceset1))) (de untraceset (l) (mapc l (function untraceset1))) (de deflist (a b) (prog (r) top (cond ((null a) (return (reversip r)))) (put (caar a) b (cadar a)) (setq r (cons (caar a) r)) (setq a (cdr a)) (go top))) (de global (l) (prog nil top (cond ((null l) (return nil))) (make!-global (car l)) (cond ((not (boundp (car l))) (set (car l) nil))) (setq l (cdr l)) (go top))) (de fluid (l) (prog nil top (cond ((null l) (return nil))) (make!-special (car l)) (cond ((not (boundp (car l))) (set (car l) nil))) (setq l (cdr l)) (go top))) (de unglobal (l) (prog () top (cond ((null l) (return nil))) (unmake!-global (car l)) (setq l (cdr l)) (go top))) (de unfluid (l) (prog () top (cond ((null l) (return nil))) (unmake!-special (car l)) (setq l (cdr l)) (go top))) (global '(ofl!*)) (de printprompt (u) nil) (global '(program!* ttype!* eof!*)) (global '(crbuf!*)) (global '(blank !$eol!$ tab !$eof!$ esc!*)) (fluid '(!*notailcall !*carcheckflag)) (fluid '(!*terminal!-io!* !*standard!-input!* !*standard!-output!* !*error!-output!* !*trace!-output!* !*debug!-io!* !*query!-io!*)) (setq !*notailcall nil) (setq !*carcheckflag t) (de carcheck (n) (prog (old) (cond ((zerop n) (setq n nil))) (setq old !*carcheckflag) (setq !*carcheckflag n) (return old))) (progn % The "special-char" numeric codes here are all very odd and are of no % relevance beyond the initial build stages of this Lisp. In particular they % have little or no resemblance to any widely used character code schemes. (setq blank (compress (list '!! (special!-char 0)))) (setq !$eol!$ (compress (list '!! (special!-char 1)))) (setq tab (compress (list '!! (special!-char 3)))) (setq esc!* (compress (list '!! (special!-char 9)))) (setq !$eof!$ (special!-char 8)) nil) (setq crbuf!* (list !$eol!$)) % may not be necessary (de symerr (u v) (progn (terpri) (print (list 'symerr u v)) (error 'failure))) (de s!:oblist (v r) (prog (n a) (setq n (upbv v)) top (cond ((minusp n) (return r))) (setq a (getv v n)) (cond ((and (idp a) % I list things that have a function value of some sort or that have % a non-empty property-list. Symbols that have been mentioned but which do % not have properties or values are missed out since they are dull and % seeing them listed is probably not very helpful. People may disagree % about that... if so it would be very easy to remove the tests here and % end up listing everything. Eg some symbols exist and are used as property- % names (via PUT and GET) but are not used for anything else... (or (symbol!-function a) (macro!-function a) (special!-form!-p a) (fluidp a) (globalp a) (not (null (plist a))))) (setq r (cons a r)))) (setq n (sub1 n)) (go top))) (de s!:oblist1 (v r) (cond ((null v) r) ((vectorp v) (s!:oblist v r)) % This allows for segmented object-vectors (t (s!:oblist (car v) (s!:oblist1 (cdr v) r))))) (de oblist () (sort (s!:oblist1 (getv !*package!* 1) nil) (function orderp))) % Now a few things not needed by Standard Lisp but maybe helpful % when using Lisp directly. (de s!:make!-psetq!-vars (u) (if (null u) nil (if (null (cdr u)) (error "odd number of items in psetq") (cons (gensym) (s!:make!-psetq!-vars (cddr u)))))) (de s!:make!-psetq!-bindings (vars u) (if (null u) nil (cons (list (car vars) (cadr u)) (s!:make!-psetq!-bindings (cdr vars) (cddr u))))) (de s!:make!-psetq!-assignments (vars u) (if (null u) nil (cons (list 'setq (car u) (car vars)) (s!:make!-psetq!-assignments (cdr vars) (cddr u))))) (dm psetq (x) (!~let ((vars (s!:make!-psetq!-vars (cdr x)))) `(let!* ,(s!:make!-psetq!-bindings vars (cdr x)) ,@(s!:make!-psetq!-assignments vars (cdr x))))) % (do ((v i s) ..) % (end result ...) % body) (de s!:do!-bindings (u) (if (null u) nil (if (atom (car u)) (cons (car u) (s!:do!-bindings (cdr u))) (if (null (cdar u)) (cons (list (caar u) nil) (s!:do!-bindings (cdr u))) (cons (list (caar u) (cadar u)) (s!:do!-bindings (cdr u))))))) (de s!:do!-endtest (u) (if (null u) nil (car u))) (de s!:do!-result (u) (if (null u) nil (cdr u))) (de s!:do!-updates (u) (if (null u) nil (!~let ((v (car u)) (x (s!:do!-updates (cdr u)))) (if (or (atom v) (null (cdr v)) (null (cddr v))) x (cons (car v) (cons (caddr v) x)))))) (de s!:expand!-do (u letter setter) (let!* ((bindings (s!:do!-bindings (car u))) (result (s!:do!-result (cadr u))) (updates (s!:do!-updates (car u))) (body (cddr u)) (endtest (s!:do!-endtest (cadr u))) (upd (if updates (list (cons setter updates)) nil)) (res (if (null result) nil (if (null (cdr result)) (car result) (cons 'progn result)))) (x (if (null endtest) nil `((if ,endtest (return ,res))))) (g (gensym))) (if bindings `(,letter ,bindings (prog nil ,g ,@x ,@body ,@upd (go ,g))) `(prog nil ,g ,@x ,@body ,@upd (go ,g))))) (dm do (u) (s!:expand!-do (cdr u) '!~let 'psetq)) (dm do!* (u) (s!:expand!-do (cdr u) 'let!* 'setq)) (de s!:expand!-dolist (vir b) (prog (l v var init res) (setq var (car vir)) (setq init (car (setq vir (cdr vir)))) (setq res (cdr vir)) (setq v (gensym)) (setq l (gensym)) (return `(prog (,v ,var) (setq ,v ,init) ,l (cond ((null ,v) (return (progn ,@res)))) (setq ,var (car ,v)) ,@b (setq ,v (cdr ,v)) (go ,l))))) (dm dolist (u) (s!:expand!-dolist (cadr u) (cddr u))) (de s!:expand!-dotimes (vnr b) (prog (l v var count res) (setq var (car vnr)) (setq count (car (setq vnr (cdr vnr)))) (setq res (cdr vnr)) (setq v (gensym)) (setq l (gensym)) (return `(prog (,v ,var) (setq ,v ,count) (setq ,var 0) ,l (cond ((not (lessp ,var ,v)) (return (progn ,@res)))) ,@b (setq ,var (add1 ,var)) (go ,l))))) (dm dotimes (u) (s!:expand!-dotimes (cadr u) (cddr u))) (flag '(geq leq neq logand logor logxor leftshift princ printc evenp reversip seprp atsoc eqcar flagp!*!* flagpcar get!* prin1 prin2 apply0 apply1 apply2 apply3 smemq spaces subla gcdn printprompt pair) 'lose) % end of compat.lsp