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source: git/Singular/ipconv.cc @ 3f4454b

spielwiese

Last change on this file since 3f4454b was 3f4454b, checked in by Hans Schoenemann <hannes@…>, 14 years ago
tr 254, option(warn) git-svn-id: file:///usr/local/Singular/svn/trunk@13131 2c84dea3-7e68-4137-9b89-c4e89433aadc
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1	/****************************************
2	* Computer Algebra System SINGULAR *
3	****************************************/
4	/* $Id$ */
5	/*
6	* ABSTRACT: automatic type conversions
7	*/
8
9	#include <Singular/mod2.h>
10	#include <Singular/tok.h>
11	#include <Singular/ipid.h>
12	#include <kernel/intvec.h>
13	#include <kernel/options.h>
14	#include <omalloc.h>
15	#include <kernel/febase.h>
16	#include <kernel/polys.h>
17	#include <kernel/ideals.h>
18	#include <Singular/subexpr.h>
19	#include <kernel/numbers.h>
20	#include <kernel/modulop.h>
21	#include <kernel/longrat.h>
22	#include <kernel/longalg.h>
23	#ifdef HAVE_RINGS
24	#include <kernel/rmodulon.h>
25	#include <kernel/rmodulo2m.h>
26	#include <kernel/rintegers.h>
27	#endif
28	#include <kernel/matpol.h>
29	#include <Singular/silink.h>
30	#include <kernel/syz.h>
31	#include <Singular/attrib.h>
32	#include <kernel/ring.h>
33	#include <Singular/ipshell.h>
34	#include <Singular/ipconv.h>
35
36	typedef void * (iiConvertProc)(void data);
37	typedef void (*iiConvertProcL)(leftv out,leftv in);
38	struct sConvertTypes
39	{
40	int i_typ;
41	int o_typ;
42	iiConvertProc p;
43	iiConvertProcL pl;
44	};
45
46	// all of these static conversion routines work destructive on their input
47
48	static void * iiI2P(void *data)
49	{
50	poly p=pISet((int)(long)data);
51	return (void *)p;
52	}
53
54	static void * iiBI2P(void *data)
55	{
56	number n=nInit_bigint((number)data);
57	nlDelete((number *)&data,NULL);
58	poly p=pNSet(n);
59	return (void *)p;
60	}
61
62	static void * iiI2V(void *data)
63	{
64	poly p=pISet((int)(long)data);
65	if (p!=NULL) pSetComp(p,1);
66	return (void *)p;
67	}
68
69	static void * iiBI2V(void *data)
70	{
71	number n=nInit_bigint((number)data);
72	nlDelete((number *)&data,NULL);
73	poly p=pNSet(n);
74	if (p!=NULL) pSetComp(p,1);
75	return (void *)p;
76	}
77
78	static void * iiI2Id(void *data)
79	{
80	ideal I=idInit(1,1);
81	I->m[0]=pISet((int)(long)data);
82	return (void *)I;
83	}
84
85	static void * iiBI2Id(void *data)
86	{
87	ideal I=idInit(1,1);
88	number n=nInit_bigint((number)data);
89	nlDelete((number *)&data,NULL);
90	poly p=pNSet(n);
91	I->m[0]=p;
92	return (void *)I;
93	}
94	static void * iiP2V(void *data)
95	{
96	poly p=(poly)data;
97	if (p!=NULL) pSetCompP(p,1);
98	return (void *)p;
99	}
100
101	static void * iiP2Id(void *data)
102	{
103	ideal I=idInit(1,1);
104
105	I->m[0]=(poly)data;
106	if (data!=NULL)
107	{
108	poly p=(poly)data;
109	if (pGetComp(p)!=0) I->rank=pMaxComp(p);
110	}
111	return (void *)I;
112	}
113
114	static void * iiV2Ma(void *data)
115	{
116	matrix m=(matrix)idVec2Ideal((poly)data);
117	int h=MATCOLS(m);
118	MATCOLS(m)=MATROWS(m);
119	MATROWS(m)=h;
120	m->rank=h;
121	pDelete((poly *)&data);
122	return (void *)m;
123	}
124
125	static void * iiN2P(void *data);
126
127	static void * iiDummy(void *data)
128	{
129	return data;
130	}
131
132	static void * iiMo2Ma(void *data)
133	{
134	void *res=idModule2Matrix((ideal)data);
135	return res;
136	}
137
138	static void * iiMa2Mo(void *data)
139	{
140	void *res=idMatrix2Module((matrix)data);
141	return res;
142	}
143
144	static void * iiI2Iv(void *data)
145	{
146	int s=(int)(long)data;
147	intvec *iv=new intvec(s,s);
148	return (void *)iv;
149	}
150
151	static void * iiI2N(void *data)
152	{
153	number n=nInit((int)(long)data);
154	return (void *)n;
155	}
156
157	static void * iiI2BI(void *data)
158	{
159	number n=nlInit((int)(long)data, NULL /dummy for nlInit/);
160	return (void *)n;
161	}
162
163	static void * iiBI2N(void *data)
164	{
165	if (currRing==NULL) return NULL;
166	// a bigint is really a number from char 0, with diffrent operations...
167	return (void*)nInit_bigint((number)data);
168	}
169
170	static void * iiIm2Ma(void *data)
171	{
172	int i, j;
173	intvec iv = (intvec )data;
174	matrix m = mpNew(iv->rows(), iv->cols());
175
176	for (i=iv->rows(); i>0; i--)
177	{
178	for (j=iv->cols(); j>0; j--)
179	{
180	MATELEM(m, i, j) = pISet(IMATELEM(*iv, i, j));
181	}
182	}
183	delete iv;
184	return (void *)m;
185	}
186
187	static void * iiN2P(void *data)
188	{
189	poly p=NULL;
190	if (!nIsZero((number)data))
191	{
192	p=pNSet((number)data);
193	}
194	//else
195	//{
196	// nDelete((number *)&data);
197	//}
198	return (void *)p;
199	}
200
201	static void * iiN2Ma(void *data)
202	{
203	ideal I=idInit(1,1);
204	if (!nIsZero((number)data))
205	{
206	poly p=pNSet((number)data);
207	I->m[0]=p;
208	}
209	//else
210	//{
211	// nDelete((number *)&data);
212	//}
213	return (void *)I;
214	}
215
216	static void * iiS2Link(void *data)
217	{
218	si_link l=(si_link)omAlloc0Bin(ip_link_bin);
219	slInit(l, (char *) data);
220	omFree((ADDRESS)data);
221	return (void *)l;
222	}
223
224	/*
225	static void * iiR2L(void * data)
226	{
227	syStrategy tmp=(syStrategy)data;
228	return (void *)syConvRes(tmp,TRUE);
229	}
230	*/
231	static void iiR2L_l(leftv out, leftv in)
232	{
233	int add_row_shift = 0;
234	intvec weights=(intvec)atGet(in,"isHomog",INTVEC_CMD);
235	if (weights!=NULL) add_row_shift=weights->min_in();
236
237	syStrategy tmp=(syStrategy)in->CopyD();
238	out->data=(void *)syConvRes(tmp,TRUE,add_row_shift);
239	}
240
241	static void * iiL2R(void * data)
242	{
243	return (void *)syConvList((lists)data,TRUE);
244	}
245
246	//
247	// automatic conversions:
248	//
249	struct sConvertTypes dConvertTypes[] =
250	{
251	// input type output type convert procedure
252	// int -> bigint
253	{ INT_CMD, BIGINT_CMD, iiI2BI , NULL },
254	// int -> number
255	{ INT_CMD, NUMBER_CMD, iiI2N , NULL },
256	{ BIGINT_CMD, NUMBER_CMD, iiBI2N , NULL },
257	// int -> poly
258	{ INT_CMD, POLY_CMD, iiI2P , NULL },
259	{ BIGINT_CMD, POLY_CMD, iiBI2P , NULL },
260	// int -> vector
261	{ INT_CMD, VECTOR_CMD, iiI2V , NULL },
262	{ BIGINT_CMD, VECTOR_CMD, iiBI2V , NULL },
263	// int -> ideal
264	{ INT_CMD, IDEAL_CMD, iiI2Id , NULL },
265	{ BIGINT_CMD, IDEAL_CMD, iiBI2Id , NULL },
266	// int -> matrix
267	{ INT_CMD, MATRIX_CMD, iiI2Id , NULL },
268	{ BIGINT_CMD, MATRIX_CMD, iiBI2Id , NULL },
269	// int -> intvec
270	{ INT_CMD, INTVEC_CMD, iiI2Iv , NULL },
271	// intvec -> intmat
272	{ INTVEC_CMD, INTMAT_CMD, iiDummy, NULL },
273	// intvec -> matrix
274	{ INTVEC_CMD, MATRIX_CMD, iiIm2Ma , NULL },
275	// intmat -> matrix
276	{ INTMAT_CMD, MATRIX_CMD, iiIm2Ma , NULL },
277	// number -> poly
278	{ NUMBER_CMD, POLY_CMD, iiN2P , NULL },
279	// number -> matrix
280	{ NUMBER_CMD, MATRIX_CMD, iiN2Ma , NULL },
281	// number -> ideal
282	// number -> vector
283	// number -> module
284	// poly -> number
285	// poly -> ideal
286	{ POLY_CMD, IDEAL_CMD, iiP2Id , NULL },
287	// poly -> vector
288	{ POLY_CMD, VECTOR_CMD, iiP2V , NULL },
289	// poly -> matrix
290	{ POLY_CMD, MATRIX_CMD, iiP2Id , NULL },
291	// vector -> module
292	{ VECTOR_CMD, MODUL_CMD, iiP2Id , NULL },
293	// vector -> matrix
294	{ VECTOR_CMD, MATRIX_CMD, iiV2Ma , NULL },
295	// ideal -> module
296	{ IDEAL_CMD, MODUL_CMD, iiMa2Mo , NULL },
297	// ideal -> matrix
298	{ IDEAL_CMD, MATRIX_CMD, iiDummy , NULL },
299	// module -> matrix
300	{ MODUL_CMD, MATRIX_CMD, iiMo2Ma , NULL },
301	// matrix -> ideal
302	// matrix -> module
303	{ MATRIX_CMD, MODUL_CMD, iiMa2Mo , NULL },
304	// intvec
305	// link
306	{ STRING_CMD, LINK_CMD, iiS2Link , NULL },
307	// resolution -> list
308	{ RESOLUTION_CMD, LIST_CMD, NULL /iiR2L/ , iiR2L_l },
309	// list -> resolution
310	{ LIST_CMD, RESOLUTION_CMD, iiL2R , NULL },
311	// end of list
312	{ 0, 0, NULL , NULL }
313	};
314
315	/*2
316	* try to convert 'input' of type 'inputType' to 'output' of type 'outputType'
317	* return FALSE on success
318	*/
319	BOOLEAN iiConvert (int inputType, int outputType, int index, leftv input, leftv output)
320	{
321	memset(output,0,sizeof(sleftv));
322	if ((inputType==outputType)
323	\|\| (outputType==DEF_CMD)
324	\|\| ((outputType==IDHDL)&&(input->rtyp==IDHDL)))
325	{
326	memcpy(output,input,sizeof(*output));
327	memset(input,0,sizeof(*input));
328	return FALSE;
329	}
330	else if (outputType==ANY_TYPE)
331	{
332	output->rtyp=ANY_TYPE;
333	output->data=(char *)input->Typ();
334	/* the name of the object:*/
335	if (input->e==NULL)
336	{
337	if (input->rtyp==IDHDL)
338	/* preserve name: copy it */
339	output->name=omStrDup(IDID((idhdl)(input->data)));
340	else if (input->name!=NULL)
341	{
342	output->name=input->name;
343	input->name=NULL;
344	}
345	else if ((input->rtyp==POLY_CMD) && (input->name==NULL))
346	{
347	if (input->data!=NULL)
348	{
349	int nr=pIsPurePower((poly)input->data);
350	if (nr!=0)
351	{
352	if (pGetExp((poly)input->data,nr)==1)
353	{
354	output->name=omStrDup(currRing->names[nr-1]);
355	}
356	else
357	{
358	char tmp=(char )omAlloc(4);
359	sprintf(tmp,"%c%d",*(currRing->names[nr-1]),
360	(int)pGetExp((poly)input->data,nr));
361	output->name=tmp;
362	}
363	}
364	else if(pIsConstant((poly)input->data))
365	{
366	output->name=nName(pGetCoeff((poly)input->data));
367	}
368	#ifdef TEST
369	else
370	{
371	WerrorS("wrong name, should not happen");
372	output->name=omStrDup("?");
373	}
374	#endif
375	}
376	}
377	else if ((input->rtyp==NUMBER_CMD) && (input->name==NULL))
378	{
379	output->name=nName((number)input->data);
380	}
381	else
382	{
383	/* no need to preserve name: use it */
384	output->name=input->name;
385	memset(input,0,sizeof(*input));
386	}
387	}
388	output->next=input->next;
389	input->next=NULL;
390	return FALSE;
391	}
392	if (index!=0) /* iiTestConvert does not returned 'failure' */
393	{
394	index--;
395
396	if((dConvertTypes[index].i_typ==inputType)
397	&&(dConvertTypes[index].o_typ==outputType))
398	{
399	if(TEST_V_ALLWARN)
400	{
401	Print("automatic conversion %s -> %s\n",
402	Tok2Cmdname(inputType),Tok2Cmdname(outputType));
403	}
404	if ((currRing==NULL) && (outputType>BEGIN_RING) && (outputType<END_RING))
405	return TRUE;
406	output->rtyp=outputType;
407	if (dConvertTypes[index].p!=NULL)
408	{
409	output->data=dConvertTypes[index].p(input->CopyD());
410	}
411	else
412	{
413	dConvertTypes[index].pl(output,input);
414	}
415	if ((output->data==NULL)
416	&& ((outputType!=INT_CMD)
417	&&(outputType!=POLY_CMD)
418	&&(outputType!=VECTOR_CMD)
419	&&(outputType!=NUMBER_CMD)))
420	{
421	return TRUE;
422	}
423	output->next=input->next;
424	input->next=NULL;
425	//if (outputType==MATRIX_CMD) Print("convert %d -> matrix\n",inputType);
426	return FALSE;
427	}
428	}
429	return TRUE;
430	}
431
432	/*2
433	* try to convert 'inputType' in 'outputType'
434	* return 0 on failure, an index (<>0) on success
435	*/
436	int iiTestConvert (int inputType, int outputType)
437	{
438	if ((inputType==outputType)
439	\|\| (outputType==DEF_CMD)
440	\|\| (outputType==IDHDL)
441	\|\| (outputType==ANY_TYPE))
442	{
443	return -1;
444	}
445
446	if ((currRing==NULL) && (outputType>BEGIN_RING) && (outputType<END_RING))
447	return 0;
448
449	// search the list
450	int i=0;
451	while (dConvertTypes[i].i_typ!=0)
452	{
453	if((dConvertTypes[i].i_typ==inputType)
454	&&(dConvertTypes[i].o_typ==outputType))
455	{
456	//Print("test convert %d to %d (%s -> %s):%d\n",inputType,outputType,
457	//Tok2Cmdname(inputType), Tok2Cmdname(outputType),i+1);
458	return i+1;
459	}
460	i++;
461	}
462	//Print("test convert %d to %d (%s -> %s):0\n",inputType,outputType,
463	// Tok2Cmdname(inputType), Tok2Cmdname(outputType));
464	return 0;
465	}

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