Context Navigation

source: git/kernel/maps/fast_maps.cc @ c858487

spielwiese

Last change on this file since c858487 was 79e495, checked in by Kwankyu Lee <ekwankyu@…>, 19 months ago
Fix for non-field base ring
Property mode set to `100644`
File size: 17.6 KB

Line
1	/****************************************
2	* Computer Algebra System SINGULAR *
3	****************************************/
4	/***************************************************************
5	* File: fast_maps.cc
6	* Purpose: implementation of fast maps
7	* Author: obachman (Olaf Bachmann)
8	* Created: 02/01
9	*******************************************************************/
10
11
12
13	#include "kernel/mod2.h"
14	#include "misc/options.h"
15	#include "polys/monomials/p_polys.h"
16	#include "polys/prCopy.h"
17	#include "kernel/ideals.h"
18	#include "polys/monomials/ring.h"
19	#include "polys/sbuckets.h"
20	#include "kernel/maps/fast_maps.h"
21
22	// define if you want to use special dest_ring
23	#define HAVE_DEST_R 1
24	// define if you want to use special src_ring
25	#define HAVE_SRC_R 1
26	// define if you want to use optimization step
27	#define HAVE_MAP_OPTIMIZE 0
28
29	/*******************************************************************************
30	**
31	*F maMaxExp . . . . . . . . returns bound on maximal exponent of result of map
32	*/
33	// return maximal monomial if max_map_monomials are substituted into pi_m
34	static poly maGetMaxExpP(poly* max_map_monomials,
35	int n_max_map_monomials, ring map_r,
36	poly pi_m, ring pi_r)
37	{
38	int n = si_min(pi_r->N, n_max_map_monomials);
39	int i, j;
40	unsigned long e_i, e_j;
41	poly m_i=NULL;
42	poly map_j = p_Init(map_r);
43
44	for (i=1; i <= n; i++)
45	{
46	e_i = p_GetExp(pi_m, i, pi_r);
47	if (e_i==0) e_i=1;
48	m_i = max_map_monomials[i-1];
49	if (m_i != NULL && ! p_IsConstantComp(m_i, map_r))
50	{
51	for (j = 1; j<= map_r->N; j++)
52	{
53	e_j = p_GetExp(m_i, j, map_r);
54	if (e_j == 0) e_j=1;
55	p_AddExp(map_j, j, e_j*e_i, map_r);
56	}
57	}
58	}
59	return map_j;
60	}
61
62	// returns maximal exponent if map_id is applied to pi_id
63	static unsigned long maGetMaxExp(ideal pi_id, ring pi_r, ideal map_id, ring map_r)
64	{
65	unsigned long max=0;
66	poly* max_map_monomials = (poly) omAlloc(IDELEMS(map_id)sizeof(poly));
67	poly max_pi_i, max_map_i;
68
69	int i;
70	for (i=0; i<IDELEMS(map_id); i++)
71	{
72	max_map_monomials[i] = p_GetMaxExpP(map_id->m[i], map_r);
73	}
74
75	for (i=0; i<IDELEMS(pi_id); i++)
76	{
77	max_pi_i = p_GetMaxExpP(pi_id->m[i], pi_r);
78	max_map_i = maGetMaxExpP(max_map_monomials, IDELEMS(map_id), map_r,
79	max_pi_i, pi_r);
80	unsigned long temp = p_GetMaxExp(max_map_i, map_r);
81	if (temp > max){ max=temp; }
82
83	p_LmFree(max_pi_i, pi_r);
84	p_LmFree(max_map_i, map_r);
85	}
86	for (i=0; i<IDELEMS(map_id); i++)
87	{
88	p_LmFree(&max_map_monomials[i], map_r);
89	}
90	omFreeSize(max_map_monomials,IDELEMS(map_id)*sizeof(poly));
91
92	return max;
93	}
94
95
96	/*******************************************************************************
97	**
98	*F debugging stuff
99	*/
100	#ifndef SING_NDEBUG
101	void maMonomial_Out(mapoly monomial, ring src_r, ring dest_r)
102	{
103	p_wrp(monomial->src, src_r);
104	printf(" ref:%d", monomial->ref);
105	if (dest_r != NULL)
106	{
107	printf(" dest:");
108	p_wrp(monomial->dest, dest_r);
109	}
110	if (monomial->f1!=NULL) { printf(" f1:%lx", (long)monomial->f1->src);
111	// p_wrp(monomial->f1->src, src_r);
112	}
113	if (monomial->f2!=NULL) { printf(" f2:%lx",(long)monomial->f2->src);
114	// p_wrp(monomial->f2->src, src_r);
115	}
116	printf("\n");
117	fflush(stdout);
118	}
119
120	void maPoly_Out(mapoly mpoly, ring src_r, ring dest_r)
121	{
122	while (mpoly != NULL)
123	{
124	maMonomial_Out(mpoly, src_r, dest_r);
125	mpoly = mpoly->next;
126	}
127	}
128	#endif
129
130	/*******************************************************************************
131	**
132	*F mapolyCreate . . . . . . . . . . . . . . . Creates mapoly
133	*/
134	STATIC_VAR omBin mapolyBin = omGetSpecBin(sizeof(mapoly_s));
135	STATIC_VAR omBin macoeffBin = omGetSpecBin(sizeof(macoeff_s));
136
137	mapoly maMonomial_Create(poly p, ring /r_p/, sBucket_pt bucket)
138	{
139	mapoly mp = (mapoly) omAlloc0Bin(mapolyBin);
140	//p_wrp(p,r_p);printf(" (%x) created\n",mp);
141	mp->src = p;
142	p->next = NULL;
143
144	if (bucket != NULL)
145	{
146	mp->coeff = (macoeff) omAlloc0Bin(macoeffBin);
147	mp->coeff->bucket = bucket;
148	mp->coeff->n = pGetCoeff(p);
149	}
150	mp->ref = 1;
151	return mp;
152	}
153
154	void maMonomial_Destroy(mapoly mp, ring src_r, ring dest_r)
155	{
156	if (mp != NULL)
157	{
158	p_LmFree(mp->src, src_r);
159	if (mp->coeff != NULL)
160	{
161	macoeff coeff, next = mp->coeff;
162	do
163	{
164	coeff = next;
165	next = coeff->next;
166	omFreeBin(coeff, macoeffBin);
167	}
168	while (next != NULL);
169	mp->coeff=NULL;
170	}
171	if (mp->dest != NULL)
172	{
173	assume(dest_r != NULL);
174	p_Delete(&(mp->dest), dest_r);
175	}
176	}
177	omFreeBin(mp, mapolyBin);
178	}
179
180	/*******************************************************************************
181	**
182	*F maPoly_InsertMonomial . . . . . . . . .insertion of a monomial into mapoly
183	*/
184	mapoly maPoly_InsertMonomial(mapoly &into, mapoly what, ring src_r)
185	{
186	if (into == NULL)
187	{
188	into = what;
189	return what;
190	}
191
192	mapoly iter = into;
193	mapoly prev = NULL;
194
195	Top:
196	p_LmCmpAction(iter->src, what->src, src_r, goto Equal, goto Greater, goto Smaller);
197
198	Greater:
199	if (iter->next == NULL)
200	{
201	iter->next = what;
202	return what;
203	}
204	prev = iter;
205	iter = iter->next;
206	goto Top;
207
208	Smaller:
209	if (prev == NULL)
210	{
211	into = what;
212	what->next = iter;
213	return what;
214	}
215	prev->next = what;
216	what->next = iter;
217	return what;
218
219	Equal:
220	iter->ref += what->ref;
221	macoeff coeff = what->coeff;
222	if (coeff != NULL)
223	{
224	while (coeff->next != NULL) coeff = coeff->next;
225	coeff->next = iter->coeff;
226	iter->coeff = what->coeff;
227	what->coeff = NULL;
228	}
229	maMonomial_Free(what, src_r);
230	return iter;
231	}
232
233	mapoly maPoly_InsertMonomial(mapoly &into, poly p, ring src_r, sBucket_pt bucket)
234	{
235	return maPoly_InsertMonomial(into, maMonomial_Create(p, src_r, bucket), src_r);
236	}
237
238	static void maPoly_InsertPoly(mapoly &into, poly what, ring src_r, sBucket_pt bucket)
239	{
240	poly next;
241
242	while (what != NULL)
243	{
244	next = what->next;
245	maPoly_InsertMonomial(into, what, src_r, bucket);
246	what = next;
247	}
248	}
249
250	/*******************************************************************************
251	**
252	*F maMap_Create . . . . . . . . . . . . . . . . . . . . create stuff
253	*/
254
255	void maMap_CreatePolyIdeal(ideal map_id, ring map_r, ring src_r, ring dest_r,
256	mapoly &mp, maideal &mideal)
257	{
258	mideal = (maideal) omAlloc0(sizeof(maideal_s));
259	mideal->n = IDELEMS(map_id);
260	mideal->buckets = (sBucket_pt) omAlloc0(mideal->nsizeof(sBucket_pt));
261	int i;
262	mp = NULL;
263
264	for (i=0; i<mideal->n; i++)
265	{
266	if (map_id->m[i] != NULL)
267	{
268	mideal->buckets[i] = sBucketCreate(dest_r);
269	maPoly_InsertPoly(mp,
270	#ifdef PDEBUG
271	prShallowCopyR(map_id->m[i], map_r, src_r),
272	#else
273	prShallowCopyR_NoSort(map_id->m[i], map_r, src_r),
274	#endif
275	src_r,
276	mideal->buckets[i]);
277	}
278	}
279	}
280
281	void maMap_CreateRings(ideal map_id, ring map_r,
282	ideal image_id, ring image_r,
283	ring &src_r, ring &dest_r, BOOLEAN &simple)
284	{
285	#if HAVE_SRC_R > 0
286	int* weights = (int) omAlloc0(map_r->Nsizeof(int));
287	int i;
288	int n = si_min(map_r->N, IDELEMS(image_id));
289
290	for (i=0; i<n; i++)
291	{
292	weights[i] = pLength(image_id->m[i])+1;
293	}
294	src_r = rModifyRing_Wp(map_r, weights);
295	#else
296	src_r = map_r;
297	#endif
298
299	#if HAVE_DEST_R > 0
300	unsigned long maxExp = maGetMaxExp(map_id, map_r, image_id, image_r);
301	if (maxExp <= 1) maxExp = 2;
302	else if (maxExp > (unsigned long) image_r->bitmask)
303	maxExp = (unsigned long) image_r->bitmask;
304	dest_r = rModifyRing_Simple(image_r, TRUE, TRUE, maxExp, simple);
305	#else
306	dest_r = image_r;
307	#endif
308	}
309
310	static void maMap_KillRings(ring map_r, ring image_r, ring src_r, ring dest_r)
311	{
312	if (map_r != src_r)
313	rKillModified_Wp_Ring(src_r);
314	if (image_r != dest_r)
315	rKillModifiedRing(dest_r);
316	}
317
318	/*******************************************************************************
319	**
320	*F misc . . . . . . . . . . . . . . . . . . . . . . . . . . . . misc stuff
321	*/
322
323	ideal maIdeal_2_Ideal(maideal m_id, ring /dest_r/)
324	{
325	ideal res = idInit(m_id->n, 1);
326	int l;
327
328	for (int i= 0; i < m_id->n; i++)
329	{
330	if (m_id->buckets[i]!=NULL)
331	sBucketDestroyAdd(m_id->buckets[i], &(res->m[i]), &l);
332	}
333	omFreeSize(m_id->buckets,m_id->n*sizeof(sBucket_pt));
334	omFree(m_id);
335	return res;
336	}
337
338	void maPoly_GetLength(mapoly mp, int &length)
339	{
340	length = 0;
341	while (mp != NULL)
342	{
343	length++;
344	mp = mp->next;
345	}
346	}
347
348
349	/*******************************************************************************
350	**
351	*F fast_map_common_subexp . . . . . . . . . . . . . . . . . .the real thing
352	*/
353
354	ideal fast_map_common_subexp(const ideal map_id,const ring map_r,const ideal image_id,const ring image_r)
355	{
356	ring src_r, dest_r;
357	ideal dest_id/, res_id/;
358	int length = 0;
359	BOOLEAN no_sort;
360
361	// construct rings we work in:
362	// src_r: Wp with Weights set to length of poly in image_id
363	// dest_r: Simple ring without degree ordering and short exponents
364	maMap_CreateRings(map_id, map_r, image_id, image_r, src_r, dest_r, no_sort);
365
366	// construct dest_id
367	if (dest_r != image_r)
368	{
369	dest_id = idrShallowCopyR(image_id, image_r, dest_r);
370	}
371	else
372	dest_id = image_id;
373
374	// construct mpoly and mideal
375	mapoly mp;
376	maideal mideal;
377	maMap_CreatePolyIdeal(map_id, map_r, src_r, dest_r, mp, mideal);
378
379	if (TEST_OPT_PROT)
380	{
381	maPoly_GetLength(mp, length);
382	Print("map[%ld:%d]{%d:", dest_r->bitmask, dest_r->ExpL_Size, length);
383	}
384
385	// do the optimization step
386	#if HAVE_MAP_OPTIMIZE > 0
387	if (mp!=NULL) maPoly_Optimize(mp, src_r);
388	#endif
389	if (TEST_OPT_PROT)
390	{
391	maPoly_GetLength(mp, length);
392	Print("%d}", length);
393	}
394
395	// do the actual evaluation
396	maPoly_Eval(mp, src_r, dest_id, dest_r, length);
397	if (TEST_OPT_PROT) PrintS(".");
398
399	// collect the results back into an ideal, clean up mideal
400	ideal res_dest_id = maIdeal_2_Ideal(mideal, dest_r);
401	if (TEST_OPT_PROT) PrintS(".");
402
403	// convert result back to image_r
404	ideal res_image_id;
405	if (dest_r != image_r)
406	{
407	//if (no_sort) see Old/m134si.tst
408	// res_image_id = idrShallowCopyR_NoSort(res_dest_id, dest_r, image_r);
409	//else
410	res_image_id = idrShallowCopyR(res_dest_id, dest_r, image_r);
411	id_ShallowDelete(&res_dest_id, dest_r);
412	id_ShallowDelete(&dest_id,dest_r);
413	}
414	else
415	res_image_id = res_dest_id;
416
417	if (TEST_OPT_PROT) PrintS(".");
418
419	// clean-up the rings
420	maMap_KillRings(map_r, image_r, src_r, dest_r);
421
422	if (TEST_OPT_PROT)
423	PrintLn();
424
425	idTest(res_image_id);
426	return res_image_id;
427	}
428
429
430	/**********************************************************************
431	* Evaluation stuff *
432	**********************************************************************/
433
434	// substitute p everywhere the monomial occours,
435	// return the number of substitutions
436	static int maPoly_Substitute(macoeff c, poly p, ring dest_r)
437	{
438	// substitute the monomial: go through macoeff
439	int len;
440	BOOLEAN zero_div= (rField_is_Ring(dest_r) && !rField_is_Domain(dest_r));
441	if (!zero_div) len=pLength(p);
442	int done=0;
443	while (c!=NULL)
444	{
445	done++;
446	poly t=__pp_Mult_nn(p,c->n,dest_r);
447	#ifdef HAVE_RINGS
448	if (zero_div) len=pLength(t);
449	#endif
450	sBucket_Add_p(c->bucket, t, len);
451	c=c->next;
452	}
453	return done;
454	}
455
456	static poly maPoly_EvalMon(poly src, ring src_r, poly* dest_id, ring dest_r)
457	{
458	int i;
459	int e;
460	poly p=NULL;
461	poly pp;
462	BOOLEAN is_const=TRUE; // for constant src
463	for(i=1;i<=src_r->N;i++)
464	{
465	e=p_GetExp(src,i,src_r);
466	if (e>0)
467	{
468	pp=dest_id[i-1];
469	if (pp==NULL)
470	{
471	p_Delete(&p,dest_r);
472	return NULL;
473	}
474	if (p==NULL)
475	{
476	if (!is_const) // possible only when the coefficient ring is not a field
477	{
478	return NULL;
479	}
480	p=p_Copy(pp /dest_id[i-1]/,dest_r);
481	e--;
482	}
483	while (e>0)
484	{
485	p=p_Mult_q(p,p_Copy(pp /dest_id[i-1]/,dest_r),dest_r);
486	e--;
487	}
488	is_const=FALSE;
489	}
490	}
491	if (is_const)
492	{
493	assume(p==NULL);
494	p=p_ISet(1,dest_r);
495	}
496	return p;
497	}
498
499	void maPoly_Eval(mapoly root, ring src_r, ideal dest_id, ring dest_r, int total_cost)
500	{
501	// invert the list rooted at root:
502	if ((root!=NULL) && (root->next!=NULL))
503	{
504	mapoly q=root->next;
505	mapoly qn;
506	root->next=NULL;
507	do
508	{
509	qn=q->next;
510	q->next=root;
511	root=q;
512	q=qn;
513	}
514	while (qn !=NULL);
515	}
516
517	total_cost /= 10;
518	int next_print_cost = total_cost;
519
520	// the evaluation -----------------------------------------
521	mapoly p=root;
522	int cost = 0;
523
524	while (p!=NULL)
525	{
526	// look at each mapoly: compute its value in ->dest
527	assume (p->dest==NULL);
528	{
529	if ((p->f1!=NULL)&&(p->f2!=NULL))
530	{
531	poly f1=p->f1->dest;
532	poly f2=p->f2->dest;
533	if (p->f1->ref>0) f1=p_Copy(f1,dest_r);
534	else
535	{
536	// we own p->f1->dest now (in f1)
537	p->f1->dest=NULL;
538	}
539	if (p->f2->ref>0) f2=p_Copy(f2,dest_r);
540	else
541	{
542	// we own p->f2->dest now (in f2)
543	p->f2->dest=NULL;
544	}
545	maMonomial_Free(p->f1,src_r, dest_r);
546	maMonomial_Free(p->f2,src_r, dest_r);
547	p->dest=p_Mult_q(f1,f2,dest_r);
548	} /* factors : 2 */
549	else
550	{
551	assume((p->f1==NULL) && (p->f2==NULL));
552	// no factorization provided, use the classical method:
553	p->dest=maPoly_EvalMon(p->src,src_r,dest_id->m,dest_r);
554	}
555	} /* p->dest==NULL */
556	// substitute the monomial: go through macoeff
557	p->ref -= maPoly_Substitute(p->coeff, p->dest, dest_r);
558	//printf("subst done\n");
559	if (total_cost)
560	{
561	assume(TEST_OPT_PROT);
562	cost++;
563	if (cost > next_print_cost)
564	{
565	PrintS("-");
566	next_print_cost += total_cost;
567	}
568	}
569
570	mapoly pp=p;
571	p=p->next;
572	//p_wrp(pp->src, src_r);
573	if (pp->ref<=0)
574	{
575	//printf(" (%x) killed\n",pp);
576	maMonomial_Destroy(pp, src_r, dest_r);
577	}
578	//else
579	// printf(" (%x) not killed, ref=%d\n",pp,pp->ref);
580	}
581	}
582
583
584	/*******************************************************************************
585	**
586	*F maEggt . . . . . . . . . . . . . . . . . . . . . . . . returns extended ggt
587	*/
588	// return NULL if deg(ggt(m1, m2)) < 2
589	// else return m = ggT(m1, m2) and q1, q2 such that m1 = q1m m2 = q2m
590	static poly maEggT(const poly m1, const poly m2, poly &q1, poly &q2,const ring r)
591	{
592
593	int i;
594	int dg = 0;
595	poly ggt = p_Init(r);
596	q1 = p_Init(r);
597	q2 = p_Init(r);
598
599	for (i=1;i<=r->N;i++)
600	{
601	unsigned long e1 = p_GetExp(m1, i, r);
602	unsigned long e2 = p_GetExp(m2, i, r);
603	if (e1 > 0 && e2 > 0)
604	{
605	unsigned long em = (e1 > e2 ? e2 : e1);
606	dg += em;
607	p_SetExp(ggt, i, em, r);
608	p_SetExp(q1, i, e1 - em, r);
609	p_SetExp(q2, i, e2 - em, r);
610	}
611	else
612	{
613	p_SetExp(q1, i, e1, r);
614	p_SetExp(q2, i, e2, r);
615	}
616	}
617	if (dg>1)
618	{
619	p_Setm(ggt, r);
620	p_Setm(q1, r);
621	p_Setm(q2, r);
622	}
623	else
624	{
625	p_LmFree(ggt, r);
626	p_LmFree(q1, r);
627	p_LmFree(q2, r);
628	ggt = NULL;
629	}
630	return ggt;
631	}
632
633	/********************************************************************
634	** *
635	* maFindBestggT *
636	* finds ggT with the highest cost *
637	*******************************************************************/
638
639	static mapoly maFindBestggT(mapoly mp, mapoly & choice, mapoly & fp, mapoly & fq,const ring r)
640	{
641	int ggt_deg = 0;
642	poly p = mp->src;
643	mapoly iter = choice;
644	poly ggT = NULL;
645	fp = NULL;
646	fq = NULL;
647	poly fp_p=NULL;
648	poly fq_p=NULL;
649	choice=NULL;
650	while ((iter != NULL) && (p_Deg(iter->src, r) > ggt_deg))
651	{
652	// maMonomial_Out(iter, r, NULL);
653	poly q1, q2, q;
654
655	q = maEggT(p, iter->src, q1, q2,r);
656	if (q != NULL)
657	{
658	int tmp_deg;
659	assume((q1!=NULL)&&(q2!=NULL));
660	if ((tmp_deg=p_Deg(q,r)) > ggt_deg)
661	{
662	choice=iter;
663	if (ggT != NULL)
664	{
665	p_LmFree(ggT, r);
666	p_LmFree(fp_p, r);
667	p_LmFree(fq_p, r);
668	}
669	ggt_deg = tmp_deg ; /p_Deg(q, r);/
670	ggT = q;
671	fp_p = q1;
672	fq_p = q2;
673	}
674	else
675	{
676	p_LmFree(q, r);
677	p_LmFree(q1, r);
678	p_LmFree(q2, r);
679	}
680	}
681	iter=iter->next;
682	}
683	if(ggT!=NULL)
684	{
685	int dq =p_Totaldegree(fq_p,r);
686	if (dq!=0)
687	{
688	fq=maPoly_InsertMonomial(mp, fq_p, r, NULL);
689	fp=maPoly_InsertMonomial(mp, fp_p, r, NULL);
690	return maPoly_InsertMonomial(mp, ggT, r, NULL);
691	}
692	else
693	{
694	fq=NULL;
695	p_LmFree(fq_p, r);
696	p_LmFree(ggT, r);
697	fp=maPoly_InsertMonomial(mp, fp_p, r, NULL);
698	choice->ref++;
699	return choice;
700	}
701	}
702	else
703	{
704	return NULL;
705	}
706	}
707
708	/********************************************************************
709	** *
710	* maPoly_Optimize *
711	* adds and integrates subexpressions *
712	*******************************************************************/
713
714	void maPoly_Optimize(mapoly mpoly, ring src_r)
715	{
716	assume(mpoly!=NULL && mpoly->src!=NULL);
717	mapoly iter = mpoly;
718	mapoly choice;
719	mapoly ggT=NULL;
720	mapoly fp=NULL;
721	mapoly fq=NULL;
722	while (iter->next!=NULL)
723	{
724	choice=iter->next;
725	if ( /(/ iter->f1==NULL /)/ )
726	{
727	ggT=maFindBestggT(iter, choice, fp, fq,src_r);
728	if (choice!=NULL)
729	{
730	assume(iter->f1==NULL);
731	assume(iter->f2==NULL);
732	iter->f1=fp;
733	iter->f2=ggT;
734	if (fq!=NULL)
735	{
736	ggT->ref++;
737	choice->f1=fq;
738	choice->f2=ggT;
739	}
740	}
741	else assume(ggT==NULL);
742	}
743	iter=iter->next;
744	}
745	}

Note: See TracBrowser for help on using the repository browser.

Download in other formats: