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source: git/Singular/misc_ip.cc @ 2a4a23

spielwiese

Last change on this file since 2a4a23 was 2a4a23, checked in by Hans Schoenemann <hannes@…>, 6 years ago
fix: Z/p-arithmetic for all architectures
Property mode set to `100644`
File size: 36.3 KB

Line
1	/*****************************************************************************\
2	* Computer Algebra System SINGULAR
3	\*****************************************************************************/
4	/** @file misc_ip.cc
5	*
6	* This file provides miscellaneous functionality.
7	*
8	* For more general information, see the documentation in misc_ip.h.
9	*
10	**/
11	/*****************************************************************************/
12
13	// include header files
14	#define PLURAL_INTERNAL_DECLARATIONS 1
15
16	#include "kernel/mod2.h"
17	#include "misc/sirandom.h"
18
19	#include "omalloc/omalloc.h"
20	#include "misc/mylimits.h"
21
22	#include "reporter/si_signals.h"
23
24	#include "factory/factory.h"
25
26	#include "coeffs/si_gmp.h"
27	#include "coeffs/coeffs.h"
28	#include "coeffs/OPAE.h"
29	#include "coeffs/OPAEQ.h"
30	#include "coeffs/OPAEp.h"
31	#include "coeffs/flintcf_Q.h"
32	#include "coeffs/flintcf_Zn.h"
33
34	#include "polys/ext_fields/algext.h"
35	#include "polys/ext_fields/transext.h"
36	#include "polys/nc/gb_hack.h"
37
38	#ifdef HAVE_SIMPLEIPC
39	#include "Singular/links/simpleipc.h"
40	#endif
41
42	#include "misc_ip.h"
43	#include "ipid.h"
44	#include "feOpt.h"
45	#include "links/silink.h"
46	#include "mod_lib.h"
47	#include "Singular/distrib.h"
48
49	#include "misc/options.h"
50	#include "misc/intvec.h"
51
52	#include "polys/monomials/ring.h"
53	#include "polys/templates/p_Procs.h"
54
55	#include "kernel/GBEngine/kstd1.h"
56	#include "kernel/oswrapper/timer.h"
57	#include "resources/feResource.h"
58	#include "kernel/oswrapper/feread.h"
59
60	#include "subexpr.h"
61	#include "cntrlc.h"
62	#include "ipshell.h"
63
64	#include "fehelp.h"
65
66	#ifdef HAVE_READLINE
67	#ifdef READLINE_READLINE_H_OK
68	#include <readline/readline.h>
69	#endif
70	#ifndef RL_VERSION_MAJOR
71	#define RL_VERSION_MAJOR 0
72	#endif
73	#endif
74
75	#ifdef HAVE_NTL
76	#include <NTL/version.h>
77	#include <NTL/tools.h>
78	#ifdef NTL_CLIENT
79	NTL_CLIENT
80	#endif
81	#endif
82
83
84	static FORCE_INLINE void number2mpz(number n, mpz_t m){ number2mpz(n, coeffs_BIGINT, m); }
85	static FORCE_INLINE number mpz2number(mpz_t m){ return mpz2number(m, coeffs_BIGINT); }
86
87
88	void setListEntry(lists L, int index, mpz_t n)
89	{ /* assumes n > 0 */
90	/* try to fit nn into an int: */
91	if (mpz_size1(n)<=1)
92	{
93	int ui=(int)mpz_get_si(n);
94	if ((((ui<<3)>>3)==ui)
95	&& (mpz_cmp_si(n,(long)ui)==0))
96	{
97	L->m[index].rtyp = INT_CMD; L->m[index].data = (void*)(long)ui;
98	return;
99	}
100	}
101	number nn = mpz2number(n);
102	L->m[index].rtyp = BIGINT_CMD; L->m[index].data = (void*)nn;
103	}
104
105	void setListEntry_ui(lists L, int index, unsigned long ui)
106	{ /* assumes n > 0 */
107	/* try to fit nn into an int: */
108	int i=(int)ui;
109	if ((((unsigned long)i)==ui) && (((i<<3)>>3)==i))
110	{
111	L->m[index].rtyp = INT_CMD; L->m[index].data = (void*)(long)i;
112	}
113	else
114	{
115	number nn = n_Init(ui, coeffs_BIGINT);
116	L->m[index].rtyp = BIGINT_CMD; L->m[index].data = (void*)nn;
117	}
118	}
119
120	/* Factoring with Pollard's rho method. stolen from GMP/demos */
121	static unsigned add[] = {4, 2, 4, 2, 4, 6, 2, 6};
122
123	static int factor_using_division (mpz_t t, unsigned int limit,lists primes, int *multiplicities,int &index, unsigned long bound)
124	{
125	mpz_t q, r;
126	unsigned long int f;
127	int ai;
128	unsigned *addv = add;
129	unsigned int failures;
130	int bound_not_reached=1;
131
132	mpz_init (q);
133	mpz_init (r);
134
135	f = mpz_scan1 (t, 0);
136	mpz_div_2exp (t, t, f);
137	if (f>0)
138	{
139	setListEntry_ui(primes, index, 2);
140	multiplicities[index++] = f;
141	}
142
143	f=0;
144	loop
145	{
146	mpz_tdiv_qr_ui (q, r, t, 3);
147	if (mpz_sgn1 (r) != 0)
148	break;
149	mpz_set (t, q);
150	f++;
151	}
152	if (f>0)
153	{
154	setListEntry_ui(primes, index, 3);
155	multiplicities[index++] = f;
156	}
157	f=0;
158	loop
159	{
160	mpz_tdiv_qr_ui (q, r, t, 5);
161	if (mpz_sgn1 (r) != 0)
162	break;
163	mpz_set (t, q);
164	f++;
165	}
166	if (f>0)
167	{
168	setListEntry_ui(primes, index, 5);
169	multiplicities[index++] = f;
170	}
171
172	failures = 0;
173	f = 7;
174	ai = 0;
175	unsigned long last_f=0;
176	while (mpz_cmp_ui (t, 1) != 0)
177	{
178	mpz_tdiv_qr_ui (q, r, t, f);
179	if (mpz_sgn1 (r) != 0)
180	{
181	f += addv[ai];
182	if (mpz_cmp_ui (t, f) < 0)
183	break;
184	ai = (ai + 1) & 7;
185	failures++;
186	if (failures > limit)
187	break;
188	if ((bound!=0) && (f>bound))
189	{
190	bound_not_reached=0;
191	break;
192	}
193	}
194	else
195	{
196	mpz_swap (t, q);
197	if (f!=last_f)
198	{
199	setListEntry_ui(primes, index, f);
200	multiplicities[index]++;
201	index++;
202	}
203	else
204	{
205	multiplicities[index-1]++;
206	}
207	last_f=f;
208	failures = 0;
209	}
210	}
211
212	mpz_clear (q);
213	mpz_clear (r);
214	//printf("bound=%d,f=%d,failures=%d, reached=%d\n",bound,f,failures,bound_not_reached);
215	return bound_not_reached;
216	}
217
218	static void factor_using_pollard_rho (mpz_t n, unsigned long a, lists primes, int * multiplicities,int &index)
219	{
220	mpz_t x, x1, y, P;
221	mpz_t t1, t2;
222	mpz_t last_f;
223	unsigned long long k, l, i;
224
225	mpz_init (t1);
226	mpz_init (t2);
227	mpz_init_set_ui (last_f, 0);
228	mpz_init_set_ui (y, 2);
229	mpz_init_set_ui (x, 2);
230	mpz_init_set_ui (x1, 2);
231	mpz_init_set_ui (P, 1);
232	k = 1;
233	l = 1;
234
235	while (mpz_cmp_ui (n, 1) != 0)
236	{
237	loop
238	{
239	do
240	{
241	mpz_mul (t1, x, x);
242	mpz_mod (x, t1, n);
243	mpz_add_ui (x, x, a);
244	mpz_sub (t1, x1, x);
245	mpz_mul (t2, P, t1);
246	mpz_mod (P, t2, n);
247
248	if (k % 32 == 1)
249	{
250	mpz_gcd (t1, P, n);
251	if (mpz_cmp_ui (t1, 1) != 0)
252	goto factor_found;
253	mpz_set (y, x);
254	}
255	}
256	while (--k != 0);
257
258	mpz_gcd (t1, P, n);
259	if (mpz_cmp_ui (t1, 1) != 0)
260	goto factor_found;
261
262	mpz_set (x1, x);
263	k = l;
264	l = 2 * l;
265	for (i = 0; i < k; i++)
266	{
267	mpz_mul (t1, x, x);
268	mpz_mod (x, t1, n);
269	mpz_add_ui (x, x, a);
270	}
271	mpz_set (y, x);
272	}
273
274	factor_found:
275	do
276	{
277	mpz_mul (t1, y, y);
278	mpz_mod (y, t1, n);
279	mpz_add_ui (y, y, a);
280	mpz_sub (t1, x1, y);
281	mpz_gcd (t1, t1, n);
282	}
283	while (mpz_cmp_ui (t1, 1) == 0);
284
285	mpz_divexact (n, n, t1); /* divide by t1, before t1 is overwritten */
286
287	if (!mpz_probab_prime_p (t1, 10))
288	{
289	do
290	{
291	mp_limb_t a_limb;
292	mpn_random (&a_limb, (mp_size_t) 1);
293	a = a_limb;
294	}
295	while (a == 0);
296
297	factor_using_pollard_rho (t1, a, primes,multiplicities,index);
298	}
299	else
300	{
301	if (mpz_cmp(t1,last_f)==0)
302	{
303	multiplicities[index-1]++;
304	}
305	else
306	{
307	mpz_set(last_f,t1);
308	setListEntry(primes, index, t1);
309	multiplicities[index++] = 1;
310	}
311	}
312	mpz_mod (x, x, n);
313	mpz_mod (x1, x1, n);
314	mpz_mod (y, y, n);
315	if (mpz_probab_prime_p (n, 10))
316	{
317	if (mpz_cmp(n,last_f)==0)
318	{
319	multiplicities[index-1]++;
320	}
321	else
322	{
323	mpz_set(last_f,n);
324	setListEntry(primes, index, n);
325	multiplicities[index++] = 1;
326	}
327	mpz_set_ui(n,1);
328	break;
329	}
330	}
331
332	mpz_clear (P);
333	mpz_clear (t2);
334	mpz_clear (t1);
335	mpz_clear (x1);
336	mpz_clear (x);
337	mpz_clear (y);
338	mpz_clear (last_f);
339	}
340
341	static void factor_gmp (mpz_t t,lists primes,int *multiplicities,int &index,unsigned long bound)
342	{
343	unsigned int division_limit;
344
345	if (mpz_sgn (t) == 0)
346	return;
347
348	/* Set the trial division limit according the size of t. */
349	division_limit = mpz_sizeinbase (t, 2);
350	if (division_limit > 1000)
351	division_limit = 1000 * 1000;
352	else
353	division_limit = division_limit * division_limit;
354
355	if (factor_using_division (t, division_limit,primes,multiplicities,index,bound))
356	{
357	if (mpz_cmp_ui (t, 1) != 0)
358	{
359	if (mpz_probab_prime_p (t, 10))
360	{
361	setListEntry(primes, index, t);
362	multiplicities[index++] = 1;
363	mpz_set_ui(t,1);
364	}
365	else
366	factor_using_pollard_rho (t, 1L, primes,multiplicities,index);
367	}
368	}
369	}
370	/* n and pBound are assumed to be bigint numbers */
371	lists primeFactorisation(const number n, const int pBound)
372	{
373	int i;
374	int index=0;
375	mpz_t nn; number2mpz(n, nn);
376	lists primes = (lists)omAllocBin(slists_bin); primes->Init(1000);
377	int* multiplicities = (int)omAlloc0(1000sizeof(int));
378	int positive=1;
379
380	if (!n_IsZero(n, coeffs_BIGINT))
381	{
382	if (!n_GreaterZero(n, coeffs_BIGINT))
383	{
384	positive=-1;
385	mpz_neg(nn,nn);
386	}
387	factor_gmp(nn,primes,multiplicities,index,pBound);
388	}
389
390	lists primesL = (lists)omAllocBin(slists_bin);
391	primesL->Init(index);
392	for (i = 0; i < index; i++)
393	{
394	primesL->m[i].rtyp = primes->m[i].rtyp;
395	primesL->m[i].data = primes->m[i].data;
396	primes->m[i].rtyp=0;
397	primes->m[i].data=NULL;
398	}
399	primes->Clean(NULL);
400
401	lists multiplicitiesL = (lists)omAllocBin(slists_bin);
402	multiplicitiesL->Init(index);
403	for (i = 0; i < index; i++)
404	{
405	multiplicitiesL->m[i].rtyp = INT_CMD;
406	multiplicitiesL->m[i].data = (void*)(long)multiplicities[i];
407	}
408	omFree(multiplicities);
409
410	lists L=(lists)omAllocBin(slists_bin);
411	L->Init(3);
412	if (positive==-1) mpz_neg(nn,nn);
413	L->m[0].rtyp = LIST_CMD; L->m[0].data = (void*)primesL;
414	L->m[1].rtyp = LIST_CMD; L->m[1].data = (void*)multiplicitiesL;
415	setListEntry(L, 2, nn);
416
417	mpz_clear(nn);
418
419	return L;
420	}
421
422	#ifdef HAVE_STATIC
423	#undef HAVE_DYN_RL
424	#endif
425
426	//#ifdef HAVE_LIBPARSER
427	//# include "libparse.h"
428	//#endif /* HAVE_LIBPARSER */
429
430
431	/*2
432	* the renice routine for very large jobs
433	* works only on unix machines,
434	* testet on : linux, HP 9.0
435	*
436	*#include <sys/times.h>
437	*#include <sys/resource.h>
438	*extern "C" int setpriority(int,int,int);
439	*void very_nice()
440	*{
441	*#ifndef NO_SETPRIORITY
442	* setpriority(PRIO_PROCESS,0,19);
443	*#endif
444	* sleep(10);
445	*}
446	*/
447
448	void singular_example(char *str)
449	{
450	assume(str!=NULL);
451	char *s=str;
452	while (*s==' ') s++;
453	char *ss=s;
454	while (*ss!='\0') ss++;
455	while (*ss<=' ')
456	{
457	*ss='\0';
458	ss--;
459	}
460	idhdl h=IDROOT->get(s,myynest);
461	if ((h!=NULL) && (IDTYP(h)==PROC_CMD))
462	{
463	char *lib=iiGetLibName(IDPROC(h));
464	if((lib!=NULL)&&(*lib!='\0'))
465	{
466	Print("// proc %s from lib %s\n",s,lib);
467	s=iiGetLibProcBuffer(IDPROC(h), 2);
468	if (s!=NULL)
469	{
470	if (strlen(s)>5)
471	{
472	iiEStart(s,IDPROC(h));
473	omFree((ADDRESS)s);
474	return;
475	}
476	else omFree((ADDRESS)s);
477	}
478	}
479	}
480	else
481	{
482	char sing_file[MAXPATHLEN];
483	FILE *fd=NULL;
484	char *res_m=feResource('m', 0);
485	if (res_m!=NULL)
486	{
487	sprintf(sing_file, "%s/%s.sing", res_m, s);
488	fd = feFopen(sing_file, "r");
489	}
490	if (fd != NULL)
491	{
492
493	int old_echo = si_echo;
494	int length, got;
495	char* s;
496
497	fseek(fd, 0, SEEK_END);
498	length = ftell(fd);
499	fseek(fd, 0, SEEK_SET);
500	s = (char) omAlloc((length+20)sizeof(char));
501	got = fread(s, sizeof(char), length, fd);
502	fclose(fd);
503	if (got != length)
504	{
505	Werror("Error while reading file %s", sing_file);
506	}
507	else
508	{
509	s[length] = '\0';
510	strcat(s, "\n;return();\n\n");
511	si_echo = 2;
512	iiEStart(s, NULL);
513	si_echo = old_echo;
514	}
515	omFree(s);
516	}
517	else
518	{
519	Werror("no example for %s", str);
520	}
521	}
522	}
523
524
525	const struct soptionStruct optionStruct[]=
526	{
527	{"prot", Sy_bit(OPT_PROT), ~Sy_bit(OPT_PROT) },
528	{"redSB", Sy_bit(OPT_REDSB), ~Sy_bit(OPT_REDSB) },
529	{"notBuckets", Sy_bit(OPT_NOT_BUCKETS), ~Sy_bit(OPT_NOT_BUCKETS) },
530	{"notSugar", Sy_bit(OPT_NOT_SUGAR), ~Sy_bit(OPT_NOT_SUGAR) },
531	{"interrupt", Sy_bit(OPT_INTERRUPT), ~Sy_bit(OPT_INTERRUPT) },
532	{"sugarCrit", Sy_bit(OPT_SUGARCRIT), ~Sy_bit(OPT_SUGARCRIT) },
533	{"teach", Sy_bit(OPT_DEBUG), ~Sy_bit(OPT_DEBUG) },
534	{"notSyzMinim", Sy_bit(OPT_NO_SYZ_MINIM), ~Sy_bit(OPT_NO_SYZ_MINIM) },
535	/* 9 return SB in syz, quotient, intersect */
536	{"returnSB", Sy_bit(OPT_RETURN_SB), ~Sy_bit(OPT_RETURN_SB) },
537	{"fastHC", Sy_bit(OPT_FASTHC), ~Sy_bit(OPT_FASTHC) },
538	/* 11-19 sort in L/T */
539	{"staircaseBound",Sy_bit(OPT_STAIRCASEBOUND),~Sy_bit(OPT_STAIRCASEBOUND) },
540	{"multBound", Sy_bit(OPT_MULTBOUND), ~Sy_bit(OPT_MULTBOUND) },
541	{"degBound", Sy_bit(OPT_DEGBOUND), ~Sy_bit(OPT_DEGBOUND) },
542	/* 25 no redTail(p)/redTail(s) */
543	{"redTail", Sy_bit(OPT_REDTAIL), ~Sy_bit(OPT_REDTAIL) },
544	{"redThrough", Sy_bit(OPT_REDTHROUGH), ~Sy_bit(OPT_REDTHROUGH) },
545	{"lazy", Sy_bit(OPT_OLDSTD), ~Sy_bit(OPT_OLDSTD) },
546	{"intStrategy", Sy_bit(OPT_INTSTRATEGY), ~Sy_bit(OPT_INTSTRATEGY) },
547	{"infRedTail", Sy_bit(OPT_INFREDTAIL), ~Sy_bit(OPT_INFREDTAIL) },
548	/* 30: use not regularity for syz */
549	{"notRegularity",Sy_bit(OPT_NOTREGULARITY), ~Sy_bit(OPT_NOTREGULARITY) },
550	{"weightM", Sy_bit(OPT_WEIGHTM), ~Sy_bit(OPT_WEIGHTM) },
551	/special for "none" and also end marker for showOption:/
552	{"ne", 0, 0 }
553	};
554
555	const struct soptionStruct verboseStruct[]=
556	{
557	{"assign_none",Sy_bit(V_ASSIGN_NONE),~Sy_bit(V_ASSIGN_NONE)},
558	{"mem", Sy_bit(V_SHOW_MEM), ~Sy_bit(V_SHOW_MEM) },
559	{"yacc", Sy_bit(V_YACC), ~Sy_bit(V_YACC) },
560	{"redefine", Sy_bit(V_REDEFINE), ~Sy_bit(V_REDEFINE) },
561	{"reading", Sy_bit(V_READING), ~Sy_bit(V_READING) },
562	{"loadLib", Sy_bit(V_LOAD_LIB), ~Sy_bit(V_LOAD_LIB) },
563	{"debugLib", Sy_bit(V_DEBUG_LIB), ~Sy_bit(V_DEBUG_LIB) },
564	{"loadProc", Sy_bit(V_LOAD_PROC), ~Sy_bit(V_LOAD_PROC) },
565	{"defRes", Sy_bit(V_DEF_RES), ~Sy_bit(V_DEF_RES) },
566	{"usage", Sy_bit(V_SHOW_USE), ~Sy_bit(V_SHOW_USE) },
567	{"Imap", Sy_bit(V_IMAP), ~Sy_bit(V_IMAP) },
568	{"prompt", Sy_bit(V_PROMPT), ~Sy_bit(V_PROMPT) },
569	{"length", Sy_bit(V_LENGTH), ~Sy_bit(V_LENGTH) },
570	{"notWarnSB",Sy_bit(V_NSB), ~Sy_bit(V_NSB) },
571	{"contentSB",Sy_bit(V_CONTENTSB), ~Sy_bit(V_CONTENTSB) },
572	{"cancelunit",Sy_bit(V_CANCELUNIT),~Sy_bit(V_CANCELUNIT)},
573	{"modpsolve",Sy_bit(V_MODPSOLVSB),~Sy_bit(V_MODPSOLVSB)},
574	{"geometricSB",Sy_bit(V_UPTORADICAL),~Sy_bit(V_UPTORADICAL)},
575	{"findMonomials",Sy_bit(V_FINDMONOM),~Sy_bit(V_FINDMONOM)},
576	{"coefStrat",Sy_bit(V_COEFSTRAT), ~Sy_bit(V_COEFSTRAT)},
577	{"qringNF", Sy_bit(V_QRING), ~Sy_bit(V_QRING)},
578	{"warn", Sy_bit(V_ALLWARN), ~Sy_bit(V_ALLWARN)},
579	{"intersectSyz",Sy_bit(V_INTERSECT_SYZ), ~Sy_bit(V_INTERSECT_SYZ)},
580	{"intersectElim",Sy_bit(V_INTERSECT_ELIM), ~Sy_bit(V_INTERSECT_ELIM)},
581	/special for "none" and also end marker for showOption:/
582	{"ne", 0, 0 }
583	};
584
585	BOOLEAN setOption(leftv res, leftv v)
586	{
587	const char *n;
588	do
589	{
590	if (v->Typ()==STRING_CMD)
591	{
592	n=(const char *)v->CopyD(STRING_CMD);
593	}
594	else
595	{
596	if (v->name==NULL)
597	return TRUE;
598	if (v->rtyp==0)
599	{
600	n=v->name;
601	v->name=NULL;
602	}
603	else
604	{
605	n=omStrDup(v->name);
606	}
607	}
608
609	int i;
610
611	if(strcmp(n,"get")==0)
612	{
613	intvec *w=new intvec(2);
614	(*w)[0]=si_opt_1;
615	(*w)[1]=si_opt_2;
616	res->rtyp=INTVEC_CMD;
617	res->data=(void *)w;
618	goto okay;
619	}
620	if(strcmp(n,"set")==0)
621	{
622	if((v->next!=NULL)
623	&&(v->next->Typ()==INTVEC_CMD))
624	{
625	v=v->next;
626	intvec w=(intvec)v->Data();
627	si_opt_1=(*w)[0];
628	si_opt_2=(*w)[1];
629	#if 0
630	if (TEST_OPT_INTSTRATEGY && (currRing!=NULL)
631	&& rField_has_simple_inverse()
632	&& !rField_is_Ring(currRing)
633	) {
634	si_opt_1 &=~Sy_bit(OPT_INTSTRATEGY);
635	}
636	#endif
637	goto okay;
638	}
639	}
640	if(strcmp(n,"none")==0)
641	{
642	si_opt_1=0;
643	si_opt_2=0;
644	goto okay;
645	}
646	for (i=0; (i==0) \|\| (optionStruct[i-1].setval!=0); i++)
647	{
648	if (strcmp(n,optionStruct[i].name)==0)
649	{
650	if (optionStruct[i].setval & validOpts)
651	{
652	si_opt_1 \|= optionStruct[i].setval;
653	// optOldStd disables redthrough
654	if (optionStruct[i].setval == Sy_bit(OPT_OLDSTD))
655	si_opt_1 &= ~Sy_bit(OPT_REDTHROUGH);
656	}
657	else
658	WarnS("cannot set option");
659	#if 0
660	if (TEST_OPT_INTSTRATEGY && (currRing!=NULL)
661	&& rField_has_simple_inverse()
662	&& !rField_is_Ring(currRing)
663	) {
664	test &=~Sy_bit(OPT_INTSTRATEGY);
665	}
666	#endif
667	goto okay;
668	}
669	else if ((strncmp(n,"no",2)==0)
670	&& (strcmp(n+2,optionStruct[i].name)==0))
671	{
672	if (optionStruct[i].setval & validOpts)
673	{
674	si_opt_1 &= optionStruct[i].resetval;
675	}
676	else
677	WarnS("cannot clear option");
678	goto okay;
679	}
680	}
681	for (i=0; (i==0) \|\| (verboseStruct[i-1].setval!=0); i++)
682	{
683	if (strcmp(n,verboseStruct[i].name)==0)
684	{
685	si_opt_2 \|= verboseStruct[i].setval;
686	#ifdef YYDEBUG
687	#if YYDEBUG
688	/debugging the bison grammar --> grammar.cc/
689	extern int yydebug;
690	if (BVERBOSE(V_YACC)) yydebug=1;
691	else yydebug=0;
692	#endif
693	#endif
694	goto okay;
695	}
696	else if ((strncmp(n,"no",2)==0)
697	&& (strcmp(n+2,verboseStruct[i].name)==0))
698	{
699	si_opt_2 &= verboseStruct[i].resetval;
700	#ifdef YYDEBUG
701	#if YYDEBUG
702	/debugging the bison grammar --> grammar.cc/
703	extern int yydebug;
704	if (BVERBOSE(V_YACC)) yydebug=1;
705	else yydebug=0;
706	#endif
707	#endif
708	goto okay;
709	}
710	}
711	Werror("unknown option `%s`",n);
712	okay:
713	if (currRing != NULL)
714	currRing->options = si_opt_1 & TEST_RINGDEP_OPTS;
715	omFree((ADDRESS)n);
716	v=v->next;
717	} while (v!=NULL);
718
719	// set global variable to show memory usage
720	extern int om_sing_opt_show_mem;
721	if (BVERBOSE(V_SHOW_MEM)) om_sing_opt_show_mem = 1;
722	else om_sing_opt_show_mem = 0;
723
724	return FALSE;
725	}
726
727	char * showOption()
728	{
729	int i;
730	BITSET tmp;
731
732	StringSetS("//options:");
733	if ((si_opt_1!=0)\|\|(si_opt_2!=0))
734	{
735	tmp=si_opt_1;
736	if(tmp)
737	{
738	for (i=0; optionStruct[i].setval!=0; i++)
739	{
740	if (optionStruct[i].setval & tmp)
741	{
742	StringAppend(" %s",optionStruct[i].name);
743	tmp &=optionStruct[i].resetval;
744	}
745	}
746	for (i=0; i<32; i++)
747	{
748	if (tmp & Sy_bit(i)) StringAppend(" %d",i);
749	}
750	}
751	tmp=si_opt_2;
752	if (tmp)
753	{
754	for (i=0; verboseStruct[i].setval!=0; i++)
755	{
756	if (verboseStruct[i].setval & tmp)
757	{
758	StringAppend(" %s",verboseStruct[i].name);
759	tmp &=verboseStruct[i].resetval;
760	}
761	}
762	for (i=1; i<32; i++)
763	{
764	if (tmp & Sy_bit(i)) StringAppend(" %d",i+32);
765	}
766	}
767	return StringEndS();
768	}
769	StringAppendS(" none");
770	return StringEndS();
771	}
772
773	/* version strings */
774	#ifdef HAVE_FLINT
775	extern "C"
776	{
777	#ifndef __GMP_BITS_PER_MP_LIMB
778	#define __GMP_BITS_PER_MP_LIMB GMP_LIMB_BITS
779	#endif
780	#include <flint/flint.h>
781	}
782	#endif
783
784	#ifndef MAKE_DISTRIBUTION
785	const char *singular_date=__DATE__ " " __TIME__;
786	#endif
787
788	char * versionString(/const bool bShowDetails = false/ )
789	{
790	StringSetS("");
791	StringAppend("Singular for %s version %s (%d, %d bit) %s #%s",
792	S_UNAME, VERSION, // SINGULAR_VERSION,
793	SINGULAR_VERSION, sizeof(void)8,
794	#ifdef MAKE_DISTRIBUTION
795	VERSION_DATE, GIT_VERSION);
796	#else
797	singular_date, GIT_VERSION);
798	#endif
799	StringAppendS("\nwith\n\t");
800
801	#if defined(mpir_version)
802	StringAppend("MPIR(%s)~GMP(%s),", mpir_version, gmp_version);
803	#elif defined(gmp_version)
804	// #if defined (__GNU_MP_VERSION) && defined (__GNU_MP_VERSION_MINOR)
805	// StringAppend("GMP(%d.%d),",__GNU_MP_VERSION,__GNU_MP_VERSION_MINOR);
806	StringAppend("GMP(%s),", gmp_version);
807	#endif
808	#ifdef HAVE_NTL
809	#include <NTL/version.h>
810	StringAppend("NTL(%s),",NTL_VERSION);
811	#endif
812
813	#ifdef HAVE_FLINT
814	StringAppend("FLINT(%s),",version);
815	#endif
816	StringAppendS("factory(" FACTORYVERSION "),\n\t");
817	#ifdef XMEMORY_H
818	StringAppendS("xalloc,");
819	#else
820	StringAppendS("omalloc,");
821	#endif
822	#if defined(HAVE_DYN_RL)
823	if (fe_fgets_stdin==fe_fgets_dummy)
824	StringAppendS("no input,");
825	else if (fe_fgets_stdin==fe_fgets)
826	StringAppendS("fgets,");
827	if (fe_fgets_stdin==fe_fgets_stdin_drl)
828	StringAppend("dynamic readline%d),",RL_VERSION_MAJOR);
829	#ifdef HAVE_FEREAD
830	else if (fe_fgets_stdin==fe_fgets_stdin_emu)
831	StringAppendS("emulated readline,");
832	#endif
833	else
834	StringAppendS("unknown fgets method,");
835	#else
836	#if defined(HAVE_READLINE) && !defined(FEREAD)
837	StringAppend("static readline(%d),",RL_VERSION_MAJOR);
838	#else
839	#ifdef HAVE_FEREAD
840	StringAppendS("emulated readline,");
841	#else
842	StringAppendS("fgets,");
843	#endif
844	#endif
845	#endif
846	#ifdef HAVE_PLURAL
847	StringAppendS("Plural,");
848	#endif
849	#ifdef HAVE_DBM
850	StringAppendS("DBM,\n\t");
851	#else
852	StringAppendS("\n\t");
853	#endif
854	#ifdef HAVE_DYNAMIC_LOADING
855	StringAppendS("dynamic modules,");
856	#endif
857	if (p_procs_dynamic) StringAppendS("dynamic p_Procs,");
858	#if YYDEBUG
859	StringAppendS("YYDEBUG=1,");
860	#endif
861	#ifdef MDEBUG
862	StringAppend("MDEBUG=%d,",MDEBUG);
863	#endif
864	#ifdef OM_CHECK
865	StringAppend("OM_CHECK=%d,",OM_CHECK);
866	#endif
867	#ifdef OM_TRACK
868	StringAppend("OM_TRACK=%d,",OM_TRACK);
869	#endif
870	#ifdef OM_NDEBUG
871	StringAppendS("OM_NDEBUG,");
872	#endif
873	#ifdef SING_NDEBUG
874	StringAppendS("SING_NDEBUG,");
875	#endif
876	#ifdef PDEBUG
877	StringAppendS("PDEBUG,");
878	#endif
879	#ifdef KDEBUG
880	StringAppendS("KDEBUG,");
881	#endif
882	StringAppendS("\n\t");
883	#ifdef __OPTIMIZE__
884	StringAppendS("CC:OPTIMIZE,");
885	#endif
886	#ifdef __OPTIMIZE_SIZE__
887	StringAppendS("CC:OPTIMIZE_SIZE,");
888	#endif
889	#ifdef __NO_INLINE__
890	StringAppendS("CC:NO_INLINE,");
891	#endif
892	#ifdef HAVE_GENERIC_ADD
893	StringAppendS("GenericAdd,");
894	#else
895	StringAppendS("AvoidBranching,");
896	#endif
897	#ifdef HAVE_GENERIC_MULT
898	StringAppendS("GenericMult,");
899	#else
900	StringAppendS("TableMult,");
901	#endif
902	#ifdef HAVE_INVTABLE
903	StringAppendS("invTable,");
904	#else
905	StringAppendS("no invTable,");
906	#endif
907	StringAppendS("\n\t");
908	#ifdef HAVE_EIGENVAL
909	StringAppendS("eigenvalues,");
910	#endif
911	#ifdef HAVE_GMS
912	StringAppendS("Gauss-Manin system,");
913	#endif
914	#ifdef HAVE_RATGRING
915	StringAppendS("ratGB,");
916	#endif
917	StringAppend("random=%d\n",siRandomStart);
918
919	#define SI_SHOW_BUILTIN_MODULE(name) StringAppend(" %s", #name);
920	StringAppendS("built-in modules: {");
921	SI_FOREACH_BUILTIN(SI_SHOW_BUILTIN_MODULE)
922	StringAppendS("}\n");
923	#undef SI_SHOW_BUILTIN_MODULE
924
925	StringAppend("AC_CONFIGURE_ARGS = %s,\n"
926	"CC = %s,FLAGS : %s,\n"
927	"CXX = %s,FLAGS : %s,\n"
928	"DEFS : %s,CPPFLAGS : %s,\n"
929	"LDFLAGS : %s,LIBS : %s "
930	#ifdef __GNUC__
931	"(ver: " __VERSION__ ")"
932	#endif
933	"\n",AC_CONFIGURE_ARGS, CC,CFLAGS, CXX,CXXFLAGS, DEFS,CPPFLAGS, LDFLAGS,LIBS);
934	feStringAppendResources(0);
935	feStringAppendBrowsers(0);
936	StringAppendS("\n");
937	return StringEndS();
938	}
939
940	#ifdef PDEBUG
941	#if (OM_TRACK > 2) && defined(OM_TRACK_CUSTOM)
942	void p_SetRingOfLeftv(leftv l, ring r)
943	{
944	switch(l->rtyp)
945	{
946	case INT_CMD:
947	case BIGINT_CMD:
948	case IDHDL:
949	case DEF_CMD:
950	break;
951	case POLY_CMD:
952	case VECTOR_CMD:
953	{
954	poly p=(poly)l->data;
955	while(p!=NULL) { p_SetRingOfLm(p,r); pIter(p); }
956	break;
957	}
958	case IDEAL_CMD:
959	case MODUL_CMD:
960	case MATRIX_CMD:
961	{
962	ideal I=(ideal)l->data;
963	int i;
964	for(i=IDELEMS(I)-1;i>=0;i--)
965	{
966	poly p=I->m[i];
967	while(p!=NULL) { p_SetRingOfLm(p,r); pIter(p); }
968	}
969	break;
970	}
971	case COMMAND:
972	{
973	command d=(command)l->data;
974	p_SetRingOfLeftv(&d->arg1, r);
975	if (d->argc>1) p_SetRingOfLeftv(&d->arg2, r);
976	if (d->argc>2) p_SetRingOfLeftv(&d->arg3, r);
977	break;
978	}
979	default:
980	printf("type %d not yet implementd in p_SetRingOfLeftv\n",l->rtyp);
981	break;
982	}
983	}
984	#endif
985	#endif
986
987	#if 0 /* debug only */
988	void listall(int showproc)
989	{
990	idhdl hh=basePack->idroot;
991	PrintS("====== Top ==============\n");
992	while (hh!=NULL)
993	{
994	if (showproc \|\| (IDTYP(hh)!=PROC_CMD))
995	{
996	if (IDDATA(hh)==(void *)currRing) PrintS("(R)");
997	else if (IDDATA(hh)==(void *)currPack) PrintS("(P)");
998	else PrintS(" ");
999	Print("::%s, typ %s level %d data %lx",
1000	IDID(hh),Tok2Cmdname(IDTYP(hh)),IDLEV(hh),(long)IDDATA(hh));
1001	if (IDTYP(hh)==RING_CMD)
1002	Print(" ref: %d\n",IDRING(hh)->ref);
1003	else
1004	PrintLn();
1005	}
1006	hh=IDNEXT(hh);
1007	}
1008	hh=basePack->idroot;
1009	while (hh!=NULL)
1010	{
1011	if (IDDATA(hh)==(void *)basePack)
1012	Print("(T)::%s, typ %s level %d data %lx\n",
1013	IDID(hh),Tok2Cmdname(IDTYP(hh)),IDLEV(hh),(long)IDDATA(hh));
1014	else
1015	if ((IDTYP(hh)==RING_CMD)
1016	\|\| (IDTYP(hh)==PACKAGE_CMD))
1017	{
1018	Print("====== %s ==============\n",IDID(hh));
1019	idhdl h2=IDRING(hh)->idroot;
1020	while (h2!=NULL)
1021	{
1022	if (showproc \|\| (IDTYP(h2)!=PROC_CMD))
1023	{
1024	if ((IDDATA(h2)==(void *)currRing)
1025	&& (IDTYP(h2)==RING_CMD))
1026	PrintS("(R)");
1027	else if (IDDATA(h2)==(void *)currPack) PrintS("(P)");
1028	else PrintS(" ");
1029	Print("%s::%s, typ %s level %d data %lx\n",
1030	IDID(hh),IDID(h2),Tok2Cmdname(IDTYP(h2)),IDLEV(h2),(long)IDDATA(h2));
1031	}
1032	h2=IDNEXT(h2);
1033	}
1034	}
1035	hh=IDNEXT(hh);
1036	}
1037	Print("currRing:%lx, currPack:%lx,basePack:%lx\n",(long)currRing,(long)currPack,(long)basePack);
1038	iiCheckPack(currPack);
1039	}
1040	#endif
1041
1042	#ifndef SING_NDEBUG
1043	void checkall()
1044	{
1045	idhdl hh=basePack->idroot;
1046	while (hh!=NULL)
1047	{
1048	omCheckAddr(hh);
1049	omCheckAddr((ADDRESS)IDID(hh));
1050	if (RingDependend(IDTYP(hh)))
1051	{
1052	Print("%s typ %d in Top (should be in ring)\n",IDID(hh),IDTYP(hh));
1053	}
1054	hh=IDNEXT(hh);
1055	}
1056	hh=basePack->idroot;
1057	while (hh!=NULL)
1058	{
1059	if (IDTYP(hh)==PACKAGE_CMD)
1060	{
1061	idhdl h2=NULL;
1062	if (IDPACKAGE(hh)!=NULL)
1063	h2=IDPACKAGE(hh)->idroot;
1064	if (IDPACKAGE(hh)!=basePack)
1065	{
1066	while (h2!=NULL)
1067	{
1068	omCheckAddr(h2);
1069	omCheckAddr((ADDRESS)IDID(h2));
1070	if (RingDependend(IDTYP(h2)))
1071	{
1072	Print("%s typ %d in %s (should be in ring)\n",IDID(h2),IDTYP(h2),IDID(hh));
1073	}
1074	h2=IDNEXT(h2);
1075	}
1076	}
1077	}
1078	hh=IDNEXT(hh);
1079	}
1080	}
1081	#endif
1082
1083	extern "C"
1084	int singular_fstat(int fd, struct stat *buf)
1085	{
1086	return si_fstat(fd,buf);
1087	}
1088
1089	/*2
1090	* the global exit routine of Singular
1091	*/
1092	extern "C" {
1093	/* Note: We cannot use a mutex here because mutexes are not async-safe, but
1094	* m2_end is called by sig_term_hdl(). Anyway, the race condition in the first
1095	* few lines of m2_end() should not matter.
1096	*/
1097	volatile BOOLEAN m2_end_called = FALSE;
1098
1099	void m2_end(int i)
1100	{
1101	if (!m2_end_called)
1102	{
1103	extern FILE* File_Profiling;
1104	if (File_Profiling!=NULL) { fclose(File_Profiling); File_Profiling=NULL; }
1105	m2_end_called = TRUE;
1106	#ifdef HAVE_SIMPLEIPC
1107	for (int j = SIPC_MAX_SEMAPHORES-1; j >= 0; j--)
1108	{
1109	if (semaphore[j] != NULL)
1110	{
1111	while (sem_acquired[j] > 0)
1112	{
1113	#if PORTABLE_SEMAPHORES
1114	sem_post(semaphore[j]->sig);
1115	#else
1116	sem_post(semaphore[j]);
1117	#endif
1118	sem_acquired[j]--;
1119	}
1120	}
1121	}
1122	#endif // HAVE_SIMPLEIPC
1123	fe_reset_input_mode();
1124	monitor(NULL,0);
1125	#ifdef PAGE_TEST
1126	mmEndStat();
1127	#endif
1128	fe_reset_input_mode();
1129	if (ssiToBeClosed_inactive)
1130	{
1131	link_list hh=ssiToBeClosed;
1132	while(hh!=NULL)
1133	{
1134	//Print("close %s\n",hh->l->name);
1135	slPrepClose(hh->l);
1136	hh=(link_list)hh->next;
1137	}
1138	ssiToBeClosed_inactive=FALSE;
1139
1140	idhdl h = currPack->idroot;
1141	while(h != NULL)
1142	{
1143	if(IDTYP(h) == LINK_CMD)
1144	{
1145	idhdl hh=h->next;
1146	//Print("kill %s\n",IDID(h));
1147	killhdl(h, currPack);
1148	h = hh;
1149	}
1150	else
1151	{
1152	h = h->next;
1153	}
1154	}
1155	hh=ssiToBeClosed;
1156	while(hh!=NULL)
1157	{
1158	//Print("close %s\n",hh->l->name);
1159	slClose(hh->l);
1160	hh=ssiToBeClosed;
1161	}
1162	}
1163	if (!singular_in_batchmode)
1164	{
1165	if (i<=0)
1166	{
1167	//extern long all_farey;
1168	//extern long farey_cnt;
1169	//if (all_farey!=0L) printf("farey:%ld, cnt=%ld\n",all_farey,farey_cnt);
1170	if (TEST_V_QUIET)
1171	{
1172	if (i==0)
1173	printf("Auf Wiedersehen.\n");
1174	else
1175	printf("\n$Bye.\n");
1176	}
1177	//#ifdef sun
1178	// #ifndef __svr4__
1179	// _cleanup();
1180	// _exit(0);
1181	// #endif
1182	//#endif
1183	i=0;
1184	}
1185	else
1186	{
1187	printf("\nhalt %d\n",i);
1188	}
1189	}
1190	exit(i);
1191	}
1192	}
1193	}
1194
1195	extern "C"
1196	{
1197	void omSingOutOfMemoryFunc()
1198	{
1199	fprintf(stderr, "\nSingular error: no more memory\n");
1200	omPrintStats(stderr);
1201	m2_end(14);
1202	/* should never get here */
1203	exit(1);
1204	}
1205	}
1206
1207	#ifdef SINGULAR_4_2
1208	static n_coeffType n_pAE=n_unknown;
1209	static BOOLEAN ii_pAE_init(leftv res,leftv a)
1210	{
1211	if (a->Typ()!=INT_CMD)
1212	{
1213	WerrorS("`int` expected");
1214	return TRUE;
1215	}
1216	else
1217	{
1218	res->rtyp=CRING_CMD;
1219	res->data=(void)nInitChar(n_pAE,(void)a->Data());
1220	return FALSE;
1221	}
1222	}
1223	#endif
1224	#ifdef HAVE_FLINT
1225	static n_coeffType n_FlintZn=n_unknown;
1226	static BOOLEAN ii_FlintZn_init(leftv res,leftv a)
1227	{
1228	if ((a->Typ()!=INT_CMD)
1229	\|\|(a->next==NULL)
1230	\|\|(a->next->Typ()!=STRING_CMD))
1231	{
1232	WerrorS("`int`i,`string` expected");
1233	return TRUE;
1234	}
1235	else
1236	{
1237	flintZn_struct p;
1238	p.ch=(int)(long)a->Data();
1239	p.name=(char*)a->next->Data();
1240	res->rtyp=CRING_CMD;
1241	res->data=(void)nInitChar(n_FlintZn,(void)&p);
1242	return FALSE;
1243	}
1244	}
1245	#endif
1246
1247	static BOOLEAN iiFloat(leftv res, leftv pnn)
1248	{
1249	short float_len=3;
1250	short float_len2=SHORT_REAL_LENGTH;
1251	coeffs cf=NULL;
1252	if ((pnn!=NULL) && (pnn->Typ()==INT_CMD))
1253	{
1254	float_len=(int)(long)pnn->Data();
1255	float_len2=float_len;
1256	pnn=pnn->next;
1257	if ((pnn!=NULL) && (pnn->Typ()==INT_CMD))
1258	{
1259	float_len2=(int)(long)pnn->Data();
1260	pnn=pnn->next;
1261	}
1262	}
1263	if (float_len2 <= (short)SHORT_REAL_LENGTH)
1264	cf=nInitChar(n_R, NULL);
1265	else // longR or longC?
1266	{
1267	LongComplexInfo param;
1268	param.float_len = si_min (float_len, 32767);
1269	param.float_len2 = si_min (float_len2, 32767);
1270	cf = nInitChar(n_long_R, (void*)&param);
1271	}
1272	res->rtyp=CRING_CMD;
1273	res->data=cf;
1274	return cf==NULL;
1275	}
1276	static BOOLEAN iiCrossProd(leftv res, leftv args)
1277	{
1278	leftv h=args;
1279	coeffs *c=NULL;
1280	coeffs cf=NULL;
1281	int i=0;
1282	if (h==NULL) goto crossprod_error;
1283	while (h!=NULL)
1284	{
1285	if (h->Typ()!=CRING_CMD) goto crossprod_error;
1286	i++;
1287	h=h->next;
1288	}
1289	c=(coeffs)omAlloc0((i+1)sizeof(coeffs));
1290	h=args;
1291	i=0;
1292	while (h!=NULL)
1293	{
1294	c[i]=(coeffs)h->CopyD();
1295	i++;
1296	h=h->next;
1297	}
1298	cf=nInitChar(n_nTupel,c);
1299	res->data=cf;
1300	res->rtyp=CRING_CMD;
1301	return FALSE;
1302
1303	crossprod_error:
1304	WerrorS("expected `crossprod(coeffs, ...)`");
1305	return TRUE;
1306	}
1307	/*2
1308	* initialize components of Singular
1309	*/
1310	void siInit(char *name)
1311	{
1312	// factory default settings: -----------------------------------------------
1313	On(SW_USE_EZGCD);
1314	On(SW_USE_CHINREM_GCD);
1315	//On(SW_USE_FF_MOD_GCD);
1316	On(SW_USE_EZGCD_P);
1317	On(SW_USE_QGCD);
1318	Off(SW_USE_NTL_SORT); // may be changed by an command line option
1319	factoryError=WerrorS;
1320
1321	// NTL error handling (>= 9.3.0)
1322	#ifdef HAVE_NTL
1323	#if (((NTL_MAJOR_VERSION==9)&&(NTL_MINOR_VERSION>=3))\|\|(NTL_MAJOR_VERSION>=10))
1324	ErrorMsgCallback=WerrorS;
1325	ErrorCallback=HALT;
1326	#endif
1327	#endif
1328
1329	// memory initialization: -----------------------------------------------
1330	om_Opts.OutOfMemoryFunc = omSingOutOfMemoryFunc;
1331	#ifndef OM_NDEBUG
1332	#ifndef __OPTIMIZE__
1333	om_Opts.ErrorHook = dErrorBreak;
1334	#else
1335	om_Opts.Keep = 0; /* !OM_NDEBUG, __OPTIMIZE__*/
1336	#endif
1337	#else
1338	om_Opts.Keep = 0; /* OM_NDEBUG */
1339	#endif
1340	omInitInfo();
1341
1342	// options ---------------------------------------------------------------
1343	si_opt_1=0;
1344	// interpreter tables etc.: -----------------------------------------------
1345	memset(&sLastPrinted,0,sizeof(sleftv));
1346	sLastPrinted.rtyp=NONE;
1347
1348	extern int iiInitArithmetic(); iiInitArithmetic(); // iparith.cc
1349
1350	basePack=(package)omAlloc0(sizeof(*basePack));
1351	currPack=basePack;
1352	idhdl h;
1353	h=enterid("Top", 0, PACKAGE_CMD, &IDROOT, FALSE);
1354	IDPACKAGE(h)=basePack;
1355	IDPACKAGE(h)->language = LANG_TOP;
1356	currPackHdl=h;
1357	basePackHdl=h;
1358
1359	coeffs_BIGINT = nInitChar(n_Q,(void*)1);
1360
1361	#if 1
1362	// def HAVE_POLYEXTENSIONS
1363	if(TRUE)
1364	{
1365	n_coeffType type;
1366	#ifdef SINGULAR_4_2
1367	type = nRegister(n_polyExt, n2pInitChar);
1368	assume(type == n_polyExt);
1369	#endif
1370
1371	type = nRegister(n_algExt, naInitChar);
1372	assume(type == n_algExt);
1373
1374	type = nRegister(n_transExt, ntInitChar);
1375	assume(type == n_transExt);
1376
1377	(void)type;
1378	}
1379	#endif
1380
1381	// random generator: -----------------------------------------------
1382	int t=initTimer();
1383	if (t==0) t=1;
1384	initRTimer();
1385	siSeed=t;
1386	factoryseed(t);
1387	siRandomStart=t;
1388	feOptSpec[FE_OPT_RANDOM].value = (void*) ((long)siRandomStart);
1389
1390	// ressource table: ----------------------------------------------------
1391	// Don't worry: ifdef OM_NDEBUG, then all these calls are undef'ed
1392	// hack such that all shared' libs in the bindir are loaded correctly
1393	feInitResources(name);
1394
1395	// singular links: --------------------------------------------------
1396	slStandardInit();
1397	myynest=0;
1398	// how many processes ? -----------------------------------------------------
1399	int cpus=2;
1400	int cpu_n;
1401	#ifdef _SC_NPROCESSORS_ONLN
1402	if ((cpu_n=sysconf(_SC_NPROCESSORS_ONLN))>cpus) cpus=cpu_n;
1403	#elif defined(_SC_NPROCESSORS_CONF)
1404	if ((cpu_n=sysconf(_SC_NPROCESSORS_CONF))>cpus) cpus=cpu_n;
1405	#endif
1406	feSetOptValue(FE_OPT_CPUS, cpus);
1407	// how many threads ? -----------------------------------------------------
1408	feSetOptValue(FE_OPT_THREADS, cpus);
1409
1410	// default coeffs
1411	{
1412	idhdl h;
1413	h=enterid("QQ",0/level/, CRING_CMD,&(basePack->idroot),FALSE /init/,FALSE /search/);
1414	IDDATA(h)=(char*)nInitChar(n_Q,NULL);
1415	h=enterid("ZZ",0/level/, CRING_CMD,&(basePack->idroot),FALSE /init/,FALSE /search/);
1416	IDDATA(h)=(char*)nInitChar(n_Z,NULL);
1417	iiAddCproc("kernel","crossprod",FALSE,iiCrossProd);
1418	iiAddCproc("kernel","Float",FALSE,iiFloat);
1419	//h=enterid("RR",0/level/, CRING_CMD,&(basePack->idroot),FALSE /init/,FALSE /search/);
1420	//IDDATA(h)=(char*)nInitChar(n_R,NULL);
1421	//h=enterid("CC",0/level/, CRING_CMD,&(basePack->idroot),FALSE /init/,FALSE /search/);
1422	//IDDATA(h)=(char*)nInitChar(n_long_C,NULL);
1423	n_coeffType t;
1424	#ifdef SINGULAR_4_2
1425	t=nRegister(n_unknown,n_AEInitChar);
1426	if (t!=n_unknown)
1427	{
1428	h=enterid("AE",0/level/, CRING_CMD,&(basePack->idroot),FALSE /init/,FALSE /search/);
1429	IDDATA(h)=(char*)nInitChar(t,NULL);
1430	}
1431	t=nRegister(n_unknown,n_QAEInitChar);
1432	if (t!=n_unknown)
1433	{
1434	h=enterid("QAE",0/level/, CRING_CMD,&(basePack->idroot),FALSE /init/,FALSE /search/);
1435	IDDATA(h)=(char*)nInitChar(t,NULL);
1436	}
1437	n_pAE=nRegister(n_unknown,n_pAEInitChar);
1438	if (n_pAE!=n_unknown)
1439	{
1440	iiAddCproc("kernel","pAE",FALSE,ii_pAE_init);
1441	}
1442	#endif
1443	#ifdef HAVE_FLINT
1444	t=nRegister(n_unknown,flintQ_InitChar);
1445	if (t!=n_unknown)
1446	{
1447	h=enterid("flint_poly_Q",0/level/, CRING_CMD,&(basePack->idroot),FALSE /init/,FALSE /search/);
1448	IDDATA(h)=(char*)nInitChar(t,NULL);
1449	}
1450	n_FlintZn=nRegister(n_unknown,flintZn_InitChar);
1451	if (n_FlintZn!=n_unknown)
1452	{
1453	iiAddCproc("kernel","flintZ",FALSE,ii_FlintZn_init);
1454	}
1455	#endif
1456	}
1457	// setting routines for PLURAL QRINGS:
1458	// allowing to use libpolys without libSingular(kStd)
1459	#ifdef HAVE_PLURAL
1460	nc_NF=k_NF;
1461	gnc_gr_bba=k_gnc_gr_bba;
1462	gnc_gr_mora=k_gnc_gr_mora;
1463	sca_bba=k_sca_bba;
1464	sca_mora=k_sca_mora;
1465	sca_gr_bba=k_sca_gr_bba;
1466	#endif
1467	// loading standard.lib -----------------------------------------------
1468	if (! feOptValue(FE_OPT_NO_STDLIB))
1469	{
1470	BITSET save1,save2;
1471	SI_SAVE_OPT(save1,save2);
1472	si_opt_2 &= ~Sy_bit(V_LOAD_LIB);
1473	iiLibCmd(omStrDup("standard.lib"), TRUE,TRUE,TRUE);
1474	SI_RESTORE_OPT(save1,save2);
1475	}
1476	errorreported = 0;
1477	}

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