| version 1.35, 2004/05/14 06:02:54 |
version 1.40, 2006/12/12 11:50:37 |
|
|
| * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
| * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
| * |
* |
| * $OpenXM: OpenXM_contrib2/asir2000/builtin/dp-supp.c,v 1.34 2004/04/22 07:52:38 noro Exp $ |
* $OpenXM: OpenXM_contrib2/asir2000/builtin/dp-supp.c,v 1.39 2005/08/25 18:59:11 ohara Exp $ |
| */ |
*/ |
| #include "ca.h" |
#include "ca.h" |
| #include "base.h" |
#include "base.h" |
| Line 62 extern int NoGCD; |
|
| Line 62 extern int NoGCD; |
|
| extern int GenTrace; |
extern int GenTrace; |
| extern NODE TraceList; |
extern NODE TraceList; |
| |
|
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int show_orderspec; |
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|
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void print_composite_order_spec(struct order_spec *spec); |
| |
|
| /* |
/* |
| * content reduction |
* content reduction |
| * |
* |
| Line 118 void dp_ptozp2(DP p0,DP p1,DP *hp,DP *rp) |
|
| Line 122 void dp_ptozp2(DP p0,DP p1,DP *hp,DP *rp) |
|
| *hp = h; *rp = r; |
*hp = h; *rp = r; |
| } |
} |
| |
|
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void dp_ptozp3(DP p,Q *dvr,DP *rp) |
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{ |
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MP m,mr,mr0; |
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int i,n; |
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Q *w; |
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P t; |
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|
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if ( !p ) { |
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*rp = 0; *dvr = 0; |
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}else { |
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for ( m =BDY(p), n = 0; m; m = NEXT(m), n++ ); |
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w = (Q *)ALLOCA(n*sizeof(Q)); |
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for ( m =BDY(p), i = 0; i < n; m = NEXT(m), i++ ) |
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if ( NUM(m->c) ) |
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w[i] = (Q)m->c; |
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else |
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ptozp(m->c,1,&w[i],&t); |
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sortbynm(w,n); |
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qltozl(w,n,dvr); |
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for ( mr0 = 0, m = BDY(p); m; m = NEXT(m) ) { |
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NEXTMP(mr0,mr); divsp(CO,m->c,(P)(*dvr),&mr->c); mr->dl = m->dl; |
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} |
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NEXT(mr) = 0; MKDP(p->nv,mr0,*rp); (*rp)->sugar = p->sugar; |
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} |
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} |
| |
|
| void dp_idiv(DP p,Q c,DP *rp) |
void dp_idiv(DP p,Q c,DP *rp) |
| { |
{ |
| Q t; |
Q t; |
| Line 481 void heu_nezgcdnpz(VL vl,P *pl,int m,P *pr) |
|
| Line 511 void heu_nezgcdnpz(VL vl,P *pl,int m,P *pr) |
|
| int i,r; |
int i,r; |
| P gcd,t,s1,s2,u; |
P gcd,t,s1,s2,u; |
| Q rq; |
Q rq; |
| |
DCP dc; |
| |
extern int DP_Print; |
| |
|
| while ( 1 ) { |
while ( 1 ) { |
| for ( i = 0, s1 = 0; i < m; i++ ) { |
for ( i = 0, s1 = 0; i < m; i++ ) { |
| r = random(); UTOQ(r,rq); |
r = random(); UTOQ(r,rq); |
| Line 492 void heu_nezgcdnpz(VL vl,P *pl,int m,P *pr) |
|
| Line 524 void heu_nezgcdnpz(VL vl,P *pl,int m,P *pr) |
|
| mulp(vl,pl[i],(P)rq,&t); addp(vl,s2,t,&u); s2 = u; |
mulp(vl,pl[i],(P)rq,&t); addp(vl,s2,t,&u); s2 = u; |
| } |
} |
| ezgcdp(vl,s1,s2,&gcd); |
ezgcdp(vl,s1,s2,&gcd); |
| |
if ( DP_Print > 2 ) |
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{ fprintf(asir_out,"(%d)",nmonop(gcd)); fflush(asir_out); } |
| for ( i = 0; i < m; i++ ) { |
for ( i = 0; i < m; i++ ) { |
| if ( !divtpz(vl,pl[i],gcd,&t) ) |
if ( !divtpz(vl,pl[i],gcd,&t) ) |
| break; |
break; |
| Line 1317 void dp_nf_tab_f(DP p,LIST *tab,DP *rp) |
|
| Line 1351 void dp_nf_tab_f(DP p,LIST *tab,DP *rp) |
|
| |
|
| int create_order_spec(VL vl,Obj obj,struct order_spec **specp) |
int create_order_spec(VL vl,Obj obj,struct order_spec **specp) |
| { |
{ |
| int i,j,n,s,row,col; |
int i,j,n,s,row,col,ret; |
| struct order_spec *spec; |
struct order_spec *spec; |
| struct order_pair *l; |
struct order_pair *l; |
| NODE node,t,tn; |
NODE node,t,tn; |
| Line 1325 int create_order_spec(VL vl,Obj obj,struct order_spec |
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| Line 1359 int create_order_spec(VL vl,Obj obj,struct order_spec |
|
| pointer **b; |
pointer **b; |
| int **w; |
int **w; |
| |
|
| if ( vl && obj && OID(obj) == O_LIST ) |
if ( vl && obj && OID(obj) == O_LIST ) { |
| return create_composite_order_spec(vl,(LIST)obj,specp); |
ret = create_composite_order_spec(vl,(LIST)obj,specp); |
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if ( show_orderspec ) |
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print_composite_order_spec(*specp); |
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return ret; |
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} |
| |
|
| *specp = spec = (struct order_spec *)MALLOC(sizeof(struct order_spec)); |
*specp = spec = (struct order_spec *)MALLOC(sizeof(struct order_spec)); |
| if ( !obj || NUM(obj) ) { |
if ( !obj || NUM(obj) ) { |
| Line 1406 void print_composite_order_spec(struct order_spec *spe |
|
| Line 1444 void print_composite_order_spec(struct order_spec *spe |
|
| } |
} |
| } |
} |
| |
|
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struct order_spec *append_block(struct order_spec *spec, |
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int nv,int nalg,int ord) |
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{ |
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MAT m,mat; |
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int i,j,row,col,n; |
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Q **b,**wp; |
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int **w; |
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NODE t,s,s0; |
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struct order_pair *l,*l0; |
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int n0,nv0; |
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LIST list0,list1,list; |
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Q oq,nq; |
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struct order_spec *r; |
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|
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r = (struct order_spec *)MALLOC(sizeof(struct order_spec)); |
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switch ( spec->id ) { |
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case 0: |
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STOQ(spec->ord.simple,oq); STOQ(nv,nq); |
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t = mknode(2,oq,nq); MKLIST(list0,t); |
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STOQ(ord,oq); STOQ(nalg,nq); |
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t = mknode(2,oq,nq); MKLIST(list1,t); |
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t = mknode(2,list0,list1); MKLIST(list,t); |
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l = (struct order_pair *)MALLOC_ATOMIC(2*sizeof(struct order_pair)); |
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l[0].order = spec->ord.simple; l[0].length = nv; |
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l[1].order = ord; l[1].length = nalg; |
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r->id = 1; r->obj = (Obj)list; |
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r->ord.block.order_pair = l; |
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r->ord.block.length = 2; |
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r->nv = nv+nalg; |
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break; |
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case 1: |
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if ( spec->nv != nv ) |
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error("append_block : number of variables mismatch"); |
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l0 = spec->ord.block.order_pair; |
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n0 = spec->ord.block.length; |
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nv0 = spec->nv; |
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list0 = (LIST)spec->obj; |
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n = n0+1; |
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l = (struct order_pair *)MALLOC_ATOMIC(n*sizeof(struct order_pair)); |
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for ( i = 0; i < n0; i++ ) |
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l[i] = l0[i]; |
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l[i].order = ord; l[i].length = nalg; |
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for ( t = BDY(list0), s0 = 0; t; t = NEXT(t) ) { |
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NEXTNODE(s0,s); BDY(s) = BDY(t); |
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} |
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STOQ(ord,oq); STOQ(nalg,nq); |
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t = mknode(2,oq,nq); MKLIST(list,t); |
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NEXTNODE(s0,s); BDY(s) = (pointer)list; NEXT(s) = 0; |
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MKLIST(list,s0); |
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r->id = 1; r->obj = (Obj)list; |
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r->ord.block.order_pair = l; |
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r->ord.block.length = n; |
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r->nv = nv+nalg; |
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break; |
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case 2: |
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if ( spec->nv != nv ) |
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error("append_block : number of variables mismatch"); |
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m = (MAT)spec->obj; |
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row = m->row; col = m->col; b = (Q **)BDY(m); |
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w = almat(row+nalg,col+nalg); |
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MKMAT(mat,row+nalg,col+nalg); wp = (Q **)BDY(mat); |
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for ( i = 0; i < row; i++ ) |
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for ( j = 0; j < col; j++ ) { |
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w[i][j] = QTOS(b[i][j]); |
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wp[i][j] = b[i][j]; |
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} |
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for ( i = 0; i < nalg; i++ ) { |
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w[i+row][i+col] = 1; |
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wp[i+row][i+col] = ONE; |
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} |
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r->id = 2; r->obj = (Obj)mat; |
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r->nv = col+nalg; r->ord.matrix.row = row+nalg; |
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r->ord.matrix.matrix = w; |
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break; |
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case 3: |
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default: |
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/* XXX */ |
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error("append_block : not implemented yet"); |
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} |
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return r; |
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} |
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|
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int comp_sw(struct sparse_weight *a, struct sparse_weight *b) |
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{ |
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if ( a->pos > b->pos ) return 1; |
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else if ( a->pos < b->pos ) return -1; |
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else return 0; |
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} |
| |
|
| /* order = [w_or_b, w_or_b, ... ] */ |
/* order = [w_or_b, w_or_b, ... ] */ |
| /* w_or_b = w or b */ |
/* w_or_b = w or b */ |
| /* w = [1,2,...] or [x,1,y,2,...] */ |
/* w = [1,2,...] or [x,1,y,2,...] */ |
| Line 1483 int create_composite_order_spec(VL vl,LIST order,struc |
|
| Line 1610 int create_composite_order_spec(VL vl,LIST order,struc |
|
| error("a sparse weight vector must be specified as [var1,weight1,...]"); |
error("a sparse weight vector must be specified as [var1,weight1,...]"); |
| sw[j].value = QTOS((Q)BDY(p)); p = NEXT(p); |
sw[j].value = QTOS((Q)BDY(p)); p = NEXT(p); |
| } |
} |
| |
qsort(sw,len,sizeof(struct sparse_weight), |
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(int (*)(const void *,const void *))comp_sw); |
| w_or_b[i].type = IS_SPARSE_WEIGHT; |
w_or_b[i].type = IS_SPARSE_WEIGHT; |
| w_or_b[i].length = len; |
w_or_b[i].length = len; |
| w_or_b[i].body.sparse_weight = sw; |
w_or_b[i].body.sparse_weight = sw; |
| Line 1565 int create_composite_order_spec(VL vl,LIST order,struc |
|
| Line 1694 int create_composite_order_spec(VL vl,LIST order,struc |
|
| w_or_b[n].body.block.order = 0; |
w_or_b[n].body.block.order = 0; |
| spec->ord.composite.length = n+1; |
spec->ord.composite.length = n+1; |
| } |
} |
| if ( 1 ) print_composite_order_spec(spec); |
|
| } |
} |
| |
|
| /* module order spec */ |
/* module order spec */ |
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