Artifact 96b4a7be0969565fbe9578a65c00e6627edb984da43a5b75027c5afb7ffb580d:
- Executable file
r37/packages/misc/reset.red
— part of check-in
[f2fda60abd]
at
2011-09-02 18:13:33
on branch master
— Some historical releases purely for archival purposes
git-svn-id: https://svn.code.sf.net/p/reduce-algebra/code/trunk/historical@1375 2bfe0521-f11c-4a00-b80e-6202646ff360 (user: arthurcnorman@users.sourceforge.net, size: 4609) [annotate] [blame] [check-ins using] [more...]
- Executable file
r38/packages/misc/reset.red
— part of check-in
[f2fda60abd]
at
2011-09-02 18:13:33
on branch master
— Some historical releases purely for archival purposes
git-svn-id: https://svn.code.sf.net/p/reduce-algebra/code/trunk/historical@1375 2bfe0521-f11c-4a00-b80e-6202646ff360 (user: arthurcnorman@users.sourceforge.net, size: 4609) [annotate] [blame] [check-ins using]
module reset; % Code to reset REDUCE to the initial state. % John Fitch, Codemist Ltd 1988 <jpff@maths.bath.ac.uk> % Given to the REDUCE community for what it is worth. % Revised August 1995 for Reduce 3.6. % create!-package('(reset),'(contrib misc)); % The command RESETREDUCE works through the history of previous % commands, and clears any values which have been assigned, plus any % rules, arrays and the like. It also sets the various switches to % their initial values. It is not complete, but does work for most % things that cause a gradual loss of space. It would be relatively % easy to make it interactive, so allowing for selective resetting. symbolic procedure resetreduce; begin scalar mode,statno,comm; % Set all switches back to initial values % These may vary from system to system!! !*algint:=nil; !*adjprec:=nil; !*allbranch:=nil; !*allfac:=t; !*arbvars:=nil; !*asterisk:=t; !*backtrace:=nil; !*balanced_mod:=nil; !*bfspace:=nil; !*combineexpt:=nil; !*combinelogs:=nil; !*comp:=nil; !*complex:=nil; !*compxroots:=nil; !*cramer:=nil; !*cref:=nil; !*defn:=nil; !*demo:=nil; !*dfprint:=nil; !*div:=nil; !*echo:=nil; !*errcont:=nil; !*evallhseqp:=nil; !*exp:=t; !*expandexpt:=t; !*expandlogs:=nil; !*ezgcd:=nil; !*factor:=nil; !*fastfor:=nil; !*force:=nil; !*fort:=nil; !*fortupper:=nil; !*fullprec:=nil;!*fullprecision:=nil; !*fullroots:=nil; !*gcd:=nil; !*heugcd:=nil; !*horner:=nil; !*ifactor:=nil; !*int:=nil; !*intstr:=nil; !*lcm:=t; !*lessspace:=nil; !*limitedfactors:=nil; !*list:=nil; !*listargs:=nil; !*lower:=t; !*mcd:=t; !*modular:=nil; !*msg:=t; !*multiplicities:=nil; !*nat:=t; !*nero:=nil; !*noarg:=t; !*noconvert:=nil; !*nonlnr:=nil; !*nosplit:=t; !*numval:=t; !*output:=t; !*period:=t; !*pgwd:=nil; !*plap:=nil; !*precise:=t; !*pret:=nil; !*pri:=t; !*pwrds:=t; !*quotenewnam:=t; !*raise:=nil; !*rat:=nil; !*ratarg:=nil; !*rational:=nil; !*rationalize:=nil; !*ratpri:=t; !*reduced:=nil; !*revpri:=nil; !*rlisp88:=nil; !*rootmsg:=nil; !*roundall:=t; !*roundbf:=nil; !*rounded:=nil; % !*savedef:=nil; !*savestructr:=nil; !*solvesingular:=nil; !*time:=nil; !*trallfac:=nil; !*trfac:=nil; !*trint:=nil; !*trroot:=nil; % Now work down previous inputs foreach stat in inputbuflis!* do << statno:=car stat; mode:=cadr stat; comm:=caddr stat; % princ "Dealing with input "; princ statno; % princ " in mode "; print mode; % prin2t comm; % princ "car comm="; prin2t car comm; if mode='algebraic then algreset(comm) else if mode='symbolic then symbreset(comm) >>; inputbuflis!*:=nil end; symbolic procedure algreset(comm); begin scalar forallfn; if atom comm then return nil; forallfn:='forall; if car comm='setk then remprop(cadadr comm,'avalue) else if car comm='arrayfn then foreach y in cdaddr comm do << remprop(cadadr y,'dimension); remprop(cadadr y,'rvalue); remprop(cadadr y,'rtype) >> else if car comm='progn then foreach y in cdr comm do algreset(y) else if car comm='prog then foreach y in cdr comm do algreset(y) else if car comm='setq then nil else if car comm='go then nil else if car comm='cond then foreach y in cdr comm do << algreset(car comm); algreset(cadr comm) >> else if car comm='flag then eval('remflag . (cdr comm)) else if car comm='de then remd cadr comm else if car comm='let then foreach xx in cdadr comm do clear car cdaddr xx else if car comm='clear then nil else if car comm='forall and caadr cadddr cadr comm = 'let then foreach xx in cdadr cadddr cadr comm do forallfn list(cadr cadadr comm,cadr cadr cdadr comm, list('clear, list('list, caddr cadr xx))) % else I do not know what to do!! end; symbolic procedure symbreset(comm); << if car comm='setq then set(cadr comm,nil) else if car comm='progn then foreach y in cdr comm do symbreset(y) else if car comm='flag then eval('remflag . (cdr comm)) else if car comm='de then remd cadr comm % else I do not know what to do!! >>; put('resetreduce,'stat,'endstat); endmodule; end;