Artifact 0ab2bc1fd9f8e73c0897003e9f51ef73a6b515c42d69ce75e247e67a7a5d706f:


module cslrend; % CSL REDUCE "back-end".

% Authors: Martin L. Griss and Anthony C. Hearn.
% Modified by Arthur Norman for use with CSL.

create!-package('(cslrend autopatch csl),nil);

fluid '(!*break
	!*echo
	!*eolinstringok
	!*int
	!*mode
	!*raise
	!*lower
	!*keepsqrts);

global '(!$eol!$
	 !*extraecho
	 cr!*
	 crchar!*
	 date!*
	 esc!*
	 ff!*
	 ifl!*
	 ipl!*
	 largest!-small!-modulus
	 lispsystem!*
	 ofl!*
	 spare!*
	 statcounter
	 crbuflis!*
	 tab!*
	 version!*
         copyright1!*
         copyright2!*
         loadable!-packages!*
         switches!*
	 symchar!*);

copyright1!* := "Copyright A C Hearn, 2004";
copyright2!* := "Copyright Codemist Ltd, 2004";


loadable!-packages!* := '(
    algint      applysym    arnum       assist      atensor
    avector     boolean     cali        camal       cantens
    cedit       cgb         changevr    cl          compact
    conlaw      crack       cvit        defint      desir
    dfpart      dummy       dvfsf       eds         excalc
    ezgcd       factor      fide        fmprint     fps
    ftr         gentran     geoprover   ghyper      gnuplot
    groebner    hephys      ideals      ineq        int
    invbase     laplace     lie         liepde      limits
    linalg      mathml      matrix      meijerg     misc
    modsr       mrvlimit    ncpoly      normform    numeric
    odesolve    ofsf        orthovec    pf          physop
    plot        pm          polydiv     pretty      qsum
    randpoly    rataprx     ratint      rcref       reacteqn
    redlog      reset       residue     rlfi        rlisp88
    rltools     roots       rprint      rsolve      rtrace
    scope       sets        sfgamma     solve       sparse
    spde        specfn      sum         support     susy2
    symmetry    taylor      tps         tri         trigint
    trigsimp    wu          xcolor      xideal      zeilberg
    ztrans);

% This amazingly long list of switches was created as a by-product
% of building the bootstrap version of Reduce 3.8. In that build use of
% the directive that introduces switches is logged. Not all of these switches
% are really aimed at the general public, and almost all only apply when
% some particular module is loaded.

switches!* := '(
acinfo          adjprec          again            algint           algpri
allbranch       allfac           allowdfint       allpoly          anticom
arbvars         arnum            asterisk         backtrace        balanced_mod
balanced_was_on batch_mode       bcsimp           bezout           bfspace
boese           both             carcheckflag     carefuleq        centergrid
cgbcheckg       cgbcontred       cgbcounthf       cgbfullred       cgbgen
cgbgs           cgbreal          cgbsgreen        cgbstat          cgbupdb
cgbverbose      coates           combineexpt      combinelogs      commutedf
commuteint      comp             complex          compxroots       contract
cramer          cref             cvit             debug            debug_times
defn            demo             derexp           detectunits      dfint
dfprint         diffsoln         dispjacobian     distribute       div
double          downcase         dummypri         echo             edsdebug
edsdisjoint     edssloppy        edsverbose       eqfu             errcont
essl            evallhseqp       exdelt           exp              expanddf
expandexpt      expandlogs       ezgcd            f90              factor
factorprimes    factorunits      failhard         fancy            fancy_tex
fast_la         fastfor          faststructs      fastvector       force
fort            fortupper        fourier          ftch             fulleq
fullpoly        fullprec         fullprecision    fullroots        gbltbasis
gc              gcd              gendecs          genpos           gentranopt
gentranseg      getdecs          gltbasis         groebfac         groebfullreduction
groebopt        groebprot        groebrm          groebstat        groebweak
gsugar          hardzerotest     heugcd           horner           hyperbolic
ifactor         imaginary        imsl             inputc           int
int_test        intern           intstr           keepdecs         lasimp
latex           lcm              lessspace        lexefgb          lhyp
limitedfactors  list             listargs         lmon             looking_good
lower           lower_matrix     ltrig            makecalls        mathml
mcd             mod_was_on       modular          msg              multiplicities
multiroot       mymatch          nag              nat              nero
nested          noacn            noarg            nocommutedf      nocompile
noconvert       noetherian       noint            nointint         nolnr
nonlnr          nopowers         nosplit          nosturm          not_negative
notailcall      novarmsg         numval           odesolve_basis   odesolve_check
odesolve_diff   odesolve_equidim_y odesolve_expand odesolve_explicit odesolve_fast
odesolve_full   odesolve_implicit odesolve_noint  odesolve_norecurse odesolve_noswap
odesolve_simp_arbparam odesolve_verbose onespace  only_integer     optdecs
ord             outerzeroscheck  output           overview         partialint
partialintdf    partialintint    period           pgwd             plap
plotkeep        plotusepipe      prapprox         precise          prefix
pret            prfourmat        pri              priall           primat
prlinineq       psen             pvector          pwrds            qgosper_down
qgosper_specials qsum_nullspace  qsum_trace       qsumrecursion_certificate qsumrecursion_down
qsumrecursion_exp qsumrecursion_profile quotenewnam r2i            raise
ranpos          rat              ratarg           rational         rationalize
ratpri          ratroot          red_total        reduce4          reduced
revpri          rladdcond        rlanuexdebug     rlanuexdifferentroots rlanuexgcdnormalize
rlanuexpsremseq rlanuexsgnopt    rlanuexverbose   rlbnfsac         rlbnfsm
rlbrop          rlcadaproj       rlcadaprojalways rlcadbaseonly    rlcaddebug
rlcaddecdeg     rlcaddnfformula  rlcadextonly     rlcadfac         rlcadfasteval
rlcadfulldimonly rlcadhongproj   rlcadisoallroots rlcadmc3         rlcadmcproj
rlcadpartial    rlcadpbfvs       rlcadpreponly    rlcadprojonly    rlcadrawformula
rlcadte         rlcadtrimtree    rlcadverbose     rldavgcd         rlgsbnf
rlgserf         rlgsprod         rlgsrad          rlgsred          rlgssub
rlgsutord       rlgsvb           rlidentify       rlisp88          rlnzden
rlopt1s         rlourdet         rlparallel       rlposden         rlpscsgen
rlqedfs         rlqefb           rlqegen1         rlqegenct        rlqegsd
rlqeheu         rlqepnf          rlqeqsc          rlqesqsc         rlqesr
rlqevarsel      rlrealtime       rlsiatadv        rlsichk          rlsiexpl
rlsiexpla       rlsifac          rlsiidem         rlsimpl          rlsipd
rlsipo          rlsipw           rlsism           rlsiso           rlsitsqspl
rlsusi          rlsusiadd        rlsusigs         rlsusimult       rltabib                  rltnft
rlverbose       rlvmatvb         rlxopt           rlxoptpl         rlxoptri
rlxoptric       rlxoptrir        rlxoptsb         rlxoptses        rootmsg
roundall        roundbf          rounded          rtrace           saveactives
savedef         savesfs          savestructr      semantic         sfto_musser
sfto_tobey      sfto_yun         show_grid        sidrel           simpnoncomdf
solvesingular   symmetric        taylorautocombine taylorautoexpand taylorkeeporiginal
taylornocache   taylorprintorder tdusetorder      tensor           test_plot
testecho        tex              texbreak         texindent        time
tr_lie          tra              tracefps         tracelimit       traceratint
tracespecfns    tracetrig        trallfac         trchrstrem       trcompact
trdesir         trdint           trfac            trfield          trgroeb
trgroeb1        trgroebr         trgroebs         trham            trigform
trint           trinvbase        trlinineq        trlinineqint     trlinrec
trmin           trnonlnr         trnumeric        trode            trplot
trpm            trroot           trsolve          trsum            trtaylor
trwu            trxideal         trxmod           twogrid          twosided
unsafecar       upcase           upper_matrix     useold           usetaylor
usez            varopt           vectorc          verbatim         verboseload
vtrace          web              windexpri        wrchri           xfullreduce
xpartialint     xpartialintdf    xpartialintint   zb_factor        zb_inhomogeneous
zb_proof        zb_timer         zb_trace         zeilberg);

% Constants used in scanner.

flag('(define!-constant),'eval);

cr!* := compress(list('!!, special!-char 6));   % carriage return
ff!* := compress(list('!!, special!-char 5));   % form feed
tab!*:= compress(list('!!, special!-char 3));   % tab key


% One inessential reference to REVERSIP in this module (left unchanged).

% This file defines the system dependent code necessary to run REDUCE
% under CSL.

Comment The following functions, which are referenced in the basic
REDUCE source (RLISP, ALG1, ALG2, MATR and PHYS) should be defined to
complete the definition of REDUCE:

	BYE
	EVLOAD
	ERROR1
	FILETYPE
	MKFIL
	ORDERP
	QUIT
	SEPRP
	SETPCHAR.

Prototypical descriptions of these functions are as follows;

remprop('bye,'stat);

symbolic procedure bye;
   %Returns control to the computer's operating system command level.
   %The current REDUCE job cannot be restarted;
   <<close!-output!-files(); stop 0>>;

deflist('((bye endstat)),'stat);

remprop('quit,'stat);

symbolic procedure quit;
   %Returns control to the computer's operating system command level.
   %The current REDUCE job cannot be restarted;
   <<close!-output!-files(); stop 0>>;

deflist('((quit endstat)),'stat);

% evload is now defined in cslprolo.red - this has to be the case
% so it can be used (via load_package) to load rlisp and cslrend.
% symbolic procedure evload l;
%   for each m in l do load!-module m;

symbolic procedure seprp u;
   % Returns true if U is a blank, end-of-line, tab, carriage return or
   % form feed.  This definition replaces the one in the BOOT file.
   u eq '!  or u eq tab!* or u eq !$eol!$ or u eq ff!* or u eq cr!*;

symbolic procedure filetype u;
   % Determines if string U has a specific file type.
   begin scalar v,w;
      v := cdr explode u;
      while v and not(car v eq '!.) do
	<<if car v eq '!< then while not(car v eq '!>) do v := cdr v;
	  v := cdr v>>;
      if null v then return nil;
      v := cdr v;
      while v and not(car v eq '!") do <<w := car v . w; v := cdr v>>;
      return intern compress reversip w
   end;

symbolic procedure mkfil u;
   % Converts file descriptor U into valid system filename.
   if stringp u then u
    else if not idp u then typerr(u,"file name")
    else string!-downcase u;


Comment The following functions are only referenced if various flags are
set, or the functions are actually defined. They are defined in another
module, which is not needed to build the basic system. The name of the
flag follows the function name, enclosed in parentheses:

	CEDIT (?)
	COMPD (COMP)
	EDIT1   This function provides a link to an editor. However, a
		definition is not necessary, since REDUCE checks to see
		if it has a function value.
	EMBFN (?)
	EZGCDF (EZGCD)
	PRETTYPRINT (DEFN --- also called by DFPRINT)
		This function is used in particular for output of RLISP
		expressions in LISP syntax. If that feature is needed,
		and the prettyprint module is not available, then it
		should be defined as PRINT
	RPRINT (PRET)
	TIME (TIME) returns elapsed time from some arbitrary initial
		    point in milliseconds;



Comment The following operator is used to save a REDUCE session as a
file for later use;

symbolic procedure savesession u;
   preserve('begin);

flag('(savesession),'opfn);

flag('(savesession),'noval);


Comment make "system" available as an operator;

flag('(system),'opfn);

flag('(system),'noval);


Comment to make "faslend" an endstat;

put('faslend,'stat,'endstat);


Comment The current REDUCE model allows for the availability of fast
arithmetical operations on small integers (called "inums").  All modern
LISPs provide such support.  However, the program will still run without
these constructs.  The relevant functions that should be defined for
this purpose are as follows;

flag('(iplus itimes iplus2 itimes2 iadd1 isub1 iminus iminusp
       idifference iquotient iremainder ilessp igreaterp ileq igeq
       izerop ionep), 'lose);

Comment There are also a number of system constants required for each
implementation. In systems that don't support inums, the equivalent
single precision integers should be used;

% LARGEST!-SMALL!-MODULUS is the largest power of two that can
% fit in the fast arithmetic (inum) range of the implementation.
% This is constant for the life of the system and could be
% compiled in-line if the compiler permits it.

largest!-small!-modulus := 2**24 - 1; % I could use up to 2^27-1, but
	 % stick to 2^24-1 since that's what Cambridge Lisp used to use.

flag('(modular!-difference modular!-minus modular!-number
       modular!-plus modular!-quotient modular!-reciprocal
       modular!-times modular!-expt set!-small!-modulus), 'lose);

% See comments about gensym() below - which apply also to the
% effects of having different random number generators in different
% host Lisp systems.
% From 3.5 onwards (with a new random generator built into the
% REDUCE sources) I am happy to use the portable version.

% flag('(random next!-random!-number), 'lose);

set!-small!-modulus 3;

% The following are now built into CSL, where by using the C library
% and (hence?) maybe low level tricks or special floating point
% microcode things can go fast.

flag('(acos acosd acosh acot acotd acoth acsc acscd acsch asec asecd
       asech asin asind asinh atan atand atan2 atan2d atanh cbrt cos
       cosd cosh cot cotd coth csc cscd csch exp expt hypot ln log
       logb log10 sec secd sech sin sind sinh sqrt tan tand tanh fix
       ceiling floor round clrhash puthash gethash remhash), 'lose);

% remflag('(int!-gensym1),'lose);

% symbolic procedure int!-gensym1 u;
% In Codemist Lisp compress interns - hence version in int.red may
% not work.  However, it seems to be ok for now.
%   gensym1 u;

% flag('(int!-gensym1),'lose);


global '(loaded!-packages!* no!_init!_file personal!-dir!*);

personal!-dir!* := "$HOME";

symbolic procedure load!-patches!-file;
   begin scalar !*redefmsg,file,x; % Avoid redefinition messages.
      if memq('demo, lispsystem!*) then return;
      if filep(file := concat(personal!-dir!*,"/patches.fsl")) then nil
       else if filep(file :=
	  concat(get!-lisp!-directory(),"/patches.fsl"))
	then nil
       else return nil;
      x := binopen(file,'input);
      for i := 1:16 do readb x; % Skip checksum stuff.
      load!-module x;   % Load patches.
      close x;
      if patch!-date!*
	then startup!-banner concat(version!*,concat(", ",concat(date!*,
		concat(", patched to ",concat(patch!-date!*," ...")))));
      for each m in loaded!-packages!* do
	 if (x := get(m,'patchfn)) then apply(x,nil)
   end;

% For compatibility with older versions.

symbolic procedure load!-latest!-patches;
   load!-patches!-file();

Comment We need to define a function BEGIN, which acts as the top-level
call to REDUCE, and sets the appropriate variables;

remflag('(begin),'go);

symbolic procedure begin;
  begin
     scalar w,!*redefmsg;
     !*echo := not !*int;
     !*extraecho := t;
% If invoked from texmacs do something special...
     if modulep 'tmprint and member('texmacs, lispsystem!*) then <<
         w := verbos 0;
         load!-module 'tmprint;
         fmp!-switch t;
         off1 'promptnumbers;
         verbos w >>
% If the tmprint module is loaded and I have a window that can support it
% I will display things in a "fancy" way within the CSL world.
     else if getd 'fmp!-switch then
        fmp!-switch member('showmath, lispsystem!*);
     ifl!* := ipl!* := ofl!* := nil;
     if date!* then <<
        verbos nil;
% The linelength may need to be adjusted if we are running in a window.
% To cope with this, CSL allows (linelength t) to set a "default" line
% length that can even vary as window sizes are changed. An attempt
% will be made to ensure that it is 80 at the start of a run, but
% (linelength nil) can return varying values as the user re-sizes the
% main window (in some versions of CSL). However this is still not
% perfect! The protocol
%   old := linelength nil;
%   <do something, possibly changing linelength as you go>
%   linelength old;
% can not restore the variability characteristic. However I make
%   old := linelength n; % n numeric or T
%   ...
%   linelength old;
% preserve things by returning T from (linelength n) in relevant cases.
        linelength t;
% The next four lines have been migrated into the C code in "restart.c"
% so that some sort of information gets back to the user nice and early.
%       prin2 version!*;
%       prin2 ", ";
%       prin2 date!*;
%       prin2t " ...";
        if getd 'addsq then <<
% I assume here that this is an algebra system if ADDSQ is defined, and
% in that case process an initialisation file. Starting up without ADDSQ
% defined means I either have just RLISP built or I am in the middle of
% some bootstrap process. Also if a variable no_init_file is set to TRUE
% then I avoid init file processing.
           !*mode := 'algebraic;
	   if null no!_init!_file then begin
              scalar name;
              name := assoc('shortname, lispsystem!*);
              if atom name then name := "reduce"
              else name := list!-to!-string explode2lc cdr name;
              erfg!* := nil;
              read!-init!-file name end >>
        else !*mode := 'symbolic;
	% date!* := nil;
	>>;
% If there is a patches module that is later than one that I currently
% have installed then load it up now.
     if version!* neq "REDUCE Development Version"
        then load!-patches!-file();
     w := assoc('opsys, lispsystem!*);
     if not atom w then w := cdr w;
% For MOST systems I will let ^G (bell) be the escape character, but
% under win32 I use that as an interrupt character, and so there I go
% back and use ESC instead.  I do the check at BEGIN time rather than
% further out so that common checkpoint images can be used across
% systems.
     esc!*:= compress list('!!,
		special!-char (if w = 'win32 then 10 else 9));
     while errorp errorset('(begin1), !*backtrace, !*backtrace) do nil;
     prin2t "Leaving REDUCE ... "
  end;

flag('(begin),'go);

% The following function is used in some CSL-specific operations. It is
% also defined in util/rprint, but is repeated here to avoid loading
% that module unnecessarily, and because the definition given there is
% rather PSL specific.

remflag('(string!-downcase),'lose);

symbolic procedure string!-downcase u;
   compress('!" . append(explode2lc u,'(!")));

% princ!-upcase and princ!-downcase are used for fortran output

flag('(string!-downcase princ!-upcase princ!-downcase),'lose);

% This function is used in Rlisp '88.

symbolic procedure igetv(u,v); getv(u,v);

symbolic procedure iputv(u,v,w); putv(u,v,w);

% The following functions are NOT in Standard Lisp and should NOT be
% used anywhere in the REDUCE sources, but the amount of trouble I have
% had with places where they do creep in has encouraged me to define
% them here anyway and put up with the (small) waste of space.

symbolic procedure first x; car x;

symbolic procedure second x; cadr x;

symbolic procedure third x; caddr x;

symbolic procedure fourth x; cadddr x;

symbolic procedure rest x; cdr x;


Comment Initial setups for REDUCE;

spare!* := 0;    % We need this for bootstrapping.

symchar!* := t;  % Changed prompt when in symbolic mode.


% PSL has gensyms with names g0001, g0002 etc., and in a few places
% REDUCE will insert gensyms into formulae in such a way that their
% names can influence the ordering of terms.  The next fragment of
% commented out code make CSL use similar names (but interned).  This
% is not sufficient to guarantee a match with PSL though, since in (for
% instance) the code
%      list(gensym(), gensym(), gensym())
% there is no guarantee which gensym will have the smallest serial
% number.  Also if !*comp is true and the user defines a procedure it is
% probable that the compiler does a number (just how many we do not
% wish to say) of calls to gensym, upsetting the serial number
% sequence.  Thus other ways of ensuring consistent output from REDUCE
% are needed.

%- global '(gensym!-counter);

%- gensym!-counter := 1;

%- symbolic procedure reduce!-gensym();
%-   begin
%-     scalar w;
%-     w := explode gensym!-counter;
%-     gensym!-counter := gensym!-counter+1;
%-     while length w < 4 do w := '!0 . w;
%-     return compress ('g . w)
%-   end;

%- remflag('(gensym), 'lose);
%- remprop('gensym, 's!:builtin0);

%- smacro procedure gensym();
%-    reduce!-gensym();

% However, the current CSL gensym uses an upper case G as the root,
% which causes inconsistencies in some tests (e.g., int and qsum).
% This definition cures that.

symbolic smacro procedure gensym; gensym1 'g;


symbolic procedure initreduce;
   initrlisp();   % For compatibility.

symbolic procedure initrlisp;
  % Initial declarations for REDUCE
  <<statcounter := 0;
%-  gensym!-counter := 1;
    crbuflis!* := nil;
    spare!* := 0;
%   !*int := not batchp();
    !*int := t;
  >>;

symbolic procedure rlispmain;
    lispeval '(begin);

flag('(rdf preserve reclaim),'opfn);

flag('(rdf preserve),'noval);

flag('(load reload),'noform);

deflist('((load rlis) (reload rlis)),'stat);

symbolic macro procedure load x; PSL!-load(cdr x, nil);
symbolic macro procedure reload x; PSL!-load(cdr x, t);

global '(PSL!-loaded!*);
PSL!-loaded!* := nil;

symbolic procedure PSL!-load(mods, reloadp);
  for each x in mods do <<
    if reloadp or not member(x, PSL!-loaded!*) then <<
%      load!-module x;
       load!-package x;
       PSL!-loaded!* := union(list x, PSL!-loaded!*) >> >>;

symbolic macro procedure tr x;
   list('trace, list('quote, cdr x));

symbolic macro procedure untr x;
   list('untrace, list('quote, cdr x));

symbolic macro procedure trst x;
   list('traceset, list('quote, cdr x));

symbolic macro procedure untrst x;
   list('untraceset, list('quote, cdr x));

flag('(tr untr
      trst untrst
      ),'noform);

deflist('((tr rlis)     (trst rlis)
	  (untr rlis)   (untrst rlis)
	 ),'stat);

symbolic procedure prop x; plist x;  % Yukky PSL compatibility.

Comment The following declarations are needed to build various modules;

flag('(mkquote spaces subla boundp error1),'lose);

% The exact order of items in the lists produced by these is important
% to REDUCE.
flag('(union intersection), 'lose);

flag('(safe!-fp!-plus safe!-fp!-times safe!-fp!-quot
%      safe!-fp!-pl safe!-fp!-pl0
    ), 'lose);

flag('(threevectorp ordp), 'lose);

deflist('((imports rlis)),'stat);

flag('(sort stable!-sort stable!-sortip),'lose);

% We also need this.

flag('(lengthc),'lose);

symbolic procedure concat2(u,v); concat(u,v);

symbolic procedure concat(u,v);
   % This would be better supported at a lower level.
   compress('!" . append(explode2 u,nconc(explode2 v,list '!")));

% Used by patching mechanism.
%
% Note that DESPITE the name this MUST be an interned symbol not a
% gensym since it will be used as the name of a function written out
% using FASLOUT and later re-loaded: gensym identities can not survive
% this transition.  The symbols created by dated!-name are almost
% always going to avoid clashes - see commentary in the CSL source file
% "extras.red" for an explanation.

symbolic procedure dated!-gensym u; dated!-name u;

endmodule;

end;


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