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source: orxonox.OLD/orxonox/trunk/src/lib/newmat/newmat5.cpp @ 4607

Last change on this file since 4607 was 4565, checked in by patrick, 19 years ago
orxonox/trunk: added the newmat library to the project. needs some translation in directory, temp under util/newmat. is needed by the collision detection engine to perform lin alg operations such as eigenvector decomposition. perhaps we will make our own library to do that later.
File size: 14.2 KB

Line
1	//$$ newmat5.cpp Transpose, evaluate etc
2
3	// Copyright (C) 1991,2,3,4: R B Davies
4
5	//#define WANT_STREAM
6
7	#include "include.h"
8
9	#include "newmat.h"
10	#include "newmatrc.h"
11
12	#ifdef use_namespace
13	namespace NEWMAT {
14	#endif
15
16
17	#ifdef DO_REPORT
18	#define REPORT { static ExeCounter ExeCount(__LINE__,5); ++ExeCount; }
19	#else
20	#define REPORT {}
21	#endif
22
23
24	/********************** carry out operations ****************************/
25
26
27	GeneralMatrix* GeneralMatrix::Transpose(TransposedMatrix* tm, MatrixType mt)
28	{
29	GeneralMatrix* gm1;
30
31	if (Compare(Type().t(),mt))
32	{
33	REPORT
34	gm1 = mt.New(ncols,nrows,tm);
35	for (int i=0; i<ncols; i++)
36	{
37	MatrixRow mr(gm1, StoreOnExit+DirectPart, i);
38	MatrixCol mc(this, mr.Data(), LoadOnEntry, i);
39	}
40	}
41	else
42	{
43	REPORT
44	gm1 = mt.New(ncols,nrows,tm);
45	MatrixRow mr(this, LoadOnEntry);
46	MatrixCol mc(gm1, StoreOnExit+DirectPart);
47	int i = nrows;
48	while (i--) { mc.Copy(mr); mr.Next(); mc.Next(); }
49	}
50	tDelete(); gm1->ReleaseAndDelete(); return gm1;
51	}
52
53	GeneralMatrix* SymmetricMatrix::Transpose(TransposedMatrix*, MatrixType mt)
54	{ REPORT return Evaluate(mt); }
55
56
57	GeneralMatrix* DiagonalMatrix::Transpose(TransposedMatrix*, MatrixType mt)
58	{ REPORT return Evaluate(mt); }
59
60	GeneralMatrix* ColumnVector::Transpose(TransposedMatrix*, MatrixType mt)
61	{
62	REPORT
63	GeneralMatrix* gmx = new RowVector; MatrixErrorNoSpace(gmx);
64	gmx->nrows = 1; gmx->ncols = gmx->storage = storage;
65	return BorrowStore(gmx,mt);
66	}
67
68	GeneralMatrix* RowVector::Transpose(TransposedMatrix*, MatrixType mt)
69	{
70	REPORT
71	GeneralMatrix* gmx = new ColumnVector; MatrixErrorNoSpace(gmx);
72	gmx->ncols = 1; gmx->nrows = gmx->storage = storage;
73	return BorrowStore(gmx,mt);
74	}
75
76	GeneralMatrix* IdentityMatrix::Transpose(TransposedMatrix*, MatrixType mt)
77	{ REPORT return Evaluate(mt); }
78
79	GeneralMatrix* GeneralMatrix::Evaluate(MatrixType mt)
80	{
81	if (Compare(this->Type(),mt)) { REPORT return this; }
82	REPORT
83	GeneralMatrix* gmx = mt.New(nrows,ncols,this);
84	MatrixRow mr(this, LoadOnEntry);
85	MatrixRow mrx(gmx, StoreOnExit+DirectPart);
86	int i=nrows;
87	while (i--) { mrx.Copy(mr); mrx.Next(); mr.Next(); }
88	tDelete(); gmx->ReleaseAndDelete(); return gmx;
89	}
90
91	GeneralMatrix* GenericMatrix::Evaluate(MatrixType mt)
92	{ REPORT return gm->Evaluate(mt); }
93
94	GeneralMatrix* ShiftedMatrix::Evaluate(MatrixType mt)
95	{
96	gm=((BaseMatrix*&)bm)->Evaluate();
97	int nr=gm->Nrows(); int nc=gm->Ncols();
98	Compare(gm->Type().AddEqualEl(),mt);
99	if (!(mt==gm->Type()))
100	{
101	REPORT
102	GeneralMatrix* gmx = mt.New(nr,nc,this);
103	MatrixRow mr(gm, LoadOnEntry);
104	MatrixRow mrx(gmx, StoreOnExit+DirectPart);
105	while (nr--) { mrx.Add(mr,f); mrx.Next(); mr.Next(); }
106	gmx->ReleaseAndDelete(); gm->tDelete();
107	#ifdef TEMPS_DESTROYED_QUICKLY
108	delete this;
109	#endif
110	return gmx;
111	}
112	else if (gm->reuse())
113	{
114	REPORT gm->Add(f);
115	#ifdef TEMPS_DESTROYED_QUICKLY
116	GeneralMatrix* gmx = gm; delete this; return gmx;
117	#else
118	return gm;
119	#endif
120	}
121	else
122	{
123	REPORT GeneralMatrix* gmy = gm->Type().New(nr,nc,this);
124	gmy->ReleaseAndDelete(); gmy->Add(gm,f);
125	#ifdef TEMPS_DESTROYED_QUICKLY
126	delete this;
127	#endif
128	return gmy;
129	}
130	}
131
132	GeneralMatrix* NegShiftedMatrix::Evaluate(MatrixType mt)
133	{
134	gm=((BaseMatrix*&)bm)->Evaluate();
135	int nr=gm->Nrows(); int nc=gm->Ncols();
136	Compare(gm->Type().AddEqualEl(),mt);
137	if (!(mt==gm->Type()))
138	{
139	REPORT
140	GeneralMatrix* gmx = mt.New(nr,nc,this);
141	MatrixRow mr(gm, LoadOnEntry);
142	MatrixRow mrx(gmx, StoreOnExit+DirectPart);
143	while (nr--) { mrx.NegAdd(mr,f); mrx.Next(); mr.Next(); }
144	gmx->ReleaseAndDelete(); gm->tDelete();
145	#ifdef TEMPS_DESTROYED_QUICKLY
146	delete this;
147	#endif
148	return gmx;
149	}
150	else if (gm->reuse())
151	{
152	REPORT gm->NegAdd(f);
153	#ifdef TEMPS_DESTROYED_QUICKLY
154	GeneralMatrix* gmx = gm; delete this; return gmx;
155	#else
156	return gm;
157	#endif
158	}
159	else
160	{
161	REPORT GeneralMatrix* gmy = gm->Type().New(nr,nc,this);
162	gmy->ReleaseAndDelete(); gmy->NegAdd(gm,f);
163	#ifdef TEMPS_DESTROYED_QUICKLY
164	delete this;
165	#endif
166	return gmy;
167	}
168	}
169
170	GeneralMatrix* ScaledMatrix::Evaluate(MatrixType mt)
171	{
172	gm=((BaseMatrix*&)bm)->Evaluate();
173	int nr=gm->Nrows(); int nc=gm->Ncols();
174	if (Compare(gm->Type(),mt))
175	{
176	if (gm->reuse())
177	{
178	REPORT gm->Multiply(f);
179	#ifdef TEMPS_DESTROYED_QUICKLY
180	GeneralMatrix* gmx = gm; delete this; return gmx;
181	#else
182	return gm;
183	#endif
184	}
185	else
186	{
187	REPORT GeneralMatrix* gmx = gm->Type().New(nr,nc,this);
188	gmx->ReleaseAndDelete(); gmx->Multiply(gm,f);
189	#ifdef TEMPS_DESTROYED_QUICKLY
190	delete this;
191	#endif
192	return gmx;
193	}
194	}
195	else
196	{
197	REPORT
198	GeneralMatrix* gmx = mt.New(nr,nc,this);
199	MatrixRow mr(gm, LoadOnEntry);
200	MatrixRow mrx(gmx, StoreOnExit+DirectPart);
201	while (nr--) { mrx.Multiply(mr,f); mrx.Next(); mr.Next(); }
202	gmx->ReleaseAndDelete(); gm->tDelete();
203	#ifdef TEMPS_DESTROYED_QUICKLY
204	delete this;
205	#endif
206	return gmx;
207	}
208	}
209
210	GeneralMatrix* NegatedMatrix::Evaluate(MatrixType mt)
211	{
212	gm=((BaseMatrix*&)bm)->Evaluate();
213	int nr=gm->Nrows(); int nc=gm->Ncols();
214	if (Compare(gm->Type(),mt))
215	{
216	if (gm->reuse())
217	{
218	REPORT gm->Negate();
219	#ifdef TEMPS_DESTROYED_QUICKLY
220	GeneralMatrix* gmx = gm; delete this; return gmx;
221	#else
222	return gm;
223	#endif
224	}
225	else
226	{
227	REPORT
228	GeneralMatrix* gmx = gm->Type().New(nr,nc,this);
229	gmx->ReleaseAndDelete(); gmx->Negate(gm);
230	#ifdef TEMPS_DESTROYED_QUICKLY
231	delete this;
232	#endif
233	return gmx;
234	}
235	}
236	else
237	{
238	REPORT
239	GeneralMatrix* gmx = mt.New(nr,nc,this);
240	MatrixRow mr(gm, LoadOnEntry);
241	MatrixRow mrx(gmx, StoreOnExit+DirectPart);
242	while (nr--) { mrx.Negate(mr); mrx.Next(); mr.Next(); }
243	gmx->ReleaseAndDelete(); gm->tDelete();
244	#ifdef TEMPS_DESTROYED_QUICKLY
245	delete this;
246	#endif
247	return gmx;
248	}
249	}
250
251	GeneralMatrix* ReversedMatrix::Evaluate(MatrixType mt)
252	{
253	gm=((BaseMatrix&)bm)->Evaluate(); GeneralMatrix gmx;
254
255	if ((gm->Type()).IsBand() && ! (gm->Type()).IsDiagonal())
256	{
257	gm->tDelete();
258	#ifdef TEMPS_DESTROYED_QUICKLY
259	delete this;
260	#endif
261	Throw(NotDefinedException("Reverse", "band matrices"));
262	}
263
264	if (gm->reuse()) { REPORT gm->ReverseElements(); gmx = gm; }
265	else
266	{
267	REPORT
268	gmx = gm->Type().New(gm->Nrows(), gm->Ncols(), this);
269	gmx->ReverseElements(gm); gmx->ReleaseAndDelete();
270	}
271	#ifdef TEMPS_DESTROYED_QUICKLY
272	delete this;
273	#endif
274	return gmx->Evaluate(mt); // target matrix is different type?
275
276	}
277
278	GeneralMatrix* TransposedMatrix::Evaluate(MatrixType mt)
279	{
280	REPORT
281	gm=((BaseMatrix*&)bm)->Evaluate();
282	Compare(gm->Type().t(),mt);
283	GeneralMatrix* gmx=gm->Transpose(this, mt);
284	#ifdef TEMPS_DESTROYED_QUICKLY
285	delete this;
286	#endif
287	return gmx;
288	}
289
290	GeneralMatrix* RowedMatrix::Evaluate(MatrixType mt)
291	{
292	gm = ((BaseMatrix*&)bm)->Evaluate();
293	GeneralMatrix* gmx = new RowVector; MatrixErrorNoSpace(gmx);
294	gmx->nrows = 1; gmx->ncols = gmx->storage = gm->storage;
295	#ifdef TEMPS_DESTROYED_QUICKLY
296	GeneralMatrix* gmy = gm; delete this; return gmy->BorrowStore(gmx,mt);
297	#else
298	return gm->BorrowStore(gmx,mt);
299	#endif
300	}
301
302	GeneralMatrix* ColedMatrix::Evaluate(MatrixType mt)
303	{
304	gm = ((BaseMatrix*&)bm)->Evaluate();
305	GeneralMatrix* gmx = new ColumnVector; MatrixErrorNoSpace(gmx);
306	gmx->ncols = 1; gmx->nrows = gmx->storage = gm->storage;
307	#ifdef TEMPS_DESTROYED_QUICKLY
308	GeneralMatrix* gmy = gm; delete this; return gmy->BorrowStore(gmx,mt);
309	#else
310	return gm->BorrowStore(gmx,mt);
311	#endif
312	}
313
314	GeneralMatrix* DiagedMatrix::Evaluate(MatrixType mt)
315	{
316	gm = ((BaseMatrix*&)bm)->Evaluate();
317	GeneralMatrix* gmx = new DiagonalMatrix; MatrixErrorNoSpace(gmx);
318	gmx->nrows = gmx->ncols = gmx->storage = gm->storage;
319	#ifdef TEMPS_DESTROYED_QUICKLY
320	GeneralMatrix* gmy = gm; delete this; return gmy->BorrowStore(gmx,mt);
321	#else
322	return gm->BorrowStore(gmx,mt);
323	#endif
324	}
325
326	GeneralMatrix* MatedMatrix::Evaluate(MatrixType mt)
327	{
328	Tracer tr("MatedMatrix::Evaluate");
329	gm = ((BaseMatrix*&)bm)->Evaluate();
330	GeneralMatrix* gmx = new Matrix; MatrixErrorNoSpace(gmx);
331	gmx->nrows = nr; gmx->ncols = nc; gmx->storage = gm->storage;
332	if (nr*nc != gmx->storage)
333	Throw(IncompatibleDimensionsException());
334	#ifdef TEMPS_DESTROYED_QUICKLY
335	GeneralMatrix* gmy = gm; delete this; return gmy->BorrowStore(gmx,mt);
336	#else
337	return gm->BorrowStore(gmx,mt);
338	#endif
339	}
340
341	GeneralMatrix* GetSubMatrix::Evaluate(MatrixType mt)
342	{
343	REPORT
344	Tracer tr("SubMatrix(evaluate)");
345	gm = ((BaseMatrix*&)bm)->Evaluate();
346	if (row_number < 0) row_number = gm->Nrows();
347	if (col_number < 0) col_number = gm->Ncols();
348	if (row_skip+row_number > gm->Nrows() \|\| col_skip+col_number > gm->Ncols())
349	{
350	gm->tDelete();
351	#ifdef TEMPS_DESTROYED_QUICKLY
352	delete this;
353	#endif
354	Throw(SubMatrixDimensionException());
355	}
356	if (IsSym) Compare(gm->Type().ssub(), mt);
357	else Compare(gm->Type().sub(), mt);
358	GeneralMatrix* gmx = mt.New(row_number, col_number, this);
359	int i = row_number;
360	MatrixRow mr(gm, LoadOnEntry, row_skip);
361	MatrixRow mrx(gmx, StoreOnExit+DirectPart);
362	MatrixRowCol sub;
363	while (i--)
364	{
365	mr.SubRowCol(sub, col_skip, col_number); // put values in sub
366	mrx.Copy(sub); mrx.Next(); mr.Next();
367	}
368	gmx->ReleaseAndDelete(); gm->tDelete();
369	#ifdef TEMPS_DESTROYED_QUICKLY
370	delete this;
371	#endif
372	return gmx;
373	}
374
375
376	GeneralMatrix* ReturnMatrixX::Evaluate(MatrixType mt)
377	{
378	#ifdef TEMPS_DESTROYED_QUICKLY_R
379	GeneralMatrix* gmx = gm; delete this; return gmx->Evaluate(mt);
380	#else
381	return gm->Evaluate(mt);
382	#endif
383	}
384
385
386	void GeneralMatrix::Add(GeneralMatrix* gm1, Real f)
387	{
388	REPORT
389	Real* s1=gm1->store; Real* s=store; int i=(storage >> 2);
390	while (i--)
391	{ s++ = s1++ + f; s++ = s1++ + f; s++ = s1++ + f; s++ = s1++ + f; }
392	i = storage & 3; while (i--) s++ = s1++ + f;
393	}
394
395	void GeneralMatrix::Add(Real f)
396	{
397	REPORT
398	Real* s=store; int i=(storage >> 2);
399	while (i--) { s++ += f; s++ += f; s++ += f; s++ += f; }
400	i = storage & 3; while (i--) *s++ += f;
401	}
402
403	void GeneralMatrix::NegAdd(GeneralMatrix* gm1, Real f)
404	{
405	REPORT
406	Real* s1=gm1->store; Real* s=store; int i=(storage >> 2);
407	while (i--)
408	{ s++ = f - s1++; s++ = f - s1++; s++ = f - s1++; s++ = f - s1++; }
409	i = storage & 3; while (i--) s++ = f - s1++;
410	}
411
412	void GeneralMatrix::NegAdd(Real f)
413	{
414	REPORT
415	Real* s=store; int i=(storage >> 2);
416	while (i--)
417	{
418	s = f - s; s++; s = f - s; s++;
419	s = f - s; s++; s = f - s; s++;
420	}
421	i = storage & 3; while (i--) { s = f - s; s++; }
422	}
423
424	void GeneralMatrix::Negate(GeneralMatrix* gm1)
425	{
426	// change sign of elements
427	REPORT
428	Real* s1=gm1->store; Real* s=store; int i=(storage >> 2);
429	while (i--)
430	{ s++ = -(s1++); s++ = -(s1++); s++ = -(s1++); s++ = -(s1++); }
431	i = storage & 3; while(i--) s++ = -(s1++);
432	}
433
434	void GeneralMatrix::Negate()
435	{
436	REPORT
437	Real* s=store; int i=(storage >> 2);
438	while (i--)
439	{ s = -(s); s++; s = -(s); s++; s = -(s); s++; s = -(s); s++; }
440	i = storage & 3; while(i--) { s = -(s); s++; }
441	}
442
443	void GeneralMatrix::Multiply(GeneralMatrix* gm1, Real f)
444	{
445	REPORT
446	Real* s1=gm1->store; Real* s=store; int i=(storage >> 2);
447	while (i--)
448	{ s++ = s1++ * f; s++ = s1++ * f; s++ = s1++ * f; s++ = s1++ * f; }
449	i = storage & 3; while (i--) s++ = s1++ * f;
450	}
451
452	void GeneralMatrix::Multiply(Real f)
453	{
454	REPORT
455	Real* s=store; int i=(storage >> 2);
456	while (i--) { s++ = f; s++ = f; s++ = f; s++ = f; }
457	i = storage & 3; while (i--) s++ = f;
458	}
459
460
461	/********************** MatrixInput routines **************************/
462
463	// int MatrixInput::n; // number values still to be read
464	// Real* MatrixInput::r; // pointer to next location to be read to
465
466	MatrixInput MatrixInput::operator<<(Real f)
467	{
468	REPORT
469	Tracer et("MatrixInput");
470	if (n<=0) Throw(ProgramException("List of values too long"));
471	*r = f; int n1 = n-1; n=0; // n=0 so we won't trigger exception
472	return MatrixInput(n1, r+1);
473	}
474
475
476	MatrixInput GeneralMatrix::operator<<(Real f)
477	{
478	REPORT
479	Tracer et("MatrixInput");
480	int n = Storage();
481	if (n<=0) Throw(ProgramException("Loading data to zero length matrix"));
482	Real* r; r = Store(); *r = f; n--;
483	return MatrixInput(n, r+1);
484	}
485
486	MatrixInput GetSubMatrix::operator<<(Real f)
487	{
488	REPORT
489	Tracer et("MatrixInput (GetSubMatrix)");
490	SetUpLHS();
491	if (row_number != 1 \|\| col_skip != 0 \|\| col_number != gm->Ncols())
492	{
493	#ifdef TEMPS_DESTROYED_QUICKLY
494	delete this;
495	#endif
496	Throw(ProgramException("MatrixInput requires complete rows"));
497	}
498	MatrixRow mr(gm, DirectPart, row_skip); // to pick up location and length
499	int n = mr.Storage();
500	if (n<=0)
501	{
502	#ifdef TEMPS_DESTROYED_QUICKLY
503	delete this;
504	#endif
505	Throw(ProgramException("Loading data to zero length row"));
506	}
507	Real* r; r = mr.Data(); *r = f; n--;
508	if (+(mr.cw*HaveStore))
509	{
510	#ifdef TEMPS_DESTROYED_QUICKLY
511	delete this;
512	#endif
513	Throw(ProgramException("Fails with this matrix type"));
514	}
515	#ifdef TEMPS_DESTROYED_QUICKLY
516	delete this;
517	#endif
518	return MatrixInput(n, r+1);
519	}
520
521	MatrixInput::~MatrixInput()
522	{
523	REPORT
524	Tracer et("MatrixInput");
525	if (n!=0) Throw(ProgramException("A list of values was too short"));
526	}
527
528	MatrixInput BandMatrix::operator<<(Real)
529	{
530	Tracer et("MatrixInput");
531	bool dummy = true;
532	if (dummy) // get rid of warning message
533	Throw(ProgramException("Cannot use list read with a BandMatrix"));
534	return MatrixInput(0, 0);
535	}
536
537	void BandMatrix::operator<<(const Real*)
538	{ Throw(ProgramException("Cannot use array read with a BandMatrix")); }
539
540	// *********************** Reverse order of elements *********************
541
542	void GeneralMatrix::ReverseElements(GeneralMatrix* gm)
543	{
544	// reversing into a new matrix
545	REPORT
546	int n = Storage(); Real* rx = Store() + n; Real* x = gm->Store();
547	while (n--) (--rx) = (x++);
548	}
549
550	void GeneralMatrix::ReverseElements()
551	{
552	// reversing in place
553	REPORT
554	int n = Storage(); Real* x = Store(); Real* rx = x + n;
555	n /= 2;
556	while (n--) { Real t = (--rx); rx = x; (x++) = t; }
557	}
558
559
560	#ifdef use_namespace
561	}
562	#endif
563

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