=================================================================== RCS file: /home/cvs/OpenXM_contrib2/asir2000/lib/gr,v retrieving revision 1.12 retrieving revision 1.16 diff -u -p -r1.12 -r1.16 --- OpenXM_contrib2/asir2000/lib/gr 2001/11/01 10:00:19 1.12 +++ OpenXM_contrib2/asir2000/lib/gr 2002/09/03 08:12:25 1.16 @@ -45,7 +45,7 @@ * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. * - * $OpenXM: OpenXM_contrib2/asir2000/lib/gr,v 1.11 2001/09/28 00:41:16 noro Exp $ + * $OpenXM: OpenXM_contrib2/asir2000/lib/gr,v 1.15 2002/06/12 08:19:04 noro Exp $ */ extern INIT_COUNT,ITOR_FAIL$ extern REMOTE_MATRIX,REMOTE_NF,REMOTE_VARS$ @@ -128,22 +128,33 @@ def tolex(G0,V,O,W) { TM = TE = TNF = 0; N = length(V); HM = hmlist(G0,V,O); ZD = zero_dim(HM,V,O); - if ( !ZD ) - error("tolex : ideal is not zero-dimensional!"); - MB = dp_mbase(map(dp_ptod,HM,V)); + if ( ZD ) + MB = dp_mbase(map(dp_ptod,HM,V)); + else + MB = 0; for ( J = 0; ; J++ ) { M = lprime(J); if ( !valid_modulus(HM,M) ) continue; - T0 = time()[0]; GM = tolexm(G0,V,O,W,M); TM += time()[0] - T0; - dp_ord(2); - DL = map(dp_etov,map(dp_ht,map(dp_ptod,GM,W))); - D = newvect(N); TL = []; - do - TL = cons(dp_dtop(dp_vtoe(D),W),TL); - while ( nextm(D,DL,N) ); - L = npos_check(DL); NPOSV = L[0]; DIM = L[1]; - T0 = time()[0]; NF = gennf(G0,TL,V,O,W[N-1],1)[0]; + T0 = time()[0]; + if ( ZD ) { + GM = tolexm(G0,V,O,W,M); + dp_ord(2); + DL = map(dp_etov,map(dp_ht,map(dp_ptod,GM,W))); + D = newvect(N); TL = []; + do + TL = cons(dp_dtop(dp_vtoe(D),W),TL); + while ( nextm(D,DL,N) ); + } else { + GM = dp_gr_mod_main(G0,W,0,M,2); + dp_ord(2); + for ( T = GM, S = 0; T != []; T = cdr(T) ) + for ( D = dp_ptod(car(T),V); D; D = dp_rest(D) ) + S += dp_ht(D); + TL = dp_terms(S,V); + } + TM += time()[0] - T0; + T0 = time()[0]; NF = gennf(G0,TL,V,O,W[N-1],ZD)[0]; TNF += time()[0] - T0; T0 = time()[0]; R = tolex_main(V,O,NF,GM,M,MB); @@ -316,12 +327,20 @@ def dptov(P,W,MB) def tolex_main(V,O,NF,GM,M,MB) { - DIM = length(MB); - DV = newvect(DIM); + if ( MB ) { + PosDim = 0; + DIM = length(MB); + DV = newvect(DIM); + } else + PosDim = 1; for ( T = GM, SL = [], LCM = 1; T != []; T = cdr(T) ) { S = p_terms(car(T),V,2); + if ( PosDim ) { + MB = gather_nf_terms(S,NF,V,O); + DV = newvect(length(MB)); + } dp_ord(O); RHS = termstomat(NF,map(dp_ptod,cdr(S),V),MB,M); - dp_ord(0); NHT = nf_tab_gsl(dp_ptod(LCM*car(S),V),NF); + dp_ord(O); NHT = nf_tab_gsl(dp_ptod(LCM*car(S),V),NF); dptov(NHT[0],DV,MB); dp_ord(O); B = hen_ttob_gsl([DV,NHT[1]],RHS,cdr(S),M); if ( !B ) @@ -338,6 +357,25 @@ def tolex_main(V,O,NF,GM,M,MB) return SL; } +/* + * NF = [Pairs,DN] + * Pairs = [[NF1,T1],[NF2,T2],...] + */ + +def gather_nf_terms(S,NF,V,O) +{ + R = 0; + for ( T = S; T != []; T = cdr(T) ) { + DT = dp_ptod(car(T),V); + for ( U = NF[0]; U != []; U = cdr(U) ) + if ( car(U)[1] == DT ) { + R += tpoly(dp_terms(car(U)[0],V)); + break; + } + } + return map(dp_ptod,p_terms(R,V,O),V); +} + def reduce_dn(L) { NM = L[0]; DN = L[1]; V = vars(NM); @@ -352,6 +390,9 @@ def minipoly(G0,V,O,P,V0) if ( !zero_dim(hmlist(G0,V,O),V,O) ) error("tolex : ideal is not zero-dimensional!"); + Pin = P; + P = ptozp(P); + CP = sdiv(P,Pin); G1 = cons(V0-P,G0); O1 = [[0,1],[O,length(V)]]; V1 = cons(V0,V); @@ -372,7 +413,7 @@ def minipoly(G0,V,O,P,V0) TL = cons(V0^J,TL); NF = gennf(G1,TL,V1,O1,V0,1)[0]; R = tolex_main(V1,O1,NF,[MP],M,MB); - return R[0]; + return ptozp(subst(R[0],V0,CP*V0)); } } @@ -462,6 +503,8 @@ def vtop(S,L,GSL) } } +/* broken */ + def leq_nf(TL,NF,LHS,V) { TLen = length(NF); @@ -1553,5 +1596,74 @@ def compute_coef_by_trace(I,Tr,Coef) CI = CT; } Coef[I] = CI; +} + +extern Gbcheck_DP,Gbcheck_IL$ + +def register_data_for_gbcheck(DPL) +{ + for ( IL = [], I = length(DPL)-1; I >= 0; I-- ) + IL = cons(I,IL); + Gbcheck_DP = newvect(length(DPL),DPL); + Gbcheck_IL = IL; +} + +def sp_nf_for_gbcheck(Pair) +{ + SP = dp_sp(Gbcheck_DP[Pair[0]],Gbcheck_DP[Pair[1]]); + return dp_nf(Gbcheck_IL,SP,Gbcheck_DP,1); +} + +def gbcheck(B,V,O) +{ + dp_ord(O); + D = map(dp_ptod,B,V); + L = dp_gr_checklist(D,length(V)); + DP = L[0]; Plist = L[1]; + for ( IL = [], I = size(DP)[0]-1; I >= 0; I-- ) + IL = cons(I,IL); + Procs = getopt(proc); + if ( type(Procs) == 4 ) { + map(ox_reset,Procs); + /* register DP in servers */ + map(ox_cmo_rpc,Procs,"register_data_for_gbcheck",vtol(DP)); + /* discard return value in stack */ + map(ox_pop_cmo,Procs); + Free = Procs; + Busy = []; + T = Plist; + while ( T != [] || Busy != [] ){ + if ( Free == [] || T == [] ) { + /* someone is working; wait for data */ + Ready = ox_select(Busy); + Busy = setminus(Busy,Ready); + Free = append(Ready,Free); + for ( ; Ready != []; Ready = cdr(Ready) ) { + if ( ox_get(car(Ready)) ) { + map(ox_reset,Procs); + return 0; + } + } + } else { + P = car(Free); + Free = cdr(Free); + Busy = cons(P,Busy); + Pair = car(T); + T = cdr(T); + ox_cmo_rpc(P,"sp_nf_for_gbcheck",Pair); + ox_push_cmd(P,262); /* 262 = OX_popCMO */ + } + } + map(ox_reset,Procs); + return 1; + } else { + for ( T = Plist; T != []; T = cdr(T) ) { + Pair = T[0]; + SP = dp_sp(DP[Pair[0]],DP[Pair[1]]); + if ( dp_nf(IL,SP,DP,1) ) + return 0; + } + return 1; + } } end$