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source: git/factory/facFqBivar.h @ 3c702a

spielwiese

Last change on this file since 3c702a was 3c702a, checked in by Oleksandr Motsak <motsak@…>, 11 years ago
Public headers should not include private config.h
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1	/*****************************************************************************\
2	* Computer Algebra System SINGULAR
3	\*****************************************************************************/
4	/** @file facFqBivar.h
5	*
6	* This file provides functions for factorizing a bivariate polynomial over
7	* \f$ F_{p} \f$ , \f$ F_{p}(\alpha ) \f$ or GF.
8	*
9	* @author Martin Lee
10	*
11	**/
12	/*****************************************************************************/
13
14	#ifndef FAC_FQ_BIVAR_H
15	#define FAC_FQ_BIVAR_H
16
17	// #include "config.h"
18
19	#include "timing.h"
20	#include "cf_assert.h"
21
22	#include "facFqBivarUtil.h"
23	#include "DegreePattern.h"
24	#include "ExtensionInfo.h"
25	#include "cf_util.h"
26	#include "facFqSquarefree.h"
27	#include "cf_map.h"
28	#include "cfNewtonPolygon.h"
29
30	TIMING_DEFINE_PRINT(fac_fq_bi_sqrf)
31	TIMING_DEFINE_PRINT(fac_fq_bi_factor_sqrf)
32
33	static const double log2exp= 1.442695041;
34
35	#ifdef HAVE_NTL
36	/// Factorization of a squarefree bivariate polynomials over an arbitrary finite
37	/// field, information on the current field we work over is in @a info. @a info
38	/// may also contain information about the initial field if initial and current
39	/// field do not coincide. In this case the current field is an extension of the
40	/// initial field and the factors returned are factors of F over the initial
41	/// field.
42	///
43	/// @return @a biFactorize returns a list of factors of F. If F is not monic
44	/// its leading coefficient is not outputted.
45	/// @sa extBifactorize()
46	CFList
47	biFactorize (const CanonicalForm& F, ///< [in] a bivariate poly
48	const ExtensionInfo& info ///< [in] information about extension
49	);
50
51	/// factorize a squarefree bivariate polynomial over \f$ F_{p} \f$.
52	///
53	/// @return @a FpBiSqrfFactorize returns a list of monic factors, the first
54	/// element is the leading coefficient.
55	/// @sa FqBiSqrfFactorize(), GFBiSqrfFactorize()
56	inline
57	CFList FpBiSqrfFactorize (const CanonicalForm & G ///< [in] a bivariate poly
58	)
59	{
60	ExtensionInfo info= ExtensionInfo (false);
61	CFMap N;
62	CanonicalForm F= compress (G, N);
63	CanonicalForm contentX= content (F, 1);
64	CanonicalForm contentY= content (F, 2);
65	F /= (contentX*contentY);
66	CFFList contentXFactors, contentYFactors;
67	contentXFactors= factorize (contentX);
68	contentYFactors= factorize (contentY);
69	if (contentXFactors.getFirst().factor().inCoeffDomain())
70	contentXFactors.removeFirst();
71	if (contentYFactors.getFirst().factor().inCoeffDomain())
72	contentYFactors.removeFirst();
73	if (F.inCoeffDomain())
74	{
75	CFList result;
76	for (CFFListIterator i= contentXFactors; i.hasItem(); i++)
77	result.append (N (i.getItem().factor()));
78	for (CFFListIterator i= contentYFactors; i.hasItem(); i++)
79	result.append (N (i.getItem().factor()));
80	normalize (result);
81	result.insert (Lc (G));
82	return result;
83	}
84	mat_ZZ M;
85	vec_ZZ S;
86	F= compress (F, M, S);
87	CFList result= biFactorize (F, info);
88	for (CFListIterator i= result; i.hasItem(); i++)
89	i.getItem()= N (decompress (i.getItem(), M, S));
90	for (CFFListIterator i= contentXFactors; i.hasItem(); i++)
91	result.append (N(i.getItem().factor()));
92	for (CFFListIterator i= contentYFactors; i.hasItem(); i++)
93	result.append (N (i.getItem().factor()));
94	normalize (result);
95	result.insert (Lc(G));
96	return result;
97	}
98
99	/// factorize a squarefree bivariate polynomial over \f$ F_{p}(\alpha ) \f$.
100	///
101	/// @return @a FqBiSqrfFactorize returns a list of monic factors, the first
102	/// element is the leading coefficient.
103	/// @sa FpBiSqrfFactorize(), GFBiSqrfFactorize()
104	inline
105	CFList FqBiSqrfFactorize (const CanonicalForm & G, ///< [in] a bivariate poly
106	const Variable& alpha ///< [in] algebraic variable
107	)
108	{
109	ExtensionInfo info= ExtensionInfo (alpha, false);
110	CFMap N;
111	CanonicalForm F= compress (G, N);
112	CanonicalForm contentX= content (F, 1);
113	CanonicalForm contentY= content (F, 2);
114	F /= (contentX*contentY);
115	CFFList contentXFactors, contentYFactors;
116	contentXFactors= factorize (contentX, alpha);
117	contentYFactors= factorize (contentY, alpha);
118	if (contentXFactors.getFirst().factor().inCoeffDomain())
119	contentXFactors.removeFirst();
120	if (contentYFactors.getFirst().factor().inCoeffDomain())
121	contentYFactors.removeFirst();
122	if (F.inCoeffDomain())
123	{
124	CFList result;
125	for (CFFListIterator i= contentXFactors; i.hasItem(); i++)
126	result.append (N (i.getItem().factor()));
127	for (CFFListIterator i= contentYFactors; i.hasItem(); i++)
128	result.append (N (i.getItem().factor()));
129	normalize (result);
130	result.insert (Lc (G));
131	return result;
132	}
133	mat_ZZ M;
134	vec_ZZ S;
135	F= compress (F, M, S);
136	CFList result= biFactorize (F, info);
137	for (CFListIterator i= result; i.hasItem(); i++)
138	i.getItem()= N (decompress (i.getItem(), M, S));
139	for (CFFListIterator i= contentXFactors; i.hasItem(); i++)
140	result.append (N(i.getItem().factor()));
141	for (CFFListIterator i= contentYFactors; i.hasItem(); i++)
142	result.append (N (i.getItem().factor()));
143	normalize (result);
144	result.insert (Lc(G));
145	return result;
146	}
147
148	/// factorize a squarefree bivariate polynomial over GF
149	///
150	/// @return @a GFBiSqrfFactorize returns a list of monic factors, the first
151	/// element is the leading coefficient.
152	/// @sa FpBiSqrfFactorize(), FqBiSqrfFactorize()
153	inline
154	CFList GFBiSqrfFactorize (const CanonicalForm & G ///< [in] a bivariate poly
155	)
156	{
157	ASSERT (CFFactory::gettype() == GaloisFieldDomain,
158	"GF as base field expected");
159	ExtensionInfo info= ExtensionInfo (getGFDegree(), gf_name, false);
160	CFMap N;
161	CanonicalForm F= compress (G, N);
162	CanonicalForm contentX= content (F, 1);
163	CanonicalForm contentY= content (F, 2);
164	F /= (contentX*contentY);
165	CFList contentXFactors, contentYFactors;
166	contentXFactors= biFactorize (contentX, info);
167	contentYFactors= biFactorize (contentY, info);
168	if (contentXFactors.getFirst().inCoeffDomain())
169	contentXFactors.removeFirst();
170	if (contentYFactors.getFirst().inCoeffDomain())
171	contentYFactors.removeFirst();
172	if (F.inCoeffDomain())
173	{
174	CFList result;
175	for (CFListIterator i= contentXFactors; i.hasItem(); i++)
176	result.append (N (i.getItem()));
177	for (CFListIterator i= contentYFactors; i.hasItem(); i++)
178	result.append (N (i.getItem()));
179	normalize (result);
180	result.insert (Lc (G));
181	return result;
182	}
183	mat_ZZ M;
184	vec_ZZ S;
185	F= compress (F, M, S);
186	CFList result= biFactorize (F, info);
187	for (CFListIterator i= result; i.hasItem(); i++)
188	i.getItem()= N (decompress (i.getItem(), M, S));
189	for (CFListIterator i= contentXFactors; i.hasItem(); i++)
190	result.append (N(i.getItem()));
191	for (CFListIterator i= contentYFactors; i.hasItem(); i++)
192	result.append (N (i.getItem()));
193	normalize (result);
194	result.insert (Lc(G));
195	return result;
196	}
197
198	/// factorize a bivariate polynomial over \f$ F_{p} \f$
199	///
200	/// @return @a FpBiFactorize returns a list of monic factors with
201	/// multiplicity, the first element is the leading coefficient.
202	/// @sa FqBiFactorize(), GFBiFactorize()
203	inline
204	CFFList
205	FpBiFactorize (const CanonicalForm & G, ///< [in] a bivariate poly
206	bool substCheck= true ///< [in] enables substitute check
207	)
208	{
209	ExtensionInfo info= ExtensionInfo (false);
210	CFMap N;
211	CanonicalForm F= compress (G, N);
212
213	if (substCheck)
214	{
215	bool foundOne= false;
216	int * substDegree= new int [F.level()];
217	for (int i= 1; i <= F.level(); i++)
218	{
219	substDegree[i-1]= substituteCheck (F, Variable (i));
220	if (substDegree [i-1] > 1)
221	{
222	foundOne= true;
223	subst (F, F, substDegree[i-1], Variable (i));
224	}
225	}
226	if (foundOne)
227	{
228	CFFList result= FpBiFactorize (F, false);
229	CFFList newResult, tmp;
230	CanonicalForm tmp2;
231	newResult.insert (result.getFirst());
232	result.removeFirst();
233	for (CFFListIterator i= result; i.hasItem(); i++)
234	{
235	tmp2= i.getItem().factor();
236	for (int j= 1; j <= F.level(); j++)
237	{
238	if (substDegree[j-1] > 1)
239	tmp2= reverseSubst (tmp2, substDegree[j-1], Variable (j));
240	}
241	tmp= FpBiFactorize (tmp2, false);
242	tmp.removeFirst();
243	for (CFFListIterator j= tmp; j.hasItem(); j++)
244	newResult.append (CFFactor (j.getItem().factor(),
245	j.getItem().exp()*i.getItem().exp()));
246	}
247	decompress (newResult, N);
248	delete [] substDegree;
249	return newResult;
250	}
251	delete [] substDegree;
252	}
253
254	CanonicalForm LcF= Lc (F);
255	CanonicalForm contentX= content (F, 1);
256	CanonicalForm contentY= content (F, 2);
257	F /= (contentX*contentY);
258	CFFList contentXFactors, contentYFactors;
259	contentXFactors= factorize (contentX);
260	contentYFactors= factorize (contentY);
261	if (contentXFactors.getFirst().factor().inCoeffDomain())
262	contentXFactors.removeFirst();
263	if (contentYFactors.getFirst().factor().inCoeffDomain())
264	contentYFactors.removeFirst();
265	decompress (contentXFactors, N);
266	decompress (contentYFactors, N);
267	CFFList result;
268	if (F.inCoeffDomain())
269	{
270	result= Union (contentXFactors, contentYFactors);
271	normalize (result);
272	result.insert (CFFactor (LcF, 1));
273	return result;
274	}
275	mat_ZZ M;
276	vec_ZZ S;
277	F= compress (F, M, S);
278
279	TIMING_START (fac_fq_bi_sqrf);
280	CFFList sqrf= FpSqrf (F, false);
281	TIMING_END_AND_PRINT (fac_fq_bi_sqrf,
282	"time for bivariate sqrf factors over Fp: ");
283	CFList bufResult;
284	sqrf.removeFirst();
285	CFListIterator i;
286	for (CFFListIterator iter= sqrf; iter.hasItem(); iter++)
287	{
288	TIMING_START (fac_fq_bi_factor_sqrf);
289	bufResult= biFactorize (iter.getItem().factor(), info);
290	TIMING_END_AND_PRINT (fac_fq_bi_factor_sqrf,
291	"time to factor bivariate sqrf factors over Fp: ");
292	for (i= bufResult; i.hasItem(); i++)
293	result.append (CFFactor (N (decompress (i.getItem(), M, S)),
294	iter.getItem().exp()));
295	}
296
297	result= Union (result, contentXFactors);
298	result= Union (result, contentYFactors);
299	normalize (result);
300	result.insert (CFFactor (LcF, 1));
301	return result;
302	}
303
304	/// factorize a bivariate polynomial over \f$ F_{p}(\alpha ) \f$
305	///
306	/// @return @a FqBiFactorize returns a list of monic factors with
307	/// multiplicity, the first element is the leading coefficient.
308	/// @sa FpBiFactorize(), FqBiFactorize()
309	inline
310	CFFList
311	FqBiFactorize (const CanonicalForm & G, ///< [in] a bivariate poly
312	const Variable & alpha, ///< [in] algebraic variable
313	bool substCheck= true ///< [in] enables substitute check
314	)
315	{
316	ExtensionInfo info= ExtensionInfo (alpha, false);
317	CFMap N;
318	CanonicalForm F= compress (G, N);
319
320	if (substCheck)
321	{
322	bool foundOne= false;
323	int * substDegree= new int [F.level()];
324	for (int i= 1; i <= F.level(); i++)
325	{
326	substDegree[i-1]= substituteCheck (F, Variable (i));
327	if (substDegree [i-1] > 1)
328	{
329	foundOne= true;
330	subst (F, F, substDegree[i-1], Variable (i));
331	}
332	}
333	if (foundOne)
334	{
335	CFFList result= FqBiFactorize (F, alpha, false);
336	CFFList newResult, tmp;
337	CanonicalForm tmp2;
338	newResult.insert (result.getFirst());
339	result.removeFirst();
340	for (CFFListIterator i= result; i.hasItem(); i++)
341	{
342	tmp2= i.getItem().factor();
343	for (int j= 1; j <= F.level(); j++)
344	{
345	if (substDegree[j-1] > 1)
346	tmp2= reverseSubst (tmp2, substDegree[j-1], Variable (j));
347	}
348	tmp= FqBiFactorize (tmp2, alpha, false);
349	tmp.removeFirst();
350	for (CFFListIterator j= tmp; j.hasItem(); j++)
351	newResult.append (CFFactor (j.getItem().factor(),
352	j.getItem().exp()*i.getItem().exp()));
353	}
354	decompress (newResult, N);
355	delete [] substDegree;
356	return newResult;
357	}
358	delete [] substDegree;
359	}
360
361	CanonicalForm LcF= Lc (F);
362	CanonicalForm contentX= content (F, 1);
363	CanonicalForm contentY= content (F, 2);
364	F /= (contentX*contentY);
365	CFFList contentXFactors, contentYFactors;
366	contentXFactors= factorize (contentX, alpha);
367	contentYFactors= factorize (contentY, alpha);
368	if (contentXFactors.getFirst().factor().inCoeffDomain())
369	contentXFactors.removeFirst();
370	if (contentYFactors.getFirst().factor().inCoeffDomain())
371	contentYFactors.removeFirst();
372	decompress (contentXFactors, N);
373	decompress (contentYFactors, N);
374	CFFList result;
375	if (F.inCoeffDomain())
376	{
377	result= Union (contentXFactors, contentYFactors);
378	normalize (result);
379	result.insert (CFFactor (LcF, 1));
380	return result;
381	}
382	mat_ZZ M;
383	vec_ZZ S;
384	F= compress (F, M, S);
385
386	TIMING_START (fac_fq_bi_sqrf);
387	CFFList sqrf= FqSqrf (F, alpha, false);
388	TIMING_END_AND_PRINT (fac_fq_bi_sqrf,
389	"time for bivariate sqrf factors over Fq: ");
390	CFList bufResult;
391	sqrf.removeFirst();
392	CFListIterator i;
393	for (CFFListIterator iter= sqrf; iter.hasItem(); iter++)
394	{
395	TIMING_START (fac_fq_bi_factor_sqrf);
396	bufResult= biFactorize (iter.getItem().factor(), info);
397	TIMING_END_AND_PRINT (fac_fq_bi_factor_sqrf,
398	"time to factor bivariate sqrf factors over Fq: ");
399	for (i= bufResult; i.hasItem(); i++)
400	result.append (CFFactor (N (decompress (i.getItem(), M, S)),
401	iter.getItem().exp()));
402	}
403
404	result= Union (result, contentXFactors);
405	result= Union (result, contentYFactors);
406	normalize (result);
407	result.insert (CFFactor (LcF, 1));
408	return result;
409	}
410
411	/// factorize a bivariate polynomial over GF
412	///
413	/// @return @a GFBiFactorize returns a list of monic factors with
414	/// multiplicity, the first element is the leading coefficient.
415	/// @sa FpBiFactorize(), FqBiFactorize()
416	inline
417	CFFList
418	GFBiFactorize (const CanonicalForm & G, ///< [in] a bivariate poly
419	bool substCheck= true ///< [in] enables substitute check
420	)
421	{
422	ASSERT (CFFactory::gettype() == GaloisFieldDomain,
423	"GF as base field expected");
424	ExtensionInfo info= ExtensionInfo (getGFDegree(), gf_name, false);
425	CFMap N;
426	CanonicalForm F= compress (G, N);
427
428	if (substCheck)
429	{
430	bool foundOne= false;
431	int * substDegree= new int [F.level()];
432	for (int i= 1; i <= F.level(); i++)
433	{
434	substDegree[i-1]= substituteCheck (F, Variable (i));
435	if (substDegree [i-1] > 1)
436	{
437	foundOne= true;
438	subst (F, F, substDegree[i-1], Variable (i));
439	}
440	}
441	if (foundOne)
442	{
443	CFFList result= GFBiFactorize (F, false);
444	CFFList newResult, tmp;
445	CanonicalForm tmp2;
446	newResult.insert (result.getFirst());
447	result.removeFirst();
448	for (CFFListIterator i= result; i.hasItem(); i++)
449	{
450	tmp2= i.getItem().factor();
451	for (int j= 1; j <= F.level(); j++)
452	{
453	if (substDegree[j-1] > 1)
454	tmp2= reverseSubst (tmp2, substDegree[j-1], Variable (j));
455	}
456	tmp= GFBiFactorize (tmp2, false);
457	tmp.removeFirst();
458	for (CFFListIterator j= tmp; j.hasItem(); j++)
459	newResult.append (CFFactor (j.getItem().factor(),
460	j.getItem().exp()*i.getItem().exp()));
461	}
462	decompress (newResult, N);
463	delete [] substDegree;
464	return newResult;
465	}
466	delete [] substDegree;
467	}
468
469	CanonicalForm LcF= Lc (F);
470	CanonicalForm contentX= content (F, 1);
471	CanonicalForm contentY= content (F, 2);
472	F /= (contentX*contentY);
473	CFFList contentXFactors, contentYFactors;
474	contentXFactors= factorize (contentX);
475	contentYFactors= factorize (contentY);
476	if (contentXFactors.getFirst().factor().inCoeffDomain())
477	contentXFactors.removeFirst();
478	if (contentYFactors.getFirst().factor().inCoeffDomain())
479	contentYFactors.removeFirst();
480	decompress (contentXFactors, N);
481	decompress (contentYFactors, N);
482	CFFList result;
483	if (F.inCoeffDomain())
484	{
485	result= Union (contentXFactors, contentYFactors);
486	normalize (result);
487	result.insert (CFFactor (LcF, 1));
488	return result;
489	}
490	mat_ZZ M;
491	vec_ZZ S;
492	F= compress (F, M, S);
493
494	TIMING_START (fac_fq_bi_sqrf);
495	CFFList sqrf= GFSqrf (F, false);
496	TIMING_END_AND_PRINT (fac_fq_bi_sqrf,
497	"time for bivariate sqrf factors over GF: ");
498	CFList bufResult;
499	sqrf.removeFirst();
500	CFListIterator i;
501	for (CFFListIterator iter= sqrf; iter.hasItem(); iter++)
502	{
503	TIMING_START (fac_fq_bi_factor_sqrf);
504	bufResult= biFactorize (iter.getItem().factor(), info);
505	TIMING_END_AND_PRINT (fac_fq_bi_factor_sqrf,
506	"time to factor bivariate sqrf factors over GF: ");
507	for (i= bufResult; i.hasItem(); i++)
508	result.append (CFFactor (N (decompress (i.getItem(), M, S)),
509	iter.getItem().exp()));
510	}
511
512	result= Union (result, contentXFactors);
513	result= Union (result, contentYFactors);
514	normalize (result);
515	result.insert (CFFactor (LcF, 1));
516	return result;
517	}
518
519	/// \f$ \prod_{f\in L} {f (0, x)} \ mod\ M \f$ via divide-and-conquer
520	///
521	/// @return @a prodMod0 computes the above defined product
522	/// @sa prodMod()
523	CanonicalForm prodMod0 (const CFList& L, ///< [in] a list of compressed,
524	///< bivariate polynomials
525	const CanonicalForm& M,///< [in] a power of Variable (2)
526	const modpk& b= modpk()///< [in] coeff bound
527	);
528
529	/// find an evaluation point p, s.t. F(p,y) is squarefree and
530	/// \f$ deg_{y} (F(p,y))= deg_{y} (F(x,y)) \f$.
531	///
532	/// @return @a evalPoint returns an evaluation point, which is valid if and only
533	/// if fail == false.
534	CanonicalForm
535	evalPoint (const CanonicalForm& F, ///< [in] compressed, bivariate poly
536	CanonicalForm & eval, ///< [in,out] F (p, y)
537	const Variable& alpha, ///< [in] algebraic variable
538	CFList& list, ///< [in] list of points already considered
539	const bool& GF, ///< [in] GaloisFieldDomain?
540	bool& fail ///< [in,out] equals true, if there is no
541	///< valid evaluation point
542	);
543
544	/// Univariate factorization of squarefree monic polys over finite fields via
545	/// NTL. If the characteristic is even special GF2 routines of NTL are used.
546	///
547	/// @return @a uniFactorizer returns a list of monic factors
548	CFList
549	uniFactorizer (const CanonicalForm& A, ///< [in] squarefree univariate poly
550	const Variable& alpha, ///< [in] algebraic variable
551	const bool& GF ///< [in] GaloisFieldDomain?
552	);
553
554	/// naive factor recombination over an extension of the initial field.
555	/// Uses precomputed data to exclude combinations that are not possible.
556	///
557	/// @return @a extFactorRecombination returns a list of factors over the initial
558	/// field, whose shift to zero is reversed.
559	/// @sa factorRecombination(), extEarlyFactorDetection()
560	CFList
561	extFactorRecombination (
562	CFList& factors, ///< [in,out] list of lifted factors that are
563	///< monic wrt Variable (1),
564	///< original factors-factors found
565	CanonicalForm& F, ///< [in,out] poly to be factored,
566	///< F/factors found
567	const CanonicalForm& M, ///< [in] Variable (2)^liftBound
568	const ExtensionInfo& info,///< [in] contains information about
569	///< extension
570	DegreePattern& degs,
571	const CanonicalForm& eval,///< [in] evaluation point
572	int s, ///< [in] algorithm starts checking subsets
573	///< of size s
574	int thres ///< [in] threshold for the size of subsets
575	///< which are checked, for a full factor
576	///< recombination choose
577	///< thres= factors.length()/2
578	);
579
580	/// naive factor recombination.
581	/// Uses precomputed data to exclude combinations that are not possible.
582	///
583	/// @return @a factorRecombination returns a list of factors of F.
584	/// @sa extFactorRecombination(), earlyFactorDetectection()
585	CFList
586	factorRecombination (
587	CFList& factors, ///< [in,out] list of lifted factors
588	///< that are monic wrt Variable (1)
589	CanonicalForm& F, ///< [in,out] poly to be factored
590	const CanonicalForm& M, ///< [in] Variable (2)^liftBound
591	DegreePattern& degs, ///< [in] degree pattern
592	int s, ///< [in] algorithm starts checking
593	///< subsets of size s
594	int thres, ///< [in] threshold for the size of
595	///< subsets which are checked, for a
596	///< full factor recombination choose
597	///< thres= factors.length()/2
598	const modpk& b=modpk(), ///< [in] coeff bound
599	const CanonicalForm& den= 1 ///< [in] bound on the den if over Q (a)
600	);
601
602	/// chooses a field extension.
603	///
604	/// @return @a chooseExtension returns an extension specified by @a beta of
605	/// appropiate size
606	Variable chooseExtension (
607	const Variable & alpha, ///< [in] some algebraic variable
608	const Variable & beta, ///< [in] some algebraic variable
609	int k ///< [in] some int
610	);
611
612	/// compute lifting precisions from the shape of the Newton polygon of F
613	///
614	/// @return @a getLiftPrecisions returns lifting precisions computed from the
615	/// shape of the Newton polygon of F
616	int *
617	getLiftPrecisions (const CanonicalForm& F, ///< [in] a bivariate poly
618	int& sizeOfOutput, ///< [in,out] size of the output
619	int degreeLC ///< [in] degree of the leading coeff
620	///< [in] of F wrt. Variable (1)
621	);
622
623
624	/// detects factors of @a F at stage @a deg of Hensel lifting.
625	/// No combinations of more than one factor are tested. Lift bound and possible
626	/// degree pattern are updated.
627	///
628	/// @sa factorRecombination(), extEarlyFactorDetection()
629	void
630	earlyFactorDetection (
631	CFList& reconstructedFactors, ///< [in,out] list of reconstructed
632	///< factors
633	CanonicalForm& F, ///< [in,out] poly to be factored, returns
634	///< poly divided by detected factors in case
635	///< of success
636	CFList& factors, ///< [in,out] list of factors lifted up to
637	///< @a deg, returns a list of factors
638	///< without detected factors
639	int& adaptedLiftBound, ///< [in,out] adapted lift bound
640	int*& factorsFoundIndex,///< [in,out] factors already considered
641	DegreePattern& degs, ///< [in,out] degree pattern, is updated
642	///< whenever we find a factor
643	bool& success, ///< [in,out] indicating success
644	int deg, ///< [in] stage of Hensel lifting
645	const modpk& b= modpk() ///< [in] coeff bound
646	);
647
648	/// detects factors of @a F at stage @a deg of Hensel lifting.
649	/// No combinations of more than one factor are tested. Lift bound and possible
650	/// degree pattern are updated.
651	///
652	/// @sa factorRecombination(), earlyFactorDetection()
653	void
654	extEarlyFactorDetection (
655	CFList& reconstructedFactors, ///< [in,out] list of reconstructed
656	///< factors
657	CanonicalForm& F, ///< [in,out] poly to be factored, returns
658	///< poly divided by detected factors in case
659	///< of success
660	CFList& factors, ///< [in,out] list of factors lifted up to
661	///< @a deg, returns a list of factors
662	///< without detected factors
663	int& adaptedLiftBound, ///< [in,out] adapted lift bound
664	int*& factorsFoundIndex, ///< [in,out] factors already considered
665	DegreePattern& degs, ///< [in,out] degree pattern, is updated
666	///< whenever we find a factor
667	bool& success, ///< [in,out] indicating success
668	const ExtensionInfo& info, ///< [in] information about extension
669	const CanonicalForm& eval, ///< [in] evaluation point
670	int deg ///< [in] stage of Hensel lifting
671	);
672
673	/// hensel Lifting and early factor detection
674	///
675	/// @return @a henselLiftAndEarly returns monic (wrt Variable (1)) lifted
676	/// factors without factors which have been detected at an early stage
677	/// of Hensel lifting
678	/// @sa earlyFactorDetection(), extEarlyFactorDetection()
679
680	CFList
681	henselLiftAndEarly (
682	CanonicalForm& A, ///< [in,out] poly to be factored,
683	///< returns poly divided by detected factors
684	///< in case of success
685	bool& earlySuccess, ///< [in,out] indicating success
686	CFList& earlyFactors, ///< [in,out] list of factors detected
687	///< at early stage of Hensel lifting
688	DegreePattern& degs, ///< [in,out] degree pattern
689	int& liftBound, ///< [in,out] (adapted) lift bound
690	const CFList& uniFactors, ///< [in] univariate factors
691	const ExtensionInfo& info, ///< [in] information about extension
692	const CanonicalForm& eval, ///< [in] evaluation point
693	modpk& b, ///< [in] coeff bound
694	CanonicalForm& den ///< [in] bound on the den if over Q(a)
695	);
696
697	/// hensel Lifting and early factor detection
698	///
699	/// @return @a henselLiftAndEarly returns monic (wrt Variable (1)) lifted
700	/// factors without factors which have been detected at an early stage
701	/// of Hensel lifting
702	/// @sa earlyFactorDetection(), extEarlyFactorDetection()
703
704	CFList
705	henselLiftAndEarly (
706	CanonicalForm& A, ///< [in,out] poly to be factored,
707	///< returns poly divided by detected factors
708	///< in case of success
709	bool& earlySuccess, ///< [in,out] indicating success
710	CFList& earlyFactors, ///< [in,out] list of factors detected
711	///< at early stage of Hensel lifting
712	DegreePattern& degs, ///< [in,out] degree pattern
713	int& liftBound, ///< [in,out] (adapted) lift bound
714	const CFList& uniFactors, ///< [in] univariate factors
715	const ExtensionInfo& info, ///< [in] information about extension
716	const CanonicalForm& eval ///< [in] evaluation point
717	);
718
719	/// Factorization over an extension of initial field
720	///
721	/// @return @a extBiFactorize returns factorization of F over initial field
722	/// @sa biFactorize()
723	CFList
724	extBiFactorize (const CanonicalForm& F, ///< [in] poly to be factored
725	const ExtensionInfo& info ///< [in] info about extension
726	);
727
728	#endif
729	#endif
730	/* FAC_FQ_BIVAR_H */
731

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