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r37/packages/redlog/dvfsf.red
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% ---------------------------------------------------------------------- % $Id: dvfsf.red,v 1.14 1999/03/23 15:10:45 dolzmann Exp $ % ---------------------------------------------------------------------- % Copyright (c) 1995-1999 Andreas Dolzmann and Thomas Sturm % ---------------------------------------------------------------------- % $Log: dvfsf.red,v $ % Revision 1.14 1999/03/23 15:10:45 dolzmann % Fixed a bug in dvfsf_enter. % % Revision 1.13 1999/03/23 08:44:16 dolzmann % Changed copyright information. % Added list of exported procedures. % % Revision 1.12 1999/03/22 12:37:51 dolzmann % Adapted procedure dvfsf_enter to the protocol required from the new rl_set. % % Revision 1.11 1999/03/21 13:35:40 dolzmann % Corrected comments. % Added black box implementation dvfsf_subsumption. % Use property number!-of!-args instead of num!-of!-args. % Use new procedure dvfsf_chsimpat instead of dvfsf_chsimpat. The AM % interface allows now the input of relation chains. % Fixed a bug in dvfsf_simpat: The AM interface now handles rationals % correct. % Added procedure dvfsf_opp. % Added package dvfsfsism. % Register dvfsf-code instead of cl-code for smart simplification. % Added switch rlsusi. % % Revision 1.10 1999/03/19 18:34:42 dolzmann % Added services rl_varl, rl_fvarl, and rl_bvarl. % % Revision 1.9 1999/03/19 15:50:31 dolzmann % Added service rlifacml. % % Revision 1.8 1999/03/19 15:20:51 dolzmann % Added service rl_subfof. % % Revision 1.7 1999/03/19 12:17:47 dolzmann % Added service rlmkcanonic. % % Revision 1.6 1999/01/17 16:21:42 dolzmann % Added services rl_explats, rl_termml, rl_terml, rl_struct, and % rl_ifstruct. % Added black boxes rl_termmlat, rl_structat, and rl_ifstructat. % Added procedure dvfsf_simpterm. % Removed unused properties simptermfn, mktermfn, and preptermfn from % context tag. % Added properties rl_prepterm, and rl_simpterm. % Added fluid binding for switches rlsiexpl, rlsiexpla, and rlsifac. % Changed copyright notice. % % Revision 1.5 1999/01/10 11:13:03 sturm % Added black box rl_specelim (cl_specelim). % Added service rlqea. % % Revision 1.4 1997/11/03 15:11:21 sturm % Added BB implementation dvfsf_a2cdl and services rl_tab, rlitab, % and rl_atab. % Turned on BFS for QE by default. % % Revision 1.3 1996/09/30 12:38:12 sturm % Fixed some comments for automatic processing. % % Revision 1.2 1996/07/13 11:51:34 dolzmann % Pakage dvfsf now uses context independent smart simplification facilities % of cl. % Removed control of switch rlsism. % Set servives rl_dnf and rl_cnf to dvfsf_dnf and dvfsf_cnf respectively. % Package dvfsf now uses cl black box implementations for black boxes % rl_sacatlp and rl_sacat. % % Revision 1.1 1996/07/08 12:15:19 sturm % Initial check-in. % % ---------------------------------------------------------------------- lisp << fluid '(dvfsf_rcsid!* dvfsf_copyright!*); dvfsf_rcsid!* := "$Id: dvfsf.red,v 1.14 1999/03/23 15:10:45 dolzmann Exp $"; dvfsf_copyright!* := "Copyright (c) 1995-1999 by A. Dolzmann and T. Sturm" >>; module dvfsf; % Discretely valued field. Main module. Algorithms on first-order % formulas over the language of fields together with a constant ['p] % and binary relations ['div], ['sdiv], ['assoc], and ['nassoc]. The % terms are SF's. create!-package('(dvfsf dvfsfsiat dvfsfsism dvfsfqe dvfsfmisc),nil); load!-package 'cl; load!-package 'rltools; exports dvfsf_enter,dvfsf_exit,dvfsf_simpterm,dvfsf_prepat,dvfsf_resimpat, dvfsf_lengthat,dvfsf_chsimpat,dvfsf_simpat,dvfsf_op,dvfsf_arg2l,dvfsf_arg2r, dvfsf_argn,dvfsf_mk2,dvfsf_0mk2,dvfsf_mkn,dvfsf_opp,dvfsf_simplat1, dvfsf_smupdknowl,dvfsf_smrmknowl,dvfsf_smcpknowl,dvfsf_smmkatl, dvfsf_susirmknowl,dvfsf_varsel,dvfsf_translat,dvfsf_elimset,dvfsf_qesubcq, dvfsf_qesubq,dvfsf_transform,dvfsf_trygauss,dvfsf_qemkans, dvfsf_ordatp,dvfsf_varlat,dvfsf_varsubstat,dvfsf_negateat,dvfsf_fctrat, dvfsf_dnf,dvfsf_cnf,dvfsf_subsumption,dvfsf_a2cdl,dvfsf_subat,dvfsf_subalchk, dvfsf_eqnrhskernels,dvfsf_structat,dvfsf_ifstructat,dvfsf_termmlat, dvfsf_explats,dvfsf_mkcanonic; imports rltools,cl; fluid '(!*rlverbose dvfsf_p!* !*rlsiexpl !*rlsiexpla !*rlsifac !*rlsusi); flag('(dvfsf),'rl_package); % Parameters put('dvfsf,'rl_params,'( (rl_smupdknowl!* . dvfsf_smupdknowl) (rl_smrmknowl!* . dvfsf_smrmknowl) (rl_smcpknowl!* . dvfsf_smcpknowl) (rl_smmkatl!* . dvfsf_smmkatl) (rl_smsimpl!-impl!* . cl_smsimpl!-impl) (rl_smsimpl!-equiv1!* . cl_smsimpl!-equiv1) (rl_sacatlp!* . cl_sacatlp) (rl_sacat!* . cl_sacat) (rl_ordatp!* . dvfsf_ordatp) (rl_tordp!* . ordp) (rl_simplat1!* . dvfsf_simplat1) (rl_negateat!* . dvfsf_negateat) (rl_varlat!* . dvfsf_varlat) (rl_varsubstat!* . dvfsf_varsubstat) (rl_translat!* . dvfsf_translat) (rl_transform!* . dvfsf_transform) (rl_elimset!*. dvfsf_elimset) (rl_trygauss!* . dvfsf_trygauss) (rl_subsumption!* . dvfsf_subsumption) (rl_bnfsimpl!* . cl_bnfsimpl) (rl_fctrat!* . dvfsf_fctrat) (rl_varsel!* . dvfsf_varsel) (rl_a2cdl!* . dvfsf_a2cdl) (rl_qemkans!* . dvfsf_qemkans) (rl_termmlat!* . dvfsf_termmlat) (rl_structat!* . dvfsf_structat) (rl_ifstructat!* . dvfsf_ifstructat) (rl_subat!* . dvfsf_subat) (rl_subalchk!* . dvfsf_subalchk) (rl_eqnrhskernels!* . dvfsf_eqnrhskernels) (rl_susipost!* . dvfsf_susipost) (rl_susitf!* . dvfsf_susitf) (rl_susibin!* . dvfsf_susibin) (rl_specelim!* . cl_specelim))); % Switches put('dvfsf,'rl_cswitches,'( (rlqeheu . nil) (rlqedfs . nil) (rlsusi . T) )); % Services put('dvfsf,'rl_services,'( (rl_subfof!* . cl_subfof) (rl_identifyonoff!* . cl_identifyonoff) (rl_simpl!* . cl_simpl) (rl_nnf!* . cl_nnf) (rl_nnfnot!* . cl_nnfnot) (rl_pnf!* . cl_pnf) (rl_cnf!* . dvfsf_cnf) (rl_dnf!* . dvfsf_dnf) (rl_all!* . cl_all) (rl_ex!* . cl_ex) (rl_atnum!* . cl_atnum) (rl_ifacl!* . cl_ifacl) (rl_ifacml!* . cl_ifacml) (rl_matrix!* . cl_matrix) (rl_apnf!* . cl_apnf) (rl_atml!* . cl_atml) (rl_atl!* . cl_atl) (rl_qe!* . cl_qe) (rl_qeipo!* . cl_qeipo) (rl_qews!* . cl_qews) (rl_qea!* . cl_qea) (rl_tab!* . cl_tab) (rl_atab!* . cl_atab) (rl_termml!* . cl_termml) (rl_terml!* . cl_terml) (rl_varl!* . cl_varl) (rl_fvarl!* . cl_fvarl) (rl_bvarl!* . cl_bvarl) (rl_struct!* . cl_struct) (rl_ifstruct!* . cl_ifstruct) (rl_explats!* . dvfsf_explats) (rl_mkcanonic!* . dvfsf_mkcanonic) (rl_itab!* . cl_itab))); % Admin put('dvfsf,'rl_enter,'dvfsf_enter); put('dvfsf,'rl_exit,'dvfsf_exit); put('dvfsf,'simpfnname,'dvfsf_simpfn); put('dvfsf,'rl_prepat,'dvfsf_prepat); put('dvfsf,'rl_resimpat,'dvfsf_resimpat); put('dvfsf,'rl_lengthat,'dvfsf_lengthat); put('dvfsf,'rl_prepterm,'prepf); put('dvfsf,'rl_simpterm,'dvfsf_simpterm); algebraic infix equal; put('equal,'dvfsf_simpfn,'dvfsf_chsimpat); put('equal,'number!-of!-args,2); algebraic infix neq; put('neq,'dvfsf_simpfn,'dvfsf_chsimpat); put('neq,'number!-of!-args,2); put('neq,'rtypefn,'quotelog); newtok '((!< !>) neq); algebraic infix sdiv; put('sdiv,'dvfsf_simpfn,'dvfsf_chsimpat); put('sdiv,'number!-of!-args,2); put('sdiv,'rtypefn,'quotelog); precedence sdiv,neq; newtok '((| |) sdiv); algebraic infix div; put('div,'dvfsf_simpfn,'dvfsf_chsimpat); put('div,'number!-of!-args,2); put('div,'rtypefn,'quotelog); precedence div,sdiv; newtok '((|) div); algebraic infix assoc; put('assoc,'dvfsf_simpfn,'dvfsf_chsimpat); put('assoc,'number!-of!-args,2); put('assoc,'rtypefn,'quotelog); precedence assoc,div; newtok '((~) assoc); algebraic infix nassoc; put('nassoc,'dvfsf_simpfn,'dvfsf_chsimpat); put('nassoc,'number!-of!-args,2); put('nassoc,'rtypefn,'quotelog); precedence nassoc,assoc; newtok '((/ ~) nassoc); flag('(equal neq sdiv div assoc nassoc),'spaced); flag('(dvfsf_chsimpat),'full); procedure dvfsf_enter(argl); % Discretely valued field enter environment. [argl] is [nil] or % evaluates to a list containing an integer $n$, with $n=0$ or % $|n|$ prime. Returns a cons-pair $(f . l)$. If $f$ is [nil], then % $l$ contains an error message. If $f$ is non-[nil], then $l$ is % the new value for the global vatiable [rl_argl!*]. The procedure % modifies the global variable [dvfsf_p!*]. The argument $n$ % describes the range of considered $p$-adic valuations for % elimination and simplification. With $n=0$ all $p$-adic % valuations are considered, with $n<0$ all those with $p \leq % |n|$. For $n>0$ the $n$-adic valuation is selected and [p] is set % to $n$. Then simplification and hence quantifier elimination are % correct only for this valuation. begin scalar n; n := if argl then reval car argl else 0; if argl and cdr argl then << lprim {"extra",ioto_cplu("argument",cddr argl),"ignored"}; argl := {car argl} >>; if not (n=0 or primep n) then return nil . "dvfsf extra argument must be 0 or prime"; if n <= 0 then << lprim "p is being cleared"; clear 'p; >> else << lprim {"p is set to",n}; algebraic(p := n); >>; flag('(p),'reserved); dvfsf_p!* := n; return T . argl end; procedure dvfsf_exit(); << remflag('(p),'share); remflag('(p),'reserved) >>; procedure dvfsf_simpterm(u); numr simp u; procedure dvfsf_prepat(f); {dvfsf_op f,prepf dvfsf_arg2l f,prepf dvfsf_arg2r f}; procedure dvfsf_resimpat(f); dvfsf_mk2(dvfsf_op f, numr resimp !*f2q dvfsf_arg2l f,numr resimp !*f2q dvfsf_arg2r f); procedure dvfsf_lengthat(f); 2; procedure dvfsf_chsimpat(u); rl_smkn('and,for each x in dvfsf_chsimpat1 u collect dvfsf_simpat x); procedure dvfsf_chsimpat1(u); begin scalar leftl,rightl,lhs,rhs; lhs := cadr u; if pairp lhs and dvfsf_opp car lhs then << leftl := dvfsf_chsimpat1 lhs; lhs := caddr lastcar leftl >>; rhs := caddr u; if pairp rhs and dvfsf_opp car rhs then << rightl := dvfsf_chsimpat1 rhs; rhs := cadr car rightl >>; return nconc(leftl,{car u,lhs,rhs} . rightl) end; procedure dvfsf_simpat(u); begin scalar op,lhs,rhs,w; op := car u; lhs := simp cadr u; if not (numberp denr lhs) then typerr(u,"atomic formula"); rhs := simp caddr u; if not (numberp denr rhs) then typerr(u,"atomic formula"); if op memq '(equal neq) then return dvfsf_0mk2(op,numr subtrsq(lhs,rhs)); w := lcm(denr lhs,denr rhs); return dvfsf_mk2(op,numr multsq(lhs,!*f2q w),numr multsq(rhs,!*f2q w)) end; procedure dvfsf_op(atf); % Discretely valued field operator. [atf] is an atomic formula % $R(t_1,t_2)$. Returns $R$. car atf; procedure dvfsf_arg2l(atf); % Discretely valued field binary operator left argument. [atf] is % an atomic formula $R(t_1,t_2)$. Returns $t_1$. cadr atf; procedure dvfsf_arg2r(atf); % Discretely valued field binary operator right argument. [atf] is % an atomic formula $R(t_1,t_2)$. Returns $t_2$. caddr atf; procedure dvfsf_argn(atf); % Discretely valued field n-ary operator argument list. [atf] is % an atomic formula $R(t_1,...,t_n)$. Returns the list % $(t_1,...,t_n)$. {cadr atf,caddr atf}; procedure dvfsf_mk2(op,lhs,rhs); % Discretely valued field constructor for binary operator. [op] is % one of ['equal], ['neq], ['div], ['sdiv], and ['assoc]; [lhs] and % [rhs] are terms. Returns the atomic formula $[op]([lhs],[rhs])$. {op,lhs,rhs}; procedure dvfsf_0mk2(op,lhs); % Discretely valued field constructor for binary operator. [op] is % one of ['equal], ['neq], ['div], ['sdiv], and ['assoc]; [lhs] and % [rhs] are terms. Returns the atomic formula $[op]([lhs],[rhs])$. {op,lhs,nil}; procedure dvfsf_mkn(op,argl); % Discretely valued field constructor for n-ary operator. [op] is % one of ['equal], ['neq], ['div], ['sdiv], and ['assoc]; [argl] is % a list $(t_1,t_2)$. Returns the atomic formula $[op](t_1,t_2)$. {op,car argl,cadr argl}; procedure dvfsf_opp(op); % Discretely valued field standard form operator predicate. [op] is % an S-expression. Returns [nil] if op is not a relation. op memq '(equal neq div sdiv assoc nassoc); endmodule; % [dvfsf] end; % of file