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matbops.h@ 221

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Last change on this file since 221 was 221, checked in by ansari, 26 years ago
Creation module DPC/Blitz (blitz 0.4) Reza 09/04/99
File size: 218.0 KB

Line
1	// Generated source file. Do not edit.
2	// Created by: genmatbops.cpp Aug 8 1997 15:21:36
3
4	#ifndef BZ_MATBOPS_H
5	#define BZ_MATBOPS_H
6
7	BZ_NAMESPACE(blitz)
8
9	#ifndef BZ_MATEXPR_H
10	#error <blitz/matbops.h> must be included via <blitz/matexpr.h>
11	#endif
12
13	/****************************************************************************
14	* Addition Operators
15	****************************************************************************/
16
17	// Matrix<P_numtype1, P_struct1> + Matrix<P_numtype2, P_struct2>
18	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
19	inline
20	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
21	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<P_numtype1, P_numtype2> > >
22	operator+(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
23	{
24	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
25	_bz_MatrixRef<P_numtype2, P_struct2>,
26	_bz_Add<P_numtype1, P_numtype2> > T_expr;
27
28	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
29	d2._bz_getRef()));
30	}
31
32	// Matrix<P_numtype1, P_struct1> + _bz_MatExpr<P_expr2>
33	template<class P_numtype1, class P_struct1, class P_expr2>
34	inline
35	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
36	_bz_MatExpr<P_expr2>, _bz_Add<P_numtype1, _bz_typename P_expr2::T_numtype> > >
37	operator+(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
38	{
39	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
40	_bz_MatExpr<P_expr2>,
41	_bz_Add<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
42
43	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
44	d2));
45	}
46
47	// Matrix<P_numtype1, P_struct1> + int
48	template<class P_numtype1, class P_struct1>
49	inline
50	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
51	_bz_MatExprConstant<int>, _bz_Add<P_numtype1, int> > >
52	operator+(const Matrix<P_numtype1, P_struct1>& d1, int d2)
53	{
54	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
55	_bz_MatExprConstant<int>,
56	_bz_Add<P_numtype1, int> > T_expr;
57
58	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
59	_bz_MatExprConstant<int>(d2)));
60	}
61
62	// Matrix<P_numtype1, P_struct1> + float
63	template<class P_numtype1, class P_struct1>
64	inline
65	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
66	_bz_MatExprConstant<float>, _bz_Add<P_numtype1, float> > >
67	operator+(const Matrix<P_numtype1, P_struct1>& d1, float d2)
68	{
69	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
70	_bz_MatExprConstant<float>,
71	_bz_Add<P_numtype1, float> > T_expr;
72
73	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
74	_bz_MatExprConstant<float>(d2)));
75	}
76
77	// Matrix<P_numtype1, P_struct1> + double
78	template<class P_numtype1, class P_struct1>
79	inline
80	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
81	_bz_MatExprConstant<double>, _bz_Add<P_numtype1, double> > >
82	operator+(const Matrix<P_numtype1, P_struct1>& d1, double d2)
83	{
84	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
85	_bz_MatExprConstant<double>,
86	_bz_Add<P_numtype1, double> > T_expr;
87
88	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
89	_bz_MatExprConstant<double>(d2)));
90	}
91
92	// Matrix<P_numtype1, P_struct1> + long double
93	template<class P_numtype1, class P_struct1>
94	inline
95	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
96	_bz_MatExprConstant<long double>, _bz_Add<P_numtype1, long double> > >
97	operator+(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
98	{
99	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
100	_bz_MatExprConstant<long double>,
101	_bz_Add<P_numtype1, long double> > T_expr;
102
103	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
104	_bz_MatExprConstant<long double>(d2)));
105	}
106
107	#ifdef BZ_HAVE_COMPLEX
108	// Matrix<P_numtype1, P_struct1> + complex<float>
109	template<class P_numtype1, class P_struct1>
110	inline
111	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
112	_bz_MatExprConstant<complex<float> >, _bz_Add<P_numtype1, complex<float> > > >
113	operator+(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
114	{
115	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
116	_bz_MatExprConstant<complex<float> >,
117	_bz_Add<P_numtype1, complex<float> > > T_expr;
118
119	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
120	_bz_MatExprConstant<complex<float> >(d2)));
121	}
122	#endif // BZ_HAVE_COMPLEX
123
124	#ifdef BZ_HAVE_COMPLEX
125	// Matrix<P_numtype1, P_struct1> + complex<double>
126	template<class P_numtype1, class P_struct1>
127	inline
128	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
129	_bz_MatExprConstant<complex<double> >, _bz_Add<P_numtype1, complex<double> > > >
130	operator+(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
131	{
132	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
133	_bz_MatExprConstant<complex<double> >,
134	_bz_Add<P_numtype1, complex<double> > > T_expr;
135
136	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
137	_bz_MatExprConstant<complex<double> >(d2)));
138	}
139	#endif // BZ_HAVE_COMPLEX
140
141	#ifdef BZ_HAVE_COMPLEX
142	// Matrix<P_numtype1, P_struct1> + complex<long double>
143	template<class P_numtype1, class P_struct1>
144	inline
145	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
146	_bz_MatExprConstant<complex<long double> >, _bz_Add<P_numtype1, complex<long double> > > >
147	operator+(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
148	{
149	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
150	_bz_MatExprConstant<complex<long double> >,
151	_bz_Add<P_numtype1, complex<long double> > > T_expr;
152
153	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
154	_bz_MatExprConstant<complex<long double> >(d2)));
155	}
156	#endif // BZ_HAVE_COMPLEX
157
158	// _bz_MatExpr<P_expr1> + Matrix<P_numtype2, P_struct2>
159	template<class P_expr1, class P_numtype2, class P_struct2>
160	inline
161	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
162	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<_bz_typename P_expr1::T_numtype, P_numtype2> > >
163	operator+(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
164	{
165	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
166	_bz_MatrixRef<P_numtype2, P_struct2>,
167	_bz_Add<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
168
169	return _bz_MatExpr<T_expr>(T_expr(d1,
170	d2._bz_getRef()));
171	}
172
173	// _bz_MatExpr<P_expr1> + _bz_MatExpr<P_expr2>
174	template<class P_expr1, class P_expr2>
175	inline
176	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
177	_bz_MatExpr<P_expr2>, _bz_Add<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
178	operator+(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
179	{
180	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
181	_bz_MatExpr<P_expr2>,
182	_bz_Add<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
183
184	return _bz_MatExpr<T_expr>(T_expr(d1,
185	d2));
186	}
187
188	// _bz_MatExpr<P_expr1> + int
189	template<class P_expr1>
190	inline
191	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
192	_bz_MatExprConstant<int>, _bz_Add<_bz_typename P_expr1::T_numtype, int> > >
193	operator+(_bz_MatExpr<P_expr1> d1, int d2)
194	{
195	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
196	_bz_MatExprConstant<int>,
197	_bz_Add<_bz_typename P_expr1::T_numtype, int> > T_expr;
198
199	return _bz_MatExpr<T_expr>(T_expr(d1,
200	_bz_MatExprConstant<int>(d2)));
201	}
202
203	// _bz_MatExpr<P_expr1> + float
204	template<class P_expr1>
205	inline
206	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
207	_bz_MatExprConstant<float>, _bz_Add<_bz_typename P_expr1::T_numtype, float> > >
208	operator+(_bz_MatExpr<P_expr1> d1, float d2)
209	{
210	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
211	_bz_MatExprConstant<float>,
212	_bz_Add<_bz_typename P_expr1::T_numtype, float> > T_expr;
213
214	return _bz_MatExpr<T_expr>(T_expr(d1,
215	_bz_MatExprConstant<float>(d2)));
216	}
217
218	// _bz_MatExpr<P_expr1> + double
219	template<class P_expr1>
220	inline
221	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
222	_bz_MatExprConstant<double>, _bz_Add<_bz_typename P_expr1::T_numtype, double> > >
223	operator+(_bz_MatExpr<P_expr1> d1, double d2)
224	{
225	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
226	_bz_MatExprConstant<double>,
227	_bz_Add<_bz_typename P_expr1::T_numtype, double> > T_expr;
228
229	return _bz_MatExpr<T_expr>(T_expr(d1,
230	_bz_MatExprConstant<double>(d2)));
231	}
232
233	// _bz_MatExpr<P_expr1> + long double
234	template<class P_expr1>
235	inline
236	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
237	_bz_MatExprConstant<long double>, _bz_Add<_bz_typename P_expr1::T_numtype, long double> > >
238	operator+(_bz_MatExpr<P_expr1> d1, long double d2)
239	{
240	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
241	_bz_MatExprConstant<long double>,
242	_bz_Add<_bz_typename P_expr1::T_numtype, long double> > T_expr;
243
244	return _bz_MatExpr<T_expr>(T_expr(d1,
245	_bz_MatExprConstant<long double>(d2)));
246	}
247
248	#ifdef BZ_HAVE_COMPLEX
249	// _bz_MatExpr<P_expr1> + complex<float>
250	template<class P_expr1>
251	inline
252	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
253	_bz_MatExprConstant<complex<float> >, _bz_Add<_bz_typename P_expr1::T_numtype, complex<float> > > >
254	operator+(_bz_MatExpr<P_expr1> d1, complex<float> d2)
255	{
256	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
257	_bz_MatExprConstant<complex<float> >,
258	_bz_Add<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
259
260	return _bz_MatExpr<T_expr>(T_expr(d1,
261	_bz_MatExprConstant<complex<float> >(d2)));
262	}
263	#endif // BZ_HAVE_COMPLEX
264
265	#ifdef BZ_HAVE_COMPLEX
266	// _bz_MatExpr<P_expr1> + complex<double>
267	template<class P_expr1>
268	inline
269	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
270	_bz_MatExprConstant<complex<double> >, _bz_Add<_bz_typename P_expr1::T_numtype, complex<double> > > >
271	operator+(_bz_MatExpr<P_expr1> d1, complex<double> d2)
272	{
273	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
274	_bz_MatExprConstant<complex<double> >,
275	_bz_Add<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
276
277	return _bz_MatExpr<T_expr>(T_expr(d1,
278	_bz_MatExprConstant<complex<double> >(d2)));
279	}
280	#endif // BZ_HAVE_COMPLEX
281
282	#ifdef BZ_HAVE_COMPLEX
283	// _bz_MatExpr<P_expr1> + complex<long double>
284	template<class P_expr1>
285	inline
286	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
287	_bz_MatExprConstant<complex<long double> >, _bz_Add<_bz_typename P_expr1::T_numtype, complex<long double> > > >
288	operator+(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
289	{
290	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
291	_bz_MatExprConstant<complex<long double> >,
292	_bz_Add<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
293
294	return _bz_MatExpr<T_expr>(T_expr(d1,
295	_bz_MatExprConstant<complex<long double> >(d2)));
296	}
297	#endif // BZ_HAVE_COMPLEX
298
299	// int + Matrix<P_numtype2, P_struct2>
300	template<class P_numtype2, class P_struct2>
301	inline
302	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
303	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<int, P_numtype2> > >
304	operator+(int d1, const Matrix<P_numtype2, P_struct2>& d2)
305	{
306	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
307	_bz_MatrixRef<P_numtype2, P_struct2>,
308	_bz_Add<int, P_numtype2> > T_expr;
309
310	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
311	d2._bz_getRef()));
312	}
313
314	// int + _bz_MatExpr<P_expr2>
315	template<class P_expr2>
316	inline
317	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
318	_bz_MatExpr<P_expr2>, _bz_Add<int, _bz_typename P_expr2::T_numtype> > >
319	operator+(int d1, _bz_MatExpr<P_expr2> d2)
320	{
321	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
322	_bz_MatExpr<P_expr2>,
323	_bz_Add<int, _bz_typename P_expr2::T_numtype> > T_expr;
324
325	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
326	d2));
327	}
328
329	// float + Matrix<P_numtype2, P_struct2>
330	template<class P_numtype2, class P_struct2>
331	inline
332	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
333	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<float, P_numtype2> > >
334	operator+(float d1, const Matrix<P_numtype2, P_struct2>& d2)
335	{
336	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
337	_bz_MatrixRef<P_numtype2, P_struct2>,
338	_bz_Add<float, P_numtype2> > T_expr;
339
340	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
341	d2._bz_getRef()));
342	}
343
344	// float + _bz_MatExpr<P_expr2>
345	template<class P_expr2>
346	inline
347	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
348	_bz_MatExpr<P_expr2>, _bz_Add<float, _bz_typename P_expr2::T_numtype> > >
349	operator+(float d1, _bz_MatExpr<P_expr2> d2)
350	{
351	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
352	_bz_MatExpr<P_expr2>,
353	_bz_Add<float, _bz_typename P_expr2::T_numtype> > T_expr;
354
355	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
356	d2));
357	}
358
359	// double + Matrix<P_numtype2, P_struct2>
360	template<class P_numtype2, class P_struct2>
361	inline
362	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
363	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<double, P_numtype2> > >
364	operator+(double d1, const Matrix<P_numtype2, P_struct2>& d2)
365	{
366	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
367	_bz_MatrixRef<P_numtype2, P_struct2>,
368	_bz_Add<double, P_numtype2> > T_expr;
369
370	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
371	d2._bz_getRef()));
372	}
373
374	// double + _bz_MatExpr<P_expr2>
375	template<class P_expr2>
376	inline
377	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
378	_bz_MatExpr<P_expr2>, _bz_Add<double, _bz_typename P_expr2::T_numtype> > >
379	operator+(double d1, _bz_MatExpr<P_expr2> d2)
380	{
381	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
382	_bz_MatExpr<P_expr2>,
383	_bz_Add<double, _bz_typename P_expr2::T_numtype> > T_expr;
384
385	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
386	d2));
387	}
388
389	// long double + Matrix<P_numtype2, P_struct2>
390	template<class P_numtype2, class P_struct2>
391	inline
392	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
393	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<long double, P_numtype2> > >
394	operator+(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
395	{
396	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
397	_bz_MatrixRef<P_numtype2, P_struct2>,
398	_bz_Add<long double, P_numtype2> > T_expr;
399
400	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
401	d2._bz_getRef()));
402	}
403
404	// long double + _bz_MatExpr<P_expr2>
405	template<class P_expr2>
406	inline
407	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
408	_bz_MatExpr<P_expr2>, _bz_Add<long double, _bz_typename P_expr2::T_numtype> > >
409	operator+(long double d1, _bz_MatExpr<P_expr2> d2)
410	{
411	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
412	_bz_MatExpr<P_expr2>,
413	_bz_Add<long double, _bz_typename P_expr2::T_numtype> > T_expr;
414
415	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
416	d2));
417	}
418
419	#ifdef BZ_HAVE_COMPLEX
420	// complex<float> + Matrix<P_numtype2, P_struct2>
421	template<class P_numtype2, class P_struct2>
422	inline
423	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
424	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<complex<float> , P_numtype2> > >
425	operator+(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
426	{
427	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
428	_bz_MatrixRef<P_numtype2, P_struct2>,
429	_bz_Add<complex<float> , P_numtype2> > T_expr;
430
431	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
432	d2._bz_getRef()));
433	}
434	#endif // BZ_HAVE_COMPLEX
435
436	#ifdef BZ_HAVE_COMPLEX
437	// complex<float> + _bz_MatExpr<P_expr2>
438	template<class P_expr2>
439	inline
440	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
441	_bz_MatExpr<P_expr2>, _bz_Add<complex<float> , _bz_typename P_expr2::T_numtype> > >
442	operator+(complex<float> d1, _bz_MatExpr<P_expr2> d2)
443	{
444	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
445	_bz_MatExpr<P_expr2>,
446	_bz_Add<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
447
448	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
449	d2));
450	}
451	#endif // BZ_HAVE_COMPLEX
452
453	#ifdef BZ_HAVE_COMPLEX
454	// complex<double> + Matrix<P_numtype2, P_struct2>
455	template<class P_numtype2, class P_struct2>
456	inline
457	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
458	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<complex<double> , P_numtype2> > >
459	operator+(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
460	{
461	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
462	_bz_MatrixRef<P_numtype2, P_struct2>,
463	_bz_Add<complex<double> , P_numtype2> > T_expr;
464
465	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
466	d2._bz_getRef()));
467	}
468	#endif // BZ_HAVE_COMPLEX
469
470	#ifdef BZ_HAVE_COMPLEX
471	// complex<double> + _bz_MatExpr<P_expr2>
472	template<class P_expr2>
473	inline
474	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
475	_bz_MatExpr<P_expr2>, _bz_Add<complex<double> , _bz_typename P_expr2::T_numtype> > >
476	operator+(complex<double> d1, _bz_MatExpr<P_expr2> d2)
477	{
478	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
479	_bz_MatExpr<P_expr2>,
480	_bz_Add<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
481
482	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
483	d2));
484	}
485	#endif // BZ_HAVE_COMPLEX
486
487	#ifdef BZ_HAVE_COMPLEX
488	// complex<long double> + Matrix<P_numtype2, P_struct2>
489	template<class P_numtype2, class P_struct2>
490	inline
491	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
492	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Add<complex<long double> , P_numtype2> > >
493	operator+(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
494	{
495	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
496	_bz_MatrixRef<P_numtype2, P_struct2>,
497	_bz_Add<complex<long double> , P_numtype2> > T_expr;
498
499	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
500	d2._bz_getRef()));
501	}
502	#endif // BZ_HAVE_COMPLEX
503
504	#ifdef BZ_HAVE_COMPLEX
505	// complex<long double> + _bz_MatExpr<P_expr2>
506	template<class P_expr2>
507	inline
508	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
509	_bz_MatExpr<P_expr2>, _bz_Add<complex<long double> , _bz_typename P_expr2::T_numtype> > >
510	operator+(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
511	{
512	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
513	_bz_MatExpr<P_expr2>,
514	_bz_Add<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
515
516	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
517	d2));
518	}
519	#endif // BZ_HAVE_COMPLEX
520	/****************************************************************************
521	* Subtraction Operators
522	****************************************************************************/
523
524	// Matrix<P_numtype1, P_struct1> - Matrix<P_numtype2, P_struct2>
525	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
526	inline
527	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
528	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<P_numtype1, P_numtype2> > >
529	operator-(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
530	{
531	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
532	_bz_MatrixRef<P_numtype2, P_struct2>,
533	_bz_Subtract<P_numtype1, P_numtype2> > T_expr;
534
535	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
536	d2._bz_getRef()));
537	}
538
539	// Matrix<P_numtype1, P_struct1> - _bz_MatExpr<P_expr2>
540	template<class P_numtype1, class P_struct1, class P_expr2>
541	inline
542	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
543	_bz_MatExpr<P_expr2>, _bz_Subtract<P_numtype1, _bz_typename P_expr2::T_numtype> > >
544	operator-(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
545	{
546	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
547	_bz_MatExpr<P_expr2>,
548	_bz_Subtract<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
549
550	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
551	d2));
552	}
553
554	// Matrix<P_numtype1, P_struct1> - int
555	template<class P_numtype1, class P_struct1>
556	inline
557	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
558	_bz_MatExprConstant<int>, _bz_Subtract<P_numtype1, int> > >
559	operator-(const Matrix<P_numtype1, P_struct1>& d1, int d2)
560	{
561	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
562	_bz_MatExprConstant<int>,
563	_bz_Subtract<P_numtype1, int> > T_expr;
564
565	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
566	_bz_MatExprConstant<int>(d2)));
567	}
568
569	// Matrix<P_numtype1, P_struct1> - float
570	template<class P_numtype1, class P_struct1>
571	inline
572	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
573	_bz_MatExprConstant<float>, _bz_Subtract<P_numtype1, float> > >
574	operator-(const Matrix<P_numtype1, P_struct1>& d1, float d2)
575	{
576	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
577	_bz_MatExprConstant<float>,
578	_bz_Subtract<P_numtype1, float> > T_expr;
579
580	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
581	_bz_MatExprConstant<float>(d2)));
582	}
583
584	// Matrix<P_numtype1, P_struct1> - double
585	template<class P_numtype1, class P_struct1>
586	inline
587	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
588	_bz_MatExprConstant<double>, _bz_Subtract<P_numtype1, double> > >
589	operator-(const Matrix<P_numtype1, P_struct1>& d1, double d2)
590	{
591	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
592	_bz_MatExprConstant<double>,
593	_bz_Subtract<P_numtype1, double> > T_expr;
594
595	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
596	_bz_MatExprConstant<double>(d2)));
597	}
598
599	// Matrix<P_numtype1, P_struct1> - long double
600	template<class P_numtype1, class P_struct1>
601	inline
602	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
603	_bz_MatExprConstant<long double>, _bz_Subtract<P_numtype1, long double> > >
604	operator-(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
605	{
606	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
607	_bz_MatExprConstant<long double>,
608	_bz_Subtract<P_numtype1, long double> > T_expr;
609
610	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
611	_bz_MatExprConstant<long double>(d2)));
612	}
613
614	#ifdef BZ_HAVE_COMPLEX
615	// Matrix<P_numtype1, P_struct1> - complex<float>
616	template<class P_numtype1, class P_struct1>
617	inline
618	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
619	_bz_MatExprConstant<complex<float> >, _bz_Subtract<P_numtype1, complex<float> > > >
620	operator-(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
621	{
622	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
623	_bz_MatExprConstant<complex<float> >,
624	_bz_Subtract<P_numtype1, complex<float> > > T_expr;
625
626	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
627	_bz_MatExprConstant<complex<float> >(d2)));
628	}
629	#endif // BZ_HAVE_COMPLEX
630
631	#ifdef BZ_HAVE_COMPLEX
632	// Matrix<P_numtype1, P_struct1> - complex<double>
633	template<class P_numtype1, class P_struct1>
634	inline
635	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
636	_bz_MatExprConstant<complex<double> >, _bz_Subtract<P_numtype1, complex<double> > > >
637	operator-(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
638	{
639	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
640	_bz_MatExprConstant<complex<double> >,
641	_bz_Subtract<P_numtype1, complex<double> > > T_expr;
642
643	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
644	_bz_MatExprConstant<complex<double> >(d2)));
645	}
646	#endif // BZ_HAVE_COMPLEX
647
648	#ifdef BZ_HAVE_COMPLEX
649	// Matrix<P_numtype1, P_struct1> - complex<long double>
650	template<class P_numtype1, class P_struct1>
651	inline
652	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
653	_bz_MatExprConstant<complex<long double> >, _bz_Subtract<P_numtype1, complex<long double> > > >
654	operator-(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
655	{
656	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
657	_bz_MatExprConstant<complex<long double> >,
658	_bz_Subtract<P_numtype1, complex<long double> > > T_expr;
659
660	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
661	_bz_MatExprConstant<complex<long double> >(d2)));
662	}
663	#endif // BZ_HAVE_COMPLEX
664
665	// _bz_MatExpr<P_expr1> - Matrix<P_numtype2, P_struct2>
666	template<class P_expr1, class P_numtype2, class P_struct2>
667	inline
668	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
669	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<_bz_typename P_expr1::T_numtype, P_numtype2> > >
670	operator-(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
671	{
672	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
673	_bz_MatrixRef<P_numtype2, P_struct2>,
674	_bz_Subtract<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
675
676	return _bz_MatExpr<T_expr>(T_expr(d1,
677	d2._bz_getRef()));
678	}
679
680	// _bz_MatExpr<P_expr1> - _bz_MatExpr<P_expr2>
681	template<class P_expr1, class P_expr2>
682	inline
683	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
684	_bz_MatExpr<P_expr2>, _bz_Subtract<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
685	operator-(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
686	{
687	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
688	_bz_MatExpr<P_expr2>,
689	_bz_Subtract<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
690
691	return _bz_MatExpr<T_expr>(T_expr(d1,
692	d2));
693	}
694
695	// _bz_MatExpr<P_expr1> - int
696	template<class P_expr1>
697	inline
698	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
699	_bz_MatExprConstant<int>, _bz_Subtract<_bz_typename P_expr1::T_numtype, int> > >
700	operator-(_bz_MatExpr<P_expr1> d1, int d2)
701	{
702	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
703	_bz_MatExprConstant<int>,
704	_bz_Subtract<_bz_typename P_expr1::T_numtype, int> > T_expr;
705
706	return _bz_MatExpr<T_expr>(T_expr(d1,
707	_bz_MatExprConstant<int>(d2)));
708	}
709
710	// _bz_MatExpr<P_expr1> - float
711	template<class P_expr1>
712	inline
713	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
714	_bz_MatExprConstant<float>, _bz_Subtract<_bz_typename P_expr1::T_numtype, float> > >
715	operator-(_bz_MatExpr<P_expr1> d1, float d2)
716	{
717	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
718	_bz_MatExprConstant<float>,
719	_bz_Subtract<_bz_typename P_expr1::T_numtype, float> > T_expr;
720
721	return _bz_MatExpr<T_expr>(T_expr(d1,
722	_bz_MatExprConstant<float>(d2)));
723	}
724
725	// _bz_MatExpr<P_expr1> - double
726	template<class P_expr1>
727	inline
728	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
729	_bz_MatExprConstant<double>, _bz_Subtract<_bz_typename P_expr1::T_numtype, double> > >
730	operator-(_bz_MatExpr<P_expr1> d1, double d2)
731	{
732	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
733	_bz_MatExprConstant<double>,
734	_bz_Subtract<_bz_typename P_expr1::T_numtype, double> > T_expr;
735
736	return _bz_MatExpr<T_expr>(T_expr(d1,
737	_bz_MatExprConstant<double>(d2)));
738	}
739
740	// _bz_MatExpr<P_expr1> - long double
741	template<class P_expr1>
742	inline
743	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
744	_bz_MatExprConstant<long double>, _bz_Subtract<_bz_typename P_expr1::T_numtype, long double> > >
745	operator-(_bz_MatExpr<P_expr1> d1, long double d2)
746	{
747	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
748	_bz_MatExprConstant<long double>,
749	_bz_Subtract<_bz_typename P_expr1::T_numtype, long double> > T_expr;
750
751	return _bz_MatExpr<T_expr>(T_expr(d1,
752	_bz_MatExprConstant<long double>(d2)));
753	}
754
755	#ifdef BZ_HAVE_COMPLEX
756	// _bz_MatExpr<P_expr1> - complex<float>
757	template<class P_expr1>
758	inline
759	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
760	_bz_MatExprConstant<complex<float> >, _bz_Subtract<_bz_typename P_expr1::T_numtype, complex<float> > > >
761	operator-(_bz_MatExpr<P_expr1> d1, complex<float> d2)
762	{
763	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
764	_bz_MatExprConstant<complex<float> >,
765	_bz_Subtract<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
766
767	return _bz_MatExpr<T_expr>(T_expr(d1,
768	_bz_MatExprConstant<complex<float> >(d2)));
769	}
770	#endif // BZ_HAVE_COMPLEX
771
772	#ifdef BZ_HAVE_COMPLEX
773	// _bz_MatExpr<P_expr1> - complex<double>
774	template<class P_expr1>
775	inline
776	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
777	_bz_MatExprConstant<complex<double> >, _bz_Subtract<_bz_typename P_expr1::T_numtype, complex<double> > > >
778	operator-(_bz_MatExpr<P_expr1> d1, complex<double> d2)
779	{
780	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
781	_bz_MatExprConstant<complex<double> >,
782	_bz_Subtract<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
783
784	return _bz_MatExpr<T_expr>(T_expr(d1,
785	_bz_MatExprConstant<complex<double> >(d2)));
786	}
787	#endif // BZ_HAVE_COMPLEX
788
789	#ifdef BZ_HAVE_COMPLEX
790	// _bz_MatExpr<P_expr1> - complex<long double>
791	template<class P_expr1>
792	inline
793	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
794	_bz_MatExprConstant<complex<long double> >, _bz_Subtract<_bz_typename P_expr1::T_numtype, complex<long double> > > >
795	operator-(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
796	{
797	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
798	_bz_MatExprConstant<complex<long double> >,
799	_bz_Subtract<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
800
801	return _bz_MatExpr<T_expr>(T_expr(d1,
802	_bz_MatExprConstant<complex<long double> >(d2)));
803	}
804	#endif // BZ_HAVE_COMPLEX
805
806	// int - Matrix<P_numtype2, P_struct2>
807	template<class P_numtype2, class P_struct2>
808	inline
809	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
810	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<int, P_numtype2> > >
811	operator-(int d1, const Matrix<P_numtype2, P_struct2>& d2)
812	{
813	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
814	_bz_MatrixRef<P_numtype2, P_struct2>,
815	_bz_Subtract<int, P_numtype2> > T_expr;
816
817	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
818	d2._bz_getRef()));
819	}
820
821	// int - _bz_MatExpr<P_expr2>
822	template<class P_expr2>
823	inline
824	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
825	_bz_MatExpr<P_expr2>, _bz_Subtract<int, _bz_typename P_expr2::T_numtype> > >
826	operator-(int d1, _bz_MatExpr<P_expr2> d2)
827	{
828	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
829	_bz_MatExpr<P_expr2>,
830	_bz_Subtract<int, _bz_typename P_expr2::T_numtype> > T_expr;
831
832	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
833	d2));
834	}
835
836	// float - Matrix<P_numtype2, P_struct2>
837	template<class P_numtype2, class P_struct2>
838	inline
839	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
840	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<float, P_numtype2> > >
841	operator-(float d1, const Matrix<P_numtype2, P_struct2>& d2)
842	{
843	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
844	_bz_MatrixRef<P_numtype2, P_struct2>,
845	_bz_Subtract<float, P_numtype2> > T_expr;
846
847	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
848	d2._bz_getRef()));
849	}
850
851	// float - _bz_MatExpr<P_expr2>
852	template<class P_expr2>
853	inline
854	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
855	_bz_MatExpr<P_expr2>, _bz_Subtract<float, _bz_typename P_expr2::T_numtype> > >
856	operator-(float d1, _bz_MatExpr<P_expr2> d2)
857	{
858	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
859	_bz_MatExpr<P_expr2>,
860	_bz_Subtract<float, _bz_typename P_expr2::T_numtype> > T_expr;
861
862	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
863	d2));
864	}
865
866	// double - Matrix<P_numtype2, P_struct2>
867	template<class P_numtype2, class P_struct2>
868	inline
869	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
870	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<double, P_numtype2> > >
871	operator-(double d1, const Matrix<P_numtype2, P_struct2>& d2)
872	{
873	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
874	_bz_MatrixRef<P_numtype2, P_struct2>,
875	_bz_Subtract<double, P_numtype2> > T_expr;
876
877	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
878	d2._bz_getRef()));
879	}
880
881	// double - _bz_MatExpr<P_expr2>
882	template<class P_expr2>
883	inline
884	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
885	_bz_MatExpr<P_expr2>, _bz_Subtract<double, _bz_typename P_expr2::T_numtype> > >
886	operator-(double d1, _bz_MatExpr<P_expr2> d2)
887	{
888	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
889	_bz_MatExpr<P_expr2>,
890	_bz_Subtract<double, _bz_typename P_expr2::T_numtype> > T_expr;
891
892	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
893	d2));
894	}
895
896	// long double - Matrix<P_numtype2, P_struct2>
897	template<class P_numtype2, class P_struct2>
898	inline
899	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
900	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<long double, P_numtype2> > >
901	operator-(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
902	{
903	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
904	_bz_MatrixRef<P_numtype2, P_struct2>,
905	_bz_Subtract<long double, P_numtype2> > T_expr;
906
907	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
908	d2._bz_getRef()));
909	}
910
911	// long double - _bz_MatExpr<P_expr2>
912	template<class P_expr2>
913	inline
914	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
915	_bz_MatExpr<P_expr2>, _bz_Subtract<long double, _bz_typename P_expr2::T_numtype> > >
916	operator-(long double d1, _bz_MatExpr<P_expr2> d2)
917	{
918	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
919	_bz_MatExpr<P_expr2>,
920	_bz_Subtract<long double, _bz_typename P_expr2::T_numtype> > T_expr;
921
922	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
923	d2));
924	}
925
926	#ifdef BZ_HAVE_COMPLEX
927	// complex<float> - Matrix<P_numtype2, P_struct2>
928	template<class P_numtype2, class P_struct2>
929	inline
930	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
931	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<complex<float> , P_numtype2> > >
932	operator-(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
933	{
934	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
935	_bz_MatrixRef<P_numtype2, P_struct2>,
936	_bz_Subtract<complex<float> , P_numtype2> > T_expr;
937
938	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
939	d2._bz_getRef()));
940	}
941	#endif // BZ_HAVE_COMPLEX
942
943	#ifdef BZ_HAVE_COMPLEX
944	// complex<float> - _bz_MatExpr<P_expr2>
945	template<class P_expr2>
946	inline
947	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
948	_bz_MatExpr<P_expr2>, _bz_Subtract<complex<float> , _bz_typename P_expr2::T_numtype> > >
949	operator-(complex<float> d1, _bz_MatExpr<P_expr2> d2)
950	{
951	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
952	_bz_MatExpr<P_expr2>,
953	_bz_Subtract<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
954
955	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
956	d2));
957	}
958	#endif // BZ_HAVE_COMPLEX
959
960	#ifdef BZ_HAVE_COMPLEX
961	// complex<double> - Matrix<P_numtype2, P_struct2>
962	template<class P_numtype2, class P_struct2>
963	inline
964	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
965	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<complex<double> , P_numtype2> > >
966	operator-(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
967	{
968	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
969	_bz_MatrixRef<P_numtype2, P_struct2>,
970	_bz_Subtract<complex<double> , P_numtype2> > T_expr;
971
972	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
973	d2._bz_getRef()));
974	}
975	#endif // BZ_HAVE_COMPLEX
976
977	#ifdef BZ_HAVE_COMPLEX
978	// complex<double> - _bz_MatExpr<P_expr2>
979	template<class P_expr2>
980	inline
981	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
982	_bz_MatExpr<P_expr2>, _bz_Subtract<complex<double> , _bz_typename P_expr2::T_numtype> > >
983	operator-(complex<double> d1, _bz_MatExpr<P_expr2> d2)
984	{
985	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
986	_bz_MatExpr<P_expr2>,
987	_bz_Subtract<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
988
989	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
990	d2));
991	}
992	#endif // BZ_HAVE_COMPLEX
993
994	#ifdef BZ_HAVE_COMPLEX
995	// complex<long double> - Matrix<P_numtype2, P_struct2>
996	template<class P_numtype2, class P_struct2>
997	inline
998	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
999	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Subtract<complex<long double> , P_numtype2> > >
1000	operator-(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
1001	{
1002	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
1003	_bz_MatrixRef<P_numtype2, P_struct2>,
1004	_bz_Subtract<complex<long double> , P_numtype2> > T_expr;
1005
1006	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
1007	d2._bz_getRef()));
1008	}
1009	#endif // BZ_HAVE_COMPLEX
1010
1011	#ifdef BZ_HAVE_COMPLEX
1012	// complex<long double> - _bz_MatExpr<P_expr2>
1013	template<class P_expr2>
1014	inline
1015	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
1016	_bz_MatExpr<P_expr2>, _bz_Subtract<complex<long double> , _bz_typename P_expr2::T_numtype> > >
1017	operator-(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
1018	{
1019	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
1020	_bz_MatExpr<P_expr2>,
1021	_bz_Subtract<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
1022
1023	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
1024	d2));
1025	}
1026	#endif // BZ_HAVE_COMPLEX
1027	/****************************************************************************
1028	* Multiplication Operators
1029	****************************************************************************/
1030
1031	// Matrix<P_numtype1, P_struct1> * Matrix<P_numtype2, P_struct2>
1032	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
1033	inline
1034	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1035	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<P_numtype1, P_numtype2> > >
1036	operator*(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
1037	{
1038	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1039	_bz_MatrixRef<P_numtype2, P_struct2>,
1040	_bz_Multiply<P_numtype1, P_numtype2> > T_expr;
1041
1042	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1043	d2._bz_getRef()));
1044	}
1045
1046	// Matrix<P_numtype1, P_struct1> * _bz_MatExpr<P_expr2>
1047	template<class P_numtype1, class P_struct1, class P_expr2>
1048	inline
1049	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1050	_bz_MatExpr<P_expr2>, _bz_Multiply<P_numtype1, _bz_typename P_expr2::T_numtype> > >
1051	operator*(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
1052	{
1053	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1054	_bz_MatExpr<P_expr2>,
1055	_bz_Multiply<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
1056
1057	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1058	d2));
1059	}
1060
1061	// Matrix<P_numtype1, P_struct1> * int
1062	template<class P_numtype1, class P_struct1>
1063	inline
1064	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1065	_bz_MatExprConstant<int>, _bz_Multiply<P_numtype1, int> > >
1066	operator*(const Matrix<P_numtype1, P_struct1>& d1, int d2)
1067	{
1068	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1069	_bz_MatExprConstant<int>,
1070	_bz_Multiply<P_numtype1, int> > T_expr;
1071
1072	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1073	_bz_MatExprConstant<int>(d2)));
1074	}
1075
1076	// Matrix<P_numtype1, P_struct1> * float
1077	template<class P_numtype1, class P_struct1>
1078	inline
1079	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1080	_bz_MatExprConstant<float>, _bz_Multiply<P_numtype1, float> > >
1081	operator*(const Matrix<P_numtype1, P_struct1>& d1, float d2)
1082	{
1083	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1084	_bz_MatExprConstant<float>,
1085	_bz_Multiply<P_numtype1, float> > T_expr;
1086
1087	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1088	_bz_MatExprConstant<float>(d2)));
1089	}
1090
1091	// Matrix<P_numtype1, P_struct1> * double
1092	template<class P_numtype1, class P_struct1>
1093	inline
1094	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1095	_bz_MatExprConstant<double>, _bz_Multiply<P_numtype1, double> > >
1096	operator*(const Matrix<P_numtype1, P_struct1>& d1, double d2)
1097	{
1098	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1099	_bz_MatExprConstant<double>,
1100	_bz_Multiply<P_numtype1, double> > T_expr;
1101
1102	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1103	_bz_MatExprConstant<double>(d2)));
1104	}
1105
1106	// Matrix<P_numtype1, P_struct1> * long double
1107	template<class P_numtype1, class P_struct1>
1108	inline
1109	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1110	_bz_MatExprConstant<long double>, _bz_Multiply<P_numtype1, long double> > >
1111	operator*(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
1112	{
1113	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1114	_bz_MatExprConstant<long double>,
1115	_bz_Multiply<P_numtype1, long double> > T_expr;
1116
1117	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1118	_bz_MatExprConstant<long double>(d2)));
1119	}
1120
1121	#ifdef BZ_HAVE_COMPLEX
1122	// Matrix<P_numtype1, P_struct1> * complex<float>
1123	template<class P_numtype1, class P_struct1>
1124	inline
1125	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1126	_bz_MatExprConstant<complex<float> >, _bz_Multiply<P_numtype1, complex<float> > > >
1127	operator*(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
1128	{
1129	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1130	_bz_MatExprConstant<complex<float> >,
1131	_bz_Multiply<P_numtype1, complex<float> > > T_expr;
1132
1133	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1134	_bz_MatExprConstant<complex<float> >(d2)));
1135	}
1136	#endif // BZ_HAVE_COMPLEX
1137
1138	#ifdef BZ_HAVE_COMPLEX
1139	// Matrix<P_numtype1, P_struct1> * complex<double>
1140	template<class P_numtype1, class P_struct1>
1141	inline
1142	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1143	_bz_MatExprConstant<complex<double> >, _bz_Multiply<P_numtype1, complex<double> > > >
1144	operator*(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
1145	{
1146	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1147	_bz_MatExprConstant<complex<double> >,
1148	_bz_Multiply<P_numtype1, complex<double> > > T_expr;
1149
1150	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1151	_bz_MatExprConstant<complex<double> >(d2)));
1152	}
1153	#endif // BZ_HAVE_COMPLEX
1154
1155	#ifdef BZ_HAVE_COMPLEX
1156	// Matrix<P_numtype1, P_struct1> * complex<long double>
1157	template<class P_numtype1, class P_struct1>
1158	inline
1159	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1160	_bz_MatExprConstant<complex<long double> >, _bz_Multiply<P_numtype1, complex<long double> > > >
1161	operator*(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
1162	{
1163	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1164	_bz_MatExprConstant<complex<long double> >,
1165	_bz_Multiply<P_numtype1, complex<long double> > > T_expr;
1166
1167	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1168	_bz_MatExprConstant<complex<long double> >(d2)));
1169	}
1170	#endif // BZ_HAVE_COMPLEX
1171
1172	// _bz_MatExpr<P_expr1> * Matrix<P_numtype2, P_struct2>
1173	template<class P_expr1, class P_numtype2, class P_struct2>
1174	inline
1175	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1176	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<_bz_typename P_expr1::T_numtype, P_numtype2> > >
1177	operator*(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
1178	{
1179	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1180	_bz_MatrixRef<P_numtype2, P_struct2>,
1181	_bz_Multiply<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
1182
1183	return _bz_MatExpr<T_expr>(T_expr(d1,
1184	d2._bz_getRef()));
1185	}
1186
1187	// _bz_MatExpr<P_expr1> * _bz_MatExpr<P_expr2>
1188	template<class P_expr1, class P_expr2>
1189	inline
1190	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1191	_bz_MatExpr<P_expr2>, _bz_Multiply<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
1192	operator*(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
1193	{
1194	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1195	_bz_MatExpr<P_expr2>,
1196	_bz_Multiply<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
1197
1198	return _bz_MatExpr<T_expr>(T_expr(d1,
1199	d2));
1200	}
1201
1202	// _bz_MatExpr<P_expr1> * int
1203	template<class P_expr1>
1204	inline
1205	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1206	_bz_MatExprConstant<int>, _bz_Multiply<_bz_typename P_expr1::T_numtype, int> > >
1207	operator*(_bz_MatExpr<P_expr1> d1, int d2)
1208	{
1209	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1210	_bz_MatExprConstant<int>,
1211	_bz_Multiply<_bz_typename P_expr1::T_numtype, int> > T_expr;
1212
1213	return _bz_MatExpr<T_expr>(T_expr(d1,
1214	_bz_MatExprConstant<int>(d2)));
1215	}
1216
1217	// _bz_MatExpr<P_expr1> * float
1218	template<class P_expr1>
1219	inline
1220	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1221	_bz_MatExprConstant<float>, _bz_Multiply<_bz_typename P_expr1::T_numtype, float> > >
1222	operator*(_bz_MatExpr<P_expr1> d1, float d2)
1223	{
1224	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1225	_bz_MatExprConstant<float>,
1226	_bz_Multiply<_bz_typename P_expr1::T_numtype, float> > T_expr;
1227
1228	return _bz_MatExpr<T_expr>(T_expr(d1,
1229	_bz_MatExprConstant<float>(d2)));
1230	}
1231
1232	// _bz_MatExpr<P_expr1> * double
1233	template<class P_expr1>
1234	inline
1235	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1236	_bz_MatExprConstant<double>, _bz_Multiply<_bz_typename P_expr1::T_numtype, double> > >
1237	operator*(_bz_MatExpr<P_expr1> d1, double d2)
1238	{
1239	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1240	_bz_MatExprConstant<double>,
1241	_bz_Multiply<_bz_typename P_expr1::T_numtype, double> > T_expr;
1242
1243	return _bz_MatExpr<T_expr>(T_expr(d1,
1244	_bz_MatExprConstant<double>(d2)));
1245	}
1246
1247	// _bz_MatExpr<P_expr1> * long double
1248	template<class P_expr1>
1249	inline
1250	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1251	_bz_MatExprConstant<long double>, _bz_Multiply<_bz_typename P_expr1::T_numtype, long double> > >
1252	operator*(_bz_MatExpr<P_expr1> d1, long double d2)
1253	{
1254	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1255	_bz_MatExprConstant<long double>,
1256	_bz_Multiply<_bz_typename P_expr1::T_numtype, long double> > T_expr;
1257
1258	return _bz_MatExpr<T_expr>(T_expr(d1,
1259	_bz_MatExprConstant<long double>(d2)));
1260	}
1261
1262	#ifdef BZ_HAVE_COMPLEX
1263	// _bz_MatExpr<P_expr1> * complex<float>
1264	template<class P_expr1>
1265	inline
1266	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1267	_bz_MatExprConstant<complex<float> >, _bz_Multiply<_bz_typename P_expr1::T_numtype, complex<float> > > >
1268	operator*(_bz_MatExpr<P_expr1> d1, complex<float> d2)
1269	{
1270	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1271	_bz_MatExprConstant<complex<float> >,
1272	_bz_Multiply<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
1273
1274	return _bz_MatExpr<T_expr>(T_expr(d1,
1275	_bz_MatExprConstant<complex<float> >(d2)));
1276	}
1277	#endif // BZ_HAVE_COMPLEX
1278
1279	#ifdef BZ_HAVE_COMPLEX
1280	// _bz_MatExpr<P_expr1> * complex<double>
1281	template<class P_expr1>
1282	inline
1283	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1284	_bz_MatExprConstant<complex<double> >, _bz_Multiply<_bz_typename P_expr1::T_numtype, complex<double> > > >
1285	operator*(_bz_MatExpr<P_expr1> d1, complex<double> d2)
1286	{
1287	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1288	_bz_MatExprConstant<complex<double> >,
1289	_bz_Multiply<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
1290
1291	return _bz_MatExpr<T_expr>(T_expr(d1,
1292	_bz_MatExprConstant<complex<double> >(d2)));
1293	}
1294	#endif // BZ_HAVE_COMPLEX
1295
1296	#ifdef BZ_HAVE_COMPLEX
1297	// _bz_MatExpr<P_expr1> * complex<long double>
1298	template<class P_expr1>
1299	inline
1300	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1301	_bz_MatExprConstant<complex<long double> >, _bz_Multiply<_bz_typename P_expr1::T_numtype, complex<long double> > > >
1302	operator*(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
1303	{
1304	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1305	_bz_MatExprConstant<complex<long double> >,
1306	_bz_Multiply<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
1307
1308	return _bz_MatExpr<T_expr>(T_expr(d1,
1309	_bz_MatExprConstant<complex<long double> >(d2)));
1310	}
1311	#endif // BZ_HAVE_COMPLEX
1312
1313	// int * Matrix<P_numtype2, P_struct2>
1314	template<class P_numtype2, class P_struct2>
1315	inline
1316	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
1317	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<int, P_numtype2> > >
1318	operator*(int d1, const Matrix<P_numtype2, P_struct2>& d2)
1319	{
1320	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
1321	_bz_MatrixRef<P_numtype2, P_struct2>,
1322	_bz_Multiply<int, P_numtype2> > T_expr;
1323
1324	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
1325	d2._bz_getRef()));
1326	}
1327
1328	// int * _bz_MatExpr<P_expr2>
1329	template<class P_expr2>
1330	inline
1331	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
1332	_bz_MatExpr<P_expr2>, _bz_Multiply<int, _bz_typename P_expr2::T_numtype> > >
1333	operator*(int d1, _bz_MatExpr<P_expr2> d2)
1334	{
1335	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
1336	_bz_MatExpr<P_expr2>,
1337	_bz_Multiply<int, _bz_typename P_expr2::T_numtype> > T_expr;
1338
1339	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
1340	d2));
1341	}
1342
1343	// float * Matrix<P_numtype2, P_struct2>
1344	template<class P_numtype2, class P_struct2>
1345	inline
1346	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
1347	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<float, P_numtype2> > >
1348	operator*(float d1, const Matrix<P_numtype2, P_struct2>& d2)
1349	{
1350	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
1351	_bz_MatrixRef<P_numtype2, P_struct2>,
1352	_bz_Multiply<float, P_numtype2> > T_expr;
1353
1354	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
1355	d2._bz_getRef()));
1356	}
1357
1358	// float * _bz_MatExpr<P_expr2>
1359	template<class P_expr2>
1360	inline
1361	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
1362	_bz_MatExpr<P_expr2>, _bz_Multiply<float, _bz_typename P_expr2::T_numtype> > >
1363	operator*(float d1, _bz_MatExpr<P_expr2> d2)
1364	{
1365	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
1366	_bz_MatExpr<P_expr2>,
1367	_bz_Multiply<float, _bz_typename P_expr2::T_numtype> > T_expr;
1368
1369	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
1370	d2));
1371	}
1372
1373	// double * Matrix<P_numtype2, P_struct2>
1374	template<class P_numtype2, class P_struct2>
1375	inline
1376	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
1377	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<double, P_numtype2> > >
1378	operator*(double d1, const Matrix<P_numtype2, P_struct2>& d2)
1379	{
1380	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
1381	_bz_MatrixRef<P_numtype2, P_struct2>,
1382	_bz_Multiply<double, P_numtype2> > T_expr;
1383
1384	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
1385	d2._bz_getRef()));
1386	}
1387
1388	// double * _bz_MatExpr<P_expr2>
1389	template<class P_expr2>
1390	inline
1391	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
1392	_bz_MatExpr<P_expr2>, _bz_Multiply<double, _bz_typename P_expr2::T_numtype> > >
1393	operator*(double d1, _bz_MatExpr<P_expr2> d2)
1394	{
1395	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
1396	_bz_MatExpr<P_expr2>,
1397	_bz_Multiply<double, _bz_typename P_expr2::T_numtype> > T_expr;
1398
1399	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
1400	d2));
1401	}
1402
1403	// long double * Matrix<P_numtype2, P_struct2>
1404	template<class P_numtype2, class P_struct2>
1405	inline
1406	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
1407	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<long double, P_numtype2> > >
1408	operator*(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
1409	{
1410	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
1411	_bz_MatrixRef<P_numtype2, P_struct2>,
1412	_bz_Multiply<long double, P_numtype2> > T_expr;
1413
1414	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
1415	d2._bz_getRef()));
1416	}
1417
1418	// long double * _bz_MatExpr<P_expr2>
1419	template<class P_expr2>
1420	inline
1421	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
1422	_bz_MatExpr<P_expr2>, _bz_Multiply<long double, _bz_typename P_expr2::T_numtype> > >
1423	operator*(long double d1, _bz_MatExpr<P_expr2> d2)
1424	{
1425	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
1426	_bz_MatExpr<P_expr2>,
1427	_bz_Multiply<long double, _bz_typename P_expr2::T_numtype> > T_expr;
1428
1429	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
1430	d2));
1431	}
1432
1433	#ifdef BZ_HAVE_COMPLEX
1434	// complex<float> * Matrix<P_numtype2, P_struct2>
1435	template<class P_numtype2, class P_struct2>
1436	inline
1437	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1438	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<complex<float> , P_numtype2> > >
1439	operator*(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
1440	{
1441	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1442	_bz_MatrixRef<P_numtype2, P_struct2>,
1443	_bz_Multiply<complex<float> , P_numtype2> > T_expr;
1444
1445	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
1446	d2._bz_getRef()));
1447	}
1448	#endif // BZ_HAVE_COMPLEX
1449
1450	#ifdef BZ_HAVE_COMPLEX
1451	// complex<float> * _bz_MatExpr<P_expr2>
1452	template<class P_expr2>
1453	inline
1454	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1455	_bz_MatExpr<P_expr2>, _bz_Multiply<complex<float> , _bz_typename P_expr2::T_numtype> > >
1456	operator*(complex<float> d1, _bz_MatExpr<P_expr2> d2)
1457	{
1458	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1459	_bz_MatExpr<P_expr2>,
1460	_bz_Multiply<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
1461
1462	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
1463	d2));
1464	}
1465	#endif // BZ_HAVE_COMPLEX
1466
1467	#ifdef BZ_HAVE_COMPLEX
1468	// complex<double> * Matrix<P_numtype2, P_struct2>
1469	template<class P_numtype2, class P_struct2>
1470	inline
1471	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
1472	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<complex<double> , P_numtype2> > >
1473	operator*(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
1474	{
1475	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
1476	_bz_MatrixRef<P_numtype2, P_struct2>,
1477	_bz_Multiply<complex<double> , P_numtype2> > T_expr;
1478
1479	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
1480	d2._bz_getRef()));
1481	}
1482	#endif // BZ_HAVE_COMPLEX
1483
1484	#ifdef BZ_HAVE_COMPLEX
1485	// complex<double> * _bz_MatExpr<P_expr2>
1486	template<class P_expr2>
1487	inline
1488	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
1489	_bz_MatExpr<P_expr2>, _bz_Multiply<complex<double> , _bz_typename P_expr2::T_numtype> > >
1490	operator*(complex<double> d1, _bz_MatExpr<P_expr2> d2)
1491	{
1492	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
1493	_bz_MatExpr<P_expr2>,
1494	_bz_Multiply<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
1495
1496	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
1497	d2));
1498	}
1499	#endif // BZ_HAVE_COMPLEX
1500
1501	#ifdef BZ_HAVE_COMPLEX
1502	// complex<long double> * Matrix<P_numtype2, P_struct2>
1503	template<class P_numtype2, class P_struct2>
1504	inline
1505	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
1506	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Multiply<complex<long double> , P_numtype2> > >
1507	operator*(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
1508	{
1509	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
1510	_bz_MatrixRef<P_numtype2, P_struct2>,
1511	_bz_Multiply<complex<long double> , P_numtype2> > T_expr;
1512
1513	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
1514	d2._bz_getRef()));
1515	}
1516	#endif // BZ_HAVE_COMPLEX
1517
1518	#ifdef BZ_HAVE_COMPLEX
1519	// complex<long double> * _bz_MatExpr<P_expr2>
1520	template<class P_expr2>
1521	inline
1522	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
1523	_bz_MatExpr<P_expr2>, _bz_Multiply<complex<long double> , _bz_typename P_expr2::T_numtype> > >
1524	operator*(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
1525	{
1526	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
1527	_bz_MatExpr<P_expr2>,
1528	_bz_Multiply<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
1529
1530	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
1531	d2));
1532	}
1533	#endif // BZ_HAVE_COMPLEX
1534	/****************************************************************************
1535	* Division Operators
1536	****************************************************************************/
1537
1538	// Matrix<P_numtype1, P_struct1> / Matrix<P_numtype2, P_struct2>
1539	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
1540	inline
1541	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1542	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<P_numtype1, P_numtype2> > >
1543	operator/(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
1544	{
1545	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1546	_bz_MatrixRef<P_numtype2, P_struct2>,
1547	_bz_Divide<P_numtype1, P_numtype2> > T_expr;
1548
1549	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1550	d2._bz_getRef()));
1551	}
1552
1553	// Matrix<P_numtype1, P_struct1> / _bz_MatExpr<P_expr2>
1554	template<class P_numtype1, class P_struct1, class P_expr2>
1555	inline
1556	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1557	_bz_MatExpr<P_expr2>, _bz_Divide<P_numtype1, _bz_typename P_expr2::T_numtype> > >
1558	operator/(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
1559	{
1560	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1561	_bz_MatExpr<P_expr2>,
1562	_bz_Divide<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
1563
1564	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1565	d2));
1566	}
1567
1568	// Matrix<P_numtype1, P_struct1> / int
1569	template<class P_numtype1, class P_struct1>
1570	inline
1571	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1572	_bz_MatExprConstant<int>, _bz_Divide<P_numtype1, int> > >
1573	operator/(const Matrix<P_numtype1, P_struct1>& d1, int d2)
1574	{
1575	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1576	_bz_MatExprConstant<int>,
1577	_bz_Divide<P_numtype1, int> > T_expr;
1578
1579	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1580	_bz_MatExprConstant<int>(d2)));
1581	}
1582
1583	// Matrix<P_numtype1, P_struct1> / float
1584	template<class P_numtype1, class P_struct1>
1585	inline
1586	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1587	_bz_MatExprConstant<float>, _bz_Divide<P_numtype1, float> > >
1588	operator/(const Matrix<P_numtype1, P_struct1>& d1, float d2)
1589	{
1590	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1591	_bz_MatExprConstant<float>,
1592	_bz_Divide<P_numtype1, float> > T_expr;
1593
1594	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1595	_bz_MatExprConstant<float>(d2)));
1596	}
1597
1598	// Matrix<P_numtype1, P_struct1> / double
1599	template<class P_numtype1, class P_struct1>
1600	inline
1601	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1602	_bz_MatExprConstant<double>, _bz_Divide<P_numtype1, double> > >
1603	operator/(const Matrix<P_numtype1, P_struct1>& d1, double d2)
1604	{
1605	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1606	_bz_MatExprConstant<double>,
1607	_bz_Divide<P_numtype1, double> > T_expr;
1608
1609	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1610	_bz_MatExprConstant<double>(d2)));
1611	}
1612
1613	// Matrix<P_numtype1, P_struct1> / long double
1614	template<class P_numtype1, class P_struct1>
1615	inline
1616	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1617	_bz_MatExprConstant<long double>, _bz_Divide<P_numtype1, long double> > >
1618	operator/(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
1619	{
1620	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1621	_bz_MatExprConstant<long double>,
1622	_bz_Divide<P_numtype1, long double> > T_expr;
1623
1624	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1625	_bz_MatExprConstant<long double>(d2)));
1626	}
1627
1628	#ifdef BZ_HAVE_COMPLEX
1629	// Matrix<P_numtype1, P_struct1> / complex<float>
1630	template<class P_numtype1, class P_struct1>
1631	inline
1632	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1633	_bz_MatExprConstant<complex<float> >, _bz_Divide<P_numtype1, complex<float> > > >
1634	operator/(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
1635	{
1636	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1637	_bz_MatExprConstant<complex<float> >,
1638	_bz_Divide<P_numtype1, complex<float> > > T_expr;
1639
1640	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1641	_bz_MatExprConstant<complex<float> >(d2)));
1642	}
1643	#endif // BZ_HAVE_COMPLEX
1644
1645	#ifdef BZ_HAVE_COMPLEX
1646	// Matrix<P_numtype1, P_struct1> / complex<double>
1647	template<class P_numtype1, class P_struct1>
1648	inline
1649	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1650	_bz_MatExprConstant<complex<double> >, _bz_Divide<P_numtype1, complex<double> > > >
1651	operator/(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
1652	{
1653	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1654	_bz_MatExprConstant<complex<double> >,
1655	_bz_Divide<P_numtype1, complex<double> > > T_expr;
1656
1657	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1658	_bz_MatExprConstant<complex<double> >(d2)));
1659	}
1660	#endif // BZ_HAVE_COMPLEX
1661
1662	#ifdef BZ_HAVE_COMPLEX
1663	// Matrix<P_numtype1, P_struct1> / complex<long double>
1664	template<class P_numtype1, class P_struct1>
1665	inline
1666	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1667	_bz_MatExprConstant<complex<long double> >, _bz_Divide<P_numtype1, complex<long double> > > >
1668	operator/(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
1669	{
1670	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
1671	_bz_MatExprConstant<complex<long double> >,
1672	_bz_Divide<P_numtype1, complex<long double> > > T_expr;
1673
1674	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
1675	_bz_MatExprConstant<complex<long double> >(d2)));
1676	}
1677	#endif // BZ_HAVE_COMPLEX
1678
1679	// _bz_MatExpr<P_expr1> / Matrix<P_numtype2, P_struct2>
1680	template<class P_expr1, class P_numtype2, class P_struct2>
1681	inline
1682	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1683	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<_bz_typename P_expr1::T_numtype, P_numtype2> > >
1684	operator/(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
1685	{
1686	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1687	_bz_MatrixRef<P_numtype2, P_struct2>,
1688	_bz_Divide<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
1689
1690	return _bz_MatExpr<T_expr>(T_expr(d1,
1691	d2._bz_getRef()));
1692	}
1693
1694	// _bz_MatExpr<P_expr1> / _bz_MatExpr<P_expr2>
1695	template<class P_expr1, class P_expr2>
1696	inline
1697	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1698	_bz_MatExpr<P_expr2>, _bz_Divide<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
1699	operator/(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
1700	{
1701	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1702	_bz_MatExpr<P_expr2>,
1703	_bz_Divide<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
1704
1705	return _bz_MatExpr<T_expr>(T_expr(d1,
1706	d2));
1707	}
1708
1709	// _bz_MatExpr<P_expr1> / int
1710	template<class P_expr1>
1711	inline
1712	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1713	_bz_MatExprConstant<int>, _bz_Divide<_bz_typename P_expr1::T_numtype, int> > >
1714	operator/(_bz_MatExpr<P_expr1> d1, int d2)
1715	{
1716	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1717	_bz_MatExprConstant<int>,
1718	_bz_Divide<_bz_typename P_expr1::T_numtype, int> > T_expr;
1719
1720	return _bz_MatExpr<T_expr>(T_expr(d1,
1721	_bz_MatExprConstant<int>(d2)));
1722	}
1723
1724	// _bz_MatExpr<P_expr1> / float
1725	template<class P_expr1>
1726	inline
1727	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1728	_bz_MatExprConstant<float>, _bz_Divide<_bz_typename P_expr1::T_numtype, float> > >
1729	operator/(_bz_MatExpr<P_expr1> d1, float d2)
1730	{
1731	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1732	_bz_MatExprConstant<float>,
1733	_bz_Divide<_bz_typename P_expr1::T_numtype, float> > T_expr;
1734
1735	return _bz_MatExpr<T_expr>(T_expr(d1,
1736	_bz_MatExprConstant<float>(d2)));
1737	}
1738
1739	// _bz_MatExpr<P_expr1> / double
1740	template<class P_expr1>
1741	inline
1742	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1743	_bz_MatExprConstant<double>, _bz_Divide<_bz_typename P_expr1::T_numtype, double> > >
1744	operator/(_bz_MatExpr<P_expr1> d1, double d2)
1745	{
1746	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1747	_bz_MatExprConstant<double>,
1748	_bz_Divide<_bz_typename P_expr1::T_numtype, double> > T_expr;
1749
1750	return _bz_MatExpr<T_expr>(T_expr(d1,
1751	_bz_MatExprConstant<double>(d2)));
1752	}
1753
1754	// _bz_MatExpr<P_expr1> / long double
1755	template<class P_expr1>
1756	inline
1757	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1758	_bz_MatExprConstant<long double>, _bz_Divide<_bz_typename P_expr1::T_numtype, long double> > >
1759	operator/(_bz_MatExpr<P_expr1> d1, long double d2)
1760	{
1761	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1762	_bz_MatExprConstant<long double>,
1763	_bz_Divide<_bz_typename P_expr1::T_numtype, long double> > T_expr;
1764
1765	return _bz_MatExpr<T_expr>(T_expr(d1,
1766	_bz_MatExprConstant<long double>(d2)));
1767	}
1768
1769	#ifdef BZ_HAVE_COMPLEX
1770	// _bz_MatExpr<P_expr1> / complex<float>
1771	template<class P_expr1>
1772	inline
1773	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1774	_bz_MatExprConstant<complex<float> >, _bz_Divide<_bz_typename P_expr1::T_numtype, complex<float> > > >
1775	operator/(_bz_MatExpr<P_expr1> d1, complex<float> d2)
1776	{
1777	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1778	_bz_MatExprConstant<complex<float> >,
1779	_bz_Divide<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
1780
1781	return _bz_MatExpr<T_expr>(T_expr(d1,
1782	_bz_MatExprConstant<complex<float> >(d2)));
1783	}
1784	#endif // BZ_HAVE_COMPLEX
1785
1786	#ifdef BZ_HAVE_COMPLEX
1787	// _bz_MatExpr<P_expr1> / complex<double>
1788	template<class P_expr1>
1789	inline
1790	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1791	_bz_MatExprConstant<complex<double> >, _bz_Divide<_bz_typename P_expr1::T_numtype, complex<double> > > >
1792	operator/(_bz_MatExpr<P_expr1> d1, complex<double> d2)
1793	{
1794	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1795	_bz_MatExprConstant<complex<double> >,
1796	_bz_Divide<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
1797
1798	return _bz_MatExpr<T_expr>(T_expr(d1,
1799	_bz_MatExprConstant<complex<double> >(d2)));
1800	}
1801	#endif // BZ_HAVE_COMPLEX
1802
1803	#ifdef BZ_HAVE_COMPLEX
1804	// _bz_MatExpr<P_expr1> / complex<long double>
1805	template<class P_expr1>
1806	inline
1807	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
1808	_bz_MatExprConstant<complex<long double> >, _bz_Divide<_bz_typename P_expr1::T_numtype, complex<long double> > > >
1809	operator/(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
1810	{
1811	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
1812	_bz_MatExprConstant<complex<long double> >,
1813	_bz_Divide<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
1814
1815	return _bz_MatExpr<T_expr>(T_expr(d1,
1816	_bz_MatExprConstant<complex<long double> >(d2)));
1817	}
1818	#endif // BZ_HAVE_COMPLEX
1819
1820	// int / Matrix<P_numtype2, P_struct2>
1821	template<class P_numtype2, class P_struct2>
1822	inline
1823	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
1824	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<int, P_numtype2> > >
1825	operator/(int d1, const Matrix<P_numtype2, P_struct2>& d2)
1826	{
1827	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
1828	_bz_MatrixRef<P_numtype2, P_struct2>,
1829	_bz_Divide<int, P_numtype2> > T_expr;
1830
1831	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
1832	d2._bz_getRef()));
1833	}
1834
1835	// int / _bz_MatExpr<P_expr2>
1836	template<class P_expr2>
1837	inline
1838	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
1839	_bz_MatExpr<P_expr2>, _bz_Divide<int, _bz_typename P_expr2::T_numtype> > >
1840	operator/(int d1, _bz_MatExpr<P_expr2> d2)
1841	{
1842	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
1843	_bz_MatExpr<P_expr2>,
1844	_bz_Divide<int, _bz_typename P_expr2::T_numtype> > T_expr;
1845
1846	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
1847	d2));
1848	}
1849
1850	// float / Matrix<P_numtype2, P_struct2>
1851	template<class P_numtype2, class P_struct2>
1852	inline
1853	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
1854	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<float, P_numtype2> > >
1855	operator/(float d1, const Matrix<P_numtype2, P_struct2>& d2)
1856	{
1857	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
1858	_bz_MatrixRef<P_numtype2, P_struct2>,
1859	_bz_Divide<float, P_numtype2> > T_expr;
1860
1861	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
1862	d2._bz_getRef()));
1863	}
1864
1865	// float / _bz_MatExpr<P_expr2>
1866	template<class P_expr2>
1867	inline
1868	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
1869	_bz_MatExpr<P_expr2>, _bz_Divide<float, _bz_typename P_expr2::T_numtype> > >
1870	operator/(float d1, _bz_MatExpr<P_expr2> d2)
1871	{
1872	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
1873	_bz_MatExpr<P_expr2>,
1874	_bz_Divide<float, _bz_typename P_expr2::T_numtype> > T_expr;
1875
1876	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
1877	d2));
1878	}
1879
1880	// double / Matrix<P_numtype2, P_struct2>
1881	template<class P_numtype2, class P_struct2>
1882	inline
1883	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
1884	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<double, P_numtype2> > >
1885	operator/(double d1, const Matrix<P_numtype2, P_struct2>& d2)
1886	{
1887	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
1888	_bz_MatrixRef<P_numtype2, P_struct2>,
1889	_bz_Divide<double, P_numtype2> > T_expr;
1890
1891	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
1892	d2._bz_getRef()));
1893	}
1894
1895	// double / _bz_MatExpr<P_expr2>
1896	template<class P_expr2>
1897	inline
1898	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
1899	_bz_MatExpr<P_expr2>, _bz_Divide<double, _bz_typename P_expr2::T_numtype> > >
1900	operator/(double d1, _bz_MatExpr<P_expr2> d2)
1901	{
1902	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
1903	_bz_MatExpr<P_expr2>,
1904	_bz_Divide<double, _bz_typename P_expr2::T_numtype> > T_expr;
1905
1906	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
1907	d2));
1908	}
1909
1910	// long double / Matrix<P_numtype2, P_struct2>
1911	template<class P_numtype2, class P_struct2>
1912	inline
1913	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
1914	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<long double, P_numtype2> > >
1915	operator/(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
1916	{
1917	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
1918	_bz_MatrixRef<P_numtype2, P_struct2>,
1919	_bz_Divide<long double, P_numtype2> > T_expr;
1920
1921	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
1922	d2._bz_getRef()));
1923	}
1924
1925	// long double / _bz_MatExpr<P_expr2>
1926	template<class P_expr2>
1927	inline
1928	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
1929	_bz_MatExpr<P_expr2>, _bz_Divide<long double, _bz_typename P_expr2::T_numtype> > >
1930	operator/(long double d1, _bz_MatExpr<P_expr2> d2)
1931	{
1932	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
1933	_bz_MatExpr<P_expr2>,
1934	_bz_Divide<long double, _bz_typename P_expr2::T_numtype> > T_expr;
1935
1936	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
1937	d2));
1938	}
1939
1940	#ifdef BZ_HAVE_COMPLEX
1941	// complex<float> / Matrix<P_numtype2, P_struct2>
1942	template<class P_numtype2, class P_struct2>
1943	inline
1944	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1945	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<complex<float> , P_numtype2> > >
1946	operator/(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
1947	{
1948	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1949	_bz_MatrixRef<P_numtype2, P_struct2>,
1950	_bz_Divide<complex<float> , P_numtype2> > T_expr;
1951
1952	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
1953	d2._bz_getRef()));
1954	}
1955	#endif // BZ_HAVE_COMPLEX
1956
1957	#ifdef BZ_HAVE_COMPLEX
1958	// complex<float> / _bz_MatExpr<P_expr2>
1959	template<class P_expr2>
1960	inline
1961	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1962	_bz_MatExpr<P_expr2>, _bz_Divide<complex<float> , _bz_typename P_expr2::T_numtype> > >
1963	operator/(complex<float> d1, _bz_MatExpr<P_expr2> d2)
1964	{
1965	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
1966	_bz_MatExpr<P_expr2>,
1967	_bz_Divide<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
1968
1969	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
1970	d2));
1971	}
1972	#endif // BZ_HAVE_COMPLEX
1973
1974	#ifdef BZ_HAVE_COMPLEX
1975	// complex<double> / Matrix<P_numtype2, P_struct2>
1976	template<class P_numtype2, class P_struct2>
1977	inline
1978	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
1979	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<complex<double> , P_numtype2> > >
1980	operator/(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
1981	{
1982	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
1983	_bz_MatrixRef<P_numtype2, P_struct2>,
1984	_bz_Divide<complex<double> , P_numtype2> > T_expr;
1985
1986	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
1987	d2._bz_getRef()));
1988	}
1989	#endif // BZ_HAVE_COMPLEX
1990
1991	#ifdef BZ_HAVE_COMPLEX
1992	// complex<double> / _bz_MatExpr<P_expr2>
1993	template<class P_expr2>
1994	inline
1995	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
1996	_bz_MatExpr<P_expr2>, _bz_Divide<complex<double> , _bz_typename P_expr2::T_numtype> > >
1997	operator/(complex<double> d1, _bz_MatExpr<P_expr2> d2)
1998	{
1999	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
2000	_bz_MatExpr<P_expr2>,
2001	_bz_Divide<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
2002
2003	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
2004	d2));
2005	}
2006	#endif // BZ_HAVE_COMPLEX
2007
2008	#ifdef BZ_HAVE_COMPLEX
2009	// complex<long double> / Matrix<P_numtype2, P_struct2>
2010	template<class P_numtype2, class P_struct2>
2011	inline
2012	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
2013	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Divide<complex<long double> , P_numtype2> > >
2014	operator/(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
2015	{
2016	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
2017	_bz_MatrixRef<P_numtype2, P_struct2>,
2018	_bz_Divide<complex<long double> , P_numtype2> > T_expr;
2019
2020	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
2021	d2._bz_getRef()));
2022	}
2023	#endif // BZ_HAVE_COMPLEX
2024
2025	#ifdef BZ_HAVE_COMPLEX
2026	// complex<long double> / _bz_MatExpr<P_expr2>
2027	template<class P_expr2>
2028	inline
2029	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
2030	_bz_MatExpr<P_expr2>, _bz_Divide<complex<long double> , _bz_typename P_expr2::T_numtype> > >
2031	operator/(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
2032	{
2033	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
2034	_bz_MatExpr<P_expr2>,
2035	_bz_Divide<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
2036
2037	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
2038	d2));
2039	}
2040	#endif // BZ_HAVE_COMPLEX
2041	/****************************************************************************
2042	* Modulus Operators
2043	****************************************************************************/
2044
2045	// Matrix<P_numtype1, P_struct1> % Matrix<P_numtype2, P_struct2>
2046	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
2047	inline
2048	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2049	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Mod<P_numtype1, P_numtype2> > >
2050	operator%(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
2051	{
2052	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2053	_bz_MatrixRef<P_numtype2, P_struct2>,
2054	_bz_Mod<P_numtype1, P_numtype2> > T_expr;
2055
2056	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2057	d2._bz_getRef()));
2058	}
2059
2060	// Matrix<P_numtype1, P_struct1> % _bz_MatExpr<P_expr2>
2061	template<class P_numtype1, class P_struct1, class P_expr2>
2062	inline
2063	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2064	_bz_MatExpr<P_expr2>, _bz_Mod<P_numtype1, _bz_typename P_expr2::T_numtype> > >
2065	operator%(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
2066	{
2067	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2068	_bz_MatExpr<P_expr2>,
2069	_bz_Mod<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
2070
2071	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2072	d2));
2073	}
2074
2075	// Matrix<P_numtype1, P_struct1> % int
2076	template<class P_numtype1, class P_struct1>
2077	inline
2078	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2079	_bz_MatExprConstant<int>, _bz_Mod<P_numtype1, int> > >
2080	operator%(const Matrix<P_numtype1, P_struct1>& d1, int d2)
2081	{
2082	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2083	_bz_MatExprConstant<int>,
2084	_bz_Mod<P_numtype1, int> > T_expr;
2085
2086	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2087	_bz_MatExprConstant<int>(d2)));
2088	}
2089
2090	// _bz_MatExpr<P_expr1> % Matrix<P_numtype2, P_struct2>
2091	template<class P_expr1, class P_numtype2, class P_struct2>
2092	inline
2093	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2094	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Mod<_bz_typename P_expr1::T_numtype, P_numtype2> > >
2095	operator%(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
2096	{
2097	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2098	_bz_MatrixRef<P_numtype2, P_struct2>,
2099	_bz_Mod<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
2100
2101	return _bz_MatExpr<T_expr>(T_expr(d1,
2102	d2._bz_getRef()));
2103	}
2104
2105	// _bz_MatExpr<P_expr1> % _bz_MatExpr<P_expr2>
2106	template<class P_expr1, class P_expr2>
2107	inline
2108	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2109	_bz_MatExpr<P_expr2>, _bz_Mod<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
2110	operator%(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
2111	{
2112	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2113	_bz_MatExpr<P_expr2>,
2114	_bz_Mod<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
2115
2116	return _bz_MatExpr<T_expr>(T_expr(d1,
2117	d2));
2118	}
2119
2120	// _bz_MatExpr<P_expr1> % int
2121	template<class P_expr1>
2122	inline
2123	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2124	_bz_MatExprConstant<int>, _bz_Mod<_bz_typename P_expr1::T_numtype, int> > >
2125	operator%(_bz_MatExpr<P_expr1> d1, int d2)
2126	{
2127	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2128	_bz_MatExprConstant<int>,
2129	_bz_Mod<_bz_typename P_expr1::T_numtype, int> > T_expr;
2130
2131	return _bz_MatExpr<T_expr>(T_expr(d1,
2132	_bz_MatExprConstant<int>(d2)));
2133	}
2134
2135	// int % Matrix<P_numtype2, P_struct2>
2136	template<class P_numtype2, class P_struct2>
2137	inline
2138	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2139	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Mod<int, P_numtype2> > >
2140	operator%(int d1, const Matrix<P_numtype2, P_struct2>& d2)
2141	{
2142	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2143	_bz_MatrixRef<P_numtype2, P_struct2>,
2144	_bz_Mod<int, P_numtype2> > T_expr;
2145
2146	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2147	d2._bz_getRef()));
2148	}
2149
2150	// int % _bz_MatExpr<P_expr2>
2151	template<class P_expr2>
2152	inline
2153	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2154	_bz_MatExpr<P_expr2>, _bz_Mod<int, _bz_typename P_expr2::T_numtype> > >
2155	operator%(int d1, _bz_MatExpr<P_expr2> d2)
2156	{
2157	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2158	_bz_MatExpr<P_expr2>,
2159	_bz_Mod<int, _bz_typename P_expr2::T_numtype> > T_expr;
2160
2161	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2162	d2));
2163	}
2164	/****************************************************************************
2165	* Bitwise XOR Operators
2166	****************************************************************************/
2167
2168	// Matrix<P_numtype1, P_struct1> ^ Matrix<P_numtype2, P_struct2>
2169	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
2170	inline
2171	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2172	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseXOR<P_numtype1, P_numtype2> > >
2173	operator^(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
2174	{
2175	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2176	_bz_MatrixRef<P_numtype2, P_struct2>,
2177	_bz_BitwiseXOR<P_numtype1, P_numtype2> > T_expr;
2178
2179	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2180	d2._bz_getRef()));
2181	}
2182
2183	// Matrix<P_numtype1, P_struct1> ^ _bz_MatExpr<P_expr2>
2184	template<class P_numtype1, class P_struct1, class P_expr2>
2185	inline
2186	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2187	_bz_MatExpr<P_expr2>, _bz_BitwiseXOR<P_numtype1, _bz_typename P_expr2::T_numtype> > >
2188	operator^(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
2189	{
2190	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2191	_bz_MatExpr<P_expr2>,
2192	_bz_BitwiseXOR<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
2193
2194	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2195	d2));
2196	}
2197
2198	// Matrix<P_numtype1, P_struct1> ^ int
2199	template<class P_numtype1, class P_struct1>
2200	inline
2201	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2202	_bz_MatExprConstant<int>, _bz_BitwiseXOR<P_numtype1, int> > >
2203	operator^(const Matrix<P_numtype1, P_struct1>& d1, int d2)
2204	{
2205	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2206	_bz_MatExprConstant<int>,
2207	_bz_BitwiseXOR<P_numtype1, int> > T_expr;
2208
2209	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2210	_bz_MatExprConstant<int>(d2)));
2211	}
2212
2213	// _bz_MatExpr<P_expr1> ^ Matrix<P_numtype2, P_struct2>
2214	template<class P_expr1, class P_numtype2, class P_struct2>
2215	inline
2216	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2217	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseXOR<_bz_typename P_expr1::T_numtype, P_numtype2> > >
2218	operator^(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
2219	{
2220	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2221	_bz_MatrixRef<P_numtype2, P_struct2>,
2222	_bz_BitwiseXOR<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
2223
2224	return _bz_MatExpr<T_expr>(T_expr(d1,
2225	d2._bz_getRef()));
2226	}
2227
2228	// _bz_MatExpr<P_expr1> ^ _bz_MatExpr<P_expr2>
2229	template<class P_expr1, class P_expr2>
2230	inline
2231	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2232	_bz_MatExpr<P_expr2>, _bz_BitwiseXOR<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
2233	operator^(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
2234	{
2235	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2236	_bz_MatExpr<P_expr2>,
2237	_bz_BitwiseXOR<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
2238
2239	return _bz_MatExpr<T_expr>(T_expr(d1,
2240	d2));
2241	}
2242
2243	// _bz_MatExpr<P_expr1> ^ int
2244	template<class P_expr1>
2245	inline
2246	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2247	_bz_MatExprConstant<int>, _bz_BitwiseXOR<_bz_typename P_expr1::T_numtype, int> > >
2248	operator^(_bz_MatExpr<P_expr1> d1, int d2)
2249	{
2250	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2251	_bz_MatExprConstant<int>,
2252	_bz_BitwiseXOR<_bz_typename P_expr1::T_numtype, int> > T_expr;
2253
2254	return _bz_MatExpr<T_expr>(T_expr(d1,
2255	_bz_MatExprConstant<int>(d2)));
2256	}
2257
2258	// int ^ Matrix<P_numtype2, P_struct2>
2259	template<class P_numtype2, class P_struct2>
2260	inline
2261	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2262	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseXOR<int, P_numtype2> > >
2263	operator^(int d1, const Matrix<P_numtype2, P_struct2>& d2)
2264	{
2265	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2266	_bz_MatrixRef<P_numtype2, P_struct2>,
2267	_bz_BitwiseXOR<int, P_numtype2> > T_expr;
2268
2269	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2270	d2._bz_getRef()));
2271	}
2272
2273	// int ^ _bz_MatExpr<P_expr2>
2274	template<class P_expr2>
2275	inline
2276	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2277	_bz_MatExpr<P_expr2>, _bz_BitwiseXOR<int, _bz_typename P_expr2::T_numtype> > >
2278	operator^(int d1, _bz_MatExpr<P_expr2> d2)
2279	{
2280	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2281	_bz_MatExpr<P_expr2>,
2282	_bz_BitwiseXOR<int, _bz_typename P_expr2::T_numtype> > T_expr;
2283
2284	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2285	d2));
2286	}
2287	/****************************************************************************
2288	* Bitwise And Operators
2289	****************************************************************************/
2290
2291	// Matrix<P_numtype1, P_struct1> & Matrix<P_numtype2, P_struct2>
2292	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
2293	inline
2294	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2295	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseAnd<P_numtype1, P_numtype2> > >
2296	operator&(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
2297	{
2298	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2299	_bz_MatrixRef<P_numtype2, P_struct2>,
2300	_bz_BitwiseAnd<P_numtype1, P_numtype2> > T_expr;
2301
2302	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2303	d2._bz_getRef()));
2304	}
2305
2306	// Matrix<P_numtype1, P_struct1> & _bz_MatExpr<P_expr2>
2307	template<class P_numtype1, class P_struct1, class P_expr2>
2308	inline
2309	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2310	_bz_MatExpr<P_expr2>, _bz_BitwiseAnd<P_numtype1, _bz_typename P_expr2::T_numtype> > >
2311	operator&(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
2312	{
2313	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2314	_bz_MatExpr<P_expr2>,
2315	_bz_BitwiseAnd<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
2316
2317	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2318	d2));
2319	}
2320
2321	// Matrix<P_numtype1, P_struct1> & int
2322	template<class P_numtype1, class P_struct1>
2323	inline
2324	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2325	_bz_MatExprConstant<int>, _bz_BitwiseAnd<P_numtype1, int> > >
2326	operator&(const Matrix<P_numtype1, P_struct1>& d1, int d2)
2327	{
2328	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2329	_bz_MatExprConstant<int>,
2330	_bz_BitwiseAnd<P_numtype1, int> > T_expr;
2331
2332	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2333	_bz_MatExprConstant<int>(d2)));
2334	}
2335
2336	// _bz_MatExpr<P_expr1> & Matrix<P_numtype2, P_struct2>
2337	template<class P_expr1, class P_numtype2, class P_struct2>
2338	inline
2339	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2340	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseAnd<_bz_typename P_expr1::T_numtype, P_numtype2> > >
2341	operator&(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
2342	{
2343	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2344	_bz_MatrixRef<P_numtype2, P_struct2>,
2345	_bz_BitwiseAnd<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
2346
2347	return _bz_MatExpr<T_expr>(T_expr(d1,
2348	d2._bz_getRef()));
2349	}
2350
2351	// _bz_MatExpr<P_expr1> & _bz_MatExpr<P_expr2>
2352	template<class P_expr1, class P_expr2>
2353	inline
2354	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2355	_bz_MatExpr<P_expr2>, _bz_BitwiseAnd<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
2356	operator&(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
2357	{
2358	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2359	_bz_MatExpr<P_expr2>,
2360	_bz_BitwiseAnd<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
2361
2362	return _bz_MatExpr<T_expr>(T_expr(d1,
2363	d2));
2364	}
2365
2366	// _bz_MatExpr<P_expr1> & int
2367	template<class P_expr1>
2368	inline
2369	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2370	_bz_MatExprConstant<int>, _bz_BitwiseAnd<_bz_typename P_expr1::T_numtype, int> > >
2371	operator&(_bz_MatExpr<P_expr1> d1, int d2)
2372	{
2373	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2374	_bz_MatExprConstant<int>,
2375	_bz_BitwiseAnd<_bz_typename P_expr1::T_numtype, int> > T_expr;
2376
2377	return _bz_MatExpr<T_expr>(T_expr(d1,
2378	_bz_MatExprConstant<int>(d2)));
2379	}
2380
2381	// int & Matrix<P_numtype2, P_struct2>
2382	template<class P_numtype2, class P_struct2>
2383	inline
2384	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2385	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseAnd<int, P_numtype2> > >
2386	operator&(int d1, const Matrix<P_numtype2, P_struct2>& d2)
2387	{
2388	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2389	_bz_MatrixRef<P_numtype2, P_struct2>,
2390	_bz_BitwiseAnd<int, P_numtype2> > T_expr;
2391
2392	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2393	d2._bz_getRef()));
2394	}
2395
2396	// int & _bz_MatExpr<P_expr2>
2397	template<class P_expr2>
2398	inline
2399	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2400	_bz_MatExpr<P_expr2>, _bz_BitwiseAnd<int, _bz_typename P_expr2::T_numtype> > >
2401	operator&(int d1, _bz_MatExpr<P_expr2> d2)
2402	{
2403	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2404	_bz_MatExpr<P_expr2>,
2405	_bz_BitwiseAnd<int, _bz_typename P_expr2::T_numtype> > T_expr;
2406
2407	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2408	d2));
2409	}
2410	/****************************************************************************
2411	* Bitwise Or Operators
2412	****************************************************************************/
2413
2414	// Matrix<P_numtype1, P_struct1> \| Matrix<P_numtype2, P_struct2>
2415	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
2416	inline
2417	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2418	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseOr<P_numtype1, P_numtype2> > >
2419	operator\|(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
2420	{
2421	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2422	_bz_MatrixRef<P_numtype2, P_struct2>,
2423	_bz_BitwiseOr<P_numtype1, P_numtype2> > T_expr;
2424
2425	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2426	d2._bz_getRef()));
2427	}
2428
2429	// Matrix<P_numtype1, P_struct1> \| _bz_MatExpr<P_expr2>
2430	template<class P_numtype1, class P_struct1, class P_expr2>
2431	inline
2432	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2433	_bz_MatExpr<P_expr2>, _bz_BitwiseOr<P_numtype1, _bz_typename P_expr2::T_numtype> > >
2434	operator\|(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
2435	{
2436	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2437	_bz_MatExpr<P_expr2>,
2438	_bz_BitwiseOr<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
2439
2440	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2441	d2));
2442	}
2443
2444	// Matrix<P_numtype1, P_struct1> \| int
2445	template<class P_numtype1, class P_struct1>
2446	inline
2447	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2448	_bz_MatExprConstant<int>, _bz_BitwiseOr<P_numtype1, int> > >
2449	operator\|(const Matrix<P_numtype1, P_struct1>& d1, int d2)
2450	{
2451	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2452	_bz_MatExprConstant<int>,
2453	_bz_BitwiseOr<P_numtype1, int> > T_expr;
2454
2455	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2456	_bz_MatExprConstant<int>(d2)));
2457	}
2458
2459	// _bz_MatExpr<P_expr1> \| Matrix<P_numtype2, P_struct2>
2460	template<class P_expr1, class P_numtype2, class P_struct2>
2461	inline
2462	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2463	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseOr<_bz_typename P_expr1::T_numtype, P_numtype2> > >
2464	operator\|(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
2465	{
2466	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2467	_bz_MatrixRef<P_numtype2, P_struct2>,
2468	_bz_BitwiseOr<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
2469
2470	return _bz_MatExpr<T_expr>(T_expr(d1,
2471	d2._bz_getRef()));
2472	}
2473
2474	// _bz_MatExpr<P_expr1> \| _bz_MatExpr<P_expr2>
2475	template<class P_expr1, class P_expr2>
2476	inline
2477	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2478	_bz_MatExpr<P_expr2>, _bz_BitwiseOr<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
2479	operator\|(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
2480	{
2481	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2482	_bz_MatExpr<P_expr2>,
2483	_bz_BitwiseOr<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
2484
2485	return _bz_MatExpr<T_expr>(T_expr(d1,
2486	d2));
2487	}
2488
2489	// _bz_MatExpr<P_expr1> \| int
2490	template<class P_expr1>
2491	inline
2492	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2493	_bz_MatExprConstant<int>, _bz_BitwiseOr<_bz_typename P_expr1::T_numtype, int> > >
2494	operator\|(_bz_MatExpr<P_expr1> d1, int d2)
2495	{
2496	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2497	_bz_MatExprConstant<int>,
2498	_bz_BitwiseOr<_bz_typename P_expr1::T_numtype, int> > T_expr;
2499
2500	return _bz_MatExpr<T_expr>(T_expr(d1,
2501	_bz_MatExprConstant<int>(d2)));
2502	}
2503
2504	// int \| Matrix<P_numtype2, P_struct2>
2505	template<class P_numtype2, class P_struct2>
2506	inline
2507	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2508	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_BitwiseOr<int, P_numtype2> > >
2509	operator\|(int d1, const Matrix<P_numtype2, P_struct2>& d2)
2510	{
2511	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2512	_bz_MatrixRef<P_numtype2, P_struct2>,
2513	_bz_BitwiseOr<int, P_numtype2> > T_expr;
2514
2515	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2516	d2._bz_getRef()));
2517	}
2518
2519	// int \| _bz_MatExpr<P_expr2>
2520	template<class P_expr2>
2521	inline
2522	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2523	_bz_MatExpr<P_expr2>, _bz_BitwiseOr<int, _bz_typename P_expr2::T_numtype> > >
2524	operator\|(int d1, _bz_MatExpr<P_expr2> d2)
2525	{
2526	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2527	_bz_MatExpr<P_expr2>,
2528	_bz_BitwiseOr<int, _bz_typename P_expr2::T_numtype> > T_expr;
2529
2530	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2531	d2));
2532	}
2533	/****************************************************************************
2534	* Shift right Operators
2535	****************************************************************************/
2536
2537	// Matrix<P_numtype1, P_struct1> >> Matrix<P_numtype2, P_struct2>
2538	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
2539	inline
2540	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2541	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_ShiftRight<P_numtype1, P_numtype2> > >
2542	operator>>(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
2543	{
2544	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2545	_bz_MatrixRef<P_numtype2, P_struct2>,
2546	_bz_ShiftRight<P_numtype1, P_numtype2> > T_expr;
2547
2548	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2549	d2._bz_getRef()));
2550	}
2551
2552	// Matrix<P_numtype1, P_struct1> >> _bz_MatExpr<P_expr2>
2553	template<class P_numtype1, class P_struct1, class P_expr2>
2554	inline
2555	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2556	_bz_MatExpr<P_expr2>, _bz_ShiftRight<P_numtype1, _bz_typename P_expr2::T_numtype> > >
2557	operator>>(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
2558	{
2559	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2560	_bz_MatExpr<P_expr2>,
2561	_bz_ShiftRight<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
2562
2563	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2564	d2));
2565	}
2566
2567	// Matrix<P_numtype1, P_struct1> >> int
2568	template<class P_numtype1, class P_struct1>
2569	inline
2570	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2571	_bz_MatExprConstant<int>, _bz_ShiftRight<P_numtype1, int> > >
2572	operator>>(const Matrix<P_numtype1, P_struct1>& d1, int d2)
2573	{
2574	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2575	_bz_MatExprConstant<int>,
2576	_bz_ShiftRight<P_numtype1, int> > T_expr;
2577
2578	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2579	_bz_MatExprConstant<int>(d2)));
2580	}
2581
2582	// _bz_MatExpr<P_expr1> >> Matrix<P_numtype2, P_struct2>
2583	template<class P_expr1, class P_numtype2, class P_struct2>
2584	inline
2585	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2586	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_ShiftRight<_bz_typename P_expr1::T_numtype, P_numtype2> > >
2587	operator>>(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
2588	{
2589	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2590	_bz_MatrixRef<P_numtype2, P_struct2>,
2591	_bz_ShiftRight<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
2592
2593	return _bz_MatExpr<T_expr>(T_expr(d1,
2594	d2._bz_getRef()));
2595	}
2596
2597	// _bz_MatExpr<P_expr1> >> _bz_MatExpr<P_expr2>
2598	template<class P_expr1, class P_expr2>
2599	inline
2600	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2601	_bz_MatExpr<P_expr2>, _bz_ShiftRight<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
2602	operator>>(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
2603	{
2604	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2605	_bz_MatExpr<P_expr2>,
2606	_bz_ShiftRight<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
2607
2608	return _bz_MatExpr<T_expr>(T_expr(d1,
2609	d2));
2610	}
2611
2612	// _bz_MatExpr<P_expr1> >> int
2613	template<class P_expr1>
2614	inline
2615	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2616	_bz_MatExprConstant<int>, _bz_ShiftRight<_bz_typename P_expr1::T_numtype, int> > >
2617	operator>>(_bz_MatExpr<P_expr1> d1, int d2)
2618	{
2619	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2620	_bz_MatExprConstant<int>,
2621	_bz_ShiftRight<_bz_typename P_expr1::T_numtype, int> > T_expr;
2622
2623	return _bz_MatExpr<T_expr>(T_expr(d1,
2624	_bz_MatExprConstant<int>(d2)));
2625	}
2626
2627	// int >> Matrix<P_numtype2, P_struct2>
2628	template<class P_numtype2, class P_struct2>
2629	inline
2630	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2631	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_ShiftRight<int, P_numtype2> > >
2632	operator>>(int d1, const Matrix<P_numtype2, P_struct2>& d2)
2633	{
2634	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2635	_bz_MatrixRef<P_numtype2, P_struct2>,
2636	_bz_ShiftRight<int, P_numtype2> > T_expr;
2637
2638	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2639	d2._bz_getRef()));
2640	}
2641
2642	// int >> _bz_MatExpr<P_expr2>
2643	template<class P_expr2>
2644	inline
2645	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2646	_bz_MatExpr<P_expr2>, _bz_ShiftRight<int, _bz_typename P_expr2::T_numtype> > >
2647	operator>>(int d1, _bz_MatExpr<P_expr2> d2)
2648	{
2649	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2650	_bz_MatExpr<P_expr2>,
2651	_bz_ShiftRight<int, _bz_typename P_expr2::T_numtype> > T_expr;
2652
2653	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2654	d2));
2655	}
2656	/****************************************************************************
2657	* Shift left Operators
2658	****************************************************************************/
2659
2660	// Matrix<P_numtype1, P_struct1> << Matrix<P_numtype2, P_struct2>
2661	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
2662	inline
2663	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2664	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_ShiftLeft<P_numtype1, P_numtype2> > >
2665	operator<<(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
2666	{
2667	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2668	_bz_MatrixRef<P_numtype2, P_struct2>,
2669	_bz_ShiftLeft<P_numtype1, P_numtype2> > T_expr;
2670
2671	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2672	d2._bz_getRef()));
2673	}
2674
2675	// Matrix<P_numtype1, P_struct1> << _bz_MatExpr<P_expr2>
2676	template<class P_numtype1, class P_struct1, class P_expr2>
2677	inline
2678	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2679	_bz_MatExpr<P_expr2>, _bz_ShiftLeft<P_numtype1, _bz_typename P_expr2::T_numtype> > >
2680	operator<<(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
2681	{
2682	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2683	_bz_MatExpr<P_expr2>,
2684	_bz_ShiftLeft<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
2685
2686	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2687	d2));
2688	}
2689
2690	// Matrix<P_numtype1, P_struct1> << int
2691	template<class P_numtype1, class P_struct1>
2692	inline
2693	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2694	_bz_MatExprConstant<int>, _bz_ShiftLeft<P_numtype1, int> > >
2695	operator<<(const Matrix<P_numtype1, P_struct1>& d1, int d2)
2696	{
2697	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2698	_bz_MatExprConstant<int>,
2699	_bz_ShiftLeft<P_numtype1, int> > T_expr;
2700
2701	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2702	_bz_MatExprConstant<int>(d2)));
2703	}
2704
2705	// _bz_MatExpr<P_expr1> << Matrix<P_numtype2, P_struct2>
2706	template<class P_expr1, class P_numtype2, class P_struct2>
2707	inline
2708	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2709	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_ShiftLeft<_bz_typename P_expr1::T_numtype, P_numtype2> > >
2710	operator<<(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
2711	{
2712	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2713	_bz_MatrixRef<P_numtype2, P_struct2>,
2714	_bz_ShiftLeft<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
2715
2716	return _bz_MatExpr<T_expr>(T_expr(d1,
2717	d2._bz_getRef()));
2718	}
2719
2720	// _bz_MatExpr<P_expr1> << _bz_MatExpr<P_expr2>
2721	template<class P_expr1, class P_expr2>
2722	inline
2723	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2724	_bz_MatExpr<P_expr2>, _bz_ShiftLeft<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
2725	operator<<(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
2726	{
2727	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2728	_bz_MatExpr<P_expr2>,
2729	_bz_ShiftLeft<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
2730
2731	return _bz_MatExpr<T_expr>(T_expr(d1,
2732	d2));
2733	}
2734
2735	// _bz_MatExpr<P_expr1> << int
2736	template<class P_expr1>
2737	inline
2738	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2739	_bz_MatExprConstant<int>, _bz_ShiftLeft<_bz_typename P_expr1::T_numtype, int> > >
2740	operator<<(_bz_MatExpr<P_expr1> d1, int d2)
2741	{
2742	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2743	_bz_MatExprConstant<int>,
2744	_bz_ShiftLeft<_bz_typename P_expr1::T_numtype, int> > T_expr;
2745
2746	return _bz_MatExpr<T_expr>(T_expr(d1,
2747	_bz_MatExprConstant<int>(d2)));
2748	}
2749
2750	// int << Matrix<P_numtype2, P_struct2>
2751	template<class P_numtype2, class P_struct2>
2752	inline
2753	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2754	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_ShiftLeft<int, P_numtype2> > >
2755	operator<<(int d1, const Matrix<P_numtype2, P_struct2>& d2)
2756	{
2757	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2758	_bz_MatrixRef<P_numtype2, P_struct2>,
2759	_bz_ShiftLeft<int, P_numtype2> > T_expr;
2760
2761	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2762	d2._bz_getRef()));
2763	}
2764
2765	// int << _bz_MatExpr<P_expr2>
2766	template<class P_expr2>
2767	inline
2768	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
2769	_bz_MatExpr<P_expr2>, _bz_ShiftLeft<int, _bz_typename P_expr2::T_numtype> > >
2770	operator<<(int d1, _bz_MatExpr<P_expr2> d2)
2771	{
2772	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
2773	_bz_MatExpr<P_expr2>,
2774	_bz_ShiftLeft<int, _bz_typename P_expr2::T_numtype> > T_expr;
2775
2776	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
2777	d2));
2778	}
2779	/****************************************************************************
2780	* Greater-than Operators
2781	****************************************************************************/
2782
2783	// Matrix<P_numtype1, P_struct1> > Matrix<P_numtype2, P_struct2>
2784	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
2785	inline
2786	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2787	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<P_numtype1, P_numtype2> > >
2788	operator>(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
2789	{
2790	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2791	_bz_MatrixRef<P_numtype2, P_struct2>,
2792	_bz_Greater<P_numtype1, P_numtype2> > T_expr;
2793
2794	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2795	d2._bz_getRef()));
2796	}
2797
2798	// Matrix<P_numtype1, P_struct1> > _bz_MatExpr<P_expr2>
2799	template<class P_numtype1, class P_struct1, class P_expr2>
2800	inline
2801	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2802	_bz_MatExpr<P_expr2>, _bz_Greater<P_numtype1, _bz_typename P_expr2::T_numtype> > >
2803	operator>(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
2804	{
2805	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2806	_bz_MatExpr<P_expr2>,
2807	_bz_Greater<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
2808
2809	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2810	d2));
2811	}
2812
2813	// Matrix<P_numtype1, P_struct1> > int
2814	template<class P_numtype1, class P_struct1>
2815	inline
2816	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2817	_bz_MatExprConstant<int>, _bz_Greater<P_numtype1, int> > >
2818	operator>(const Matrix<P_numtype1, P_struct1>& d1, int d2)
2819	{
2820	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2821	_bz_MatExprConstant<int>,
2822	_bz_Greater<P_numtype1, int> > T_expr;
2823
2824	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2825	_bz_MatExprConstant<int>(d2)));
2826	}
2827
2828	// Matrix<P_numtype1, P_struct1> > float
2829	template<class P_numtype1, class P_struct1>
2830	inline
2831	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2832	_bz_MatExprConstant<float>, _bz_Greater<P_numtype1, float> > >
2833	operator>(const Matrix<P_numtype1, P_struct1>& d1, float d2)
2834	{
2835	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2836	_bz_MatExprConstant<float>,
2837	_bz_Greater<P_numtype1, float> > T_expr;
2838
2839	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2840	_bz_MatExprConstant<float>(d2)));
2841	}
2842
2843	// Matrix<P_numtype1, P_struct1> > double
2844	template<class P_numtype1, class P_struct1>
2845	inline
2846	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2847	_bz_MatExprConstant<double>, _bz_Greater<P_numtype1, double> > >
2848	operator>(const Matrix<P_numtype1, P_struct1>& d1, double d2)
2849	{
2850	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2851	_bz_MatExprConstant<double>,
2852	_bz_Greater<P_numtype1, double> > T_expr;
2853
2854	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2855	_bz_MatExprConstant<double>(d2)));
2856	}
2857
2858	// Matrix<P_numtype1, P_struct1> > long double
2859	template<class P_numtype1, class P_struct1>
2860	inline
2861	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2862	_bz_MatExprConstant<long double>, _bz_Greater<P_numtype1, long double> > >
2863	operator>(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
2864	{
2865	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2866	_bz_MatExprConstant<long double>,
2867	_bz_Greater<P_numtype1, long double> > T_expr;
2868
2869	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2870	_bz_MatExprConstant<long double>(d2)));
2871	}
2872
2873	#ifdef BZ_HAVE_COMPLEX
2874	// Matrix<P_numtype1, P_struct1> > complex<float>
2875	template<class P_numtype1, class P_struct1>
2876	inline
2877	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2878	_bz_MatExprConstant<complex<float> >, _bz_Greater<P_numtype1, complex<float> > > >
2879	operator>(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
2880	{
2881	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2882	_bz_MatExprConstant<complex<float> >,
2883	_bz_Greater<P_numtype1, complex<float> > > T_expr;
2884
2885	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2886	_bz_MatExprConstant<complex<float> >(d2)));
2887	}
2888	#endif // BZ_HAVE_COMPLEX
2889
2890	#ifdef BZ_HAVE_COMPLEX
2891	// Matrix<P_numtype1, P_struct1> > complex<double>
2892	template<class P_numtype1, class P_struct1>
2893	inline
2894	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2895	_bz_MatExprConstant<complex<double> >, _bz_Greater<P_numtype1, complex<double> > > >
2896	operator>(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
2897	{
2898	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2899	_bz_MatExprConstant<complex<double> >,
2900	_bz_Greater<P_numtype1, complex<double> > > T_expr;
2901
2902	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2903	_bz_MatExprConstant<complex<double> >(d2)));
2904	}
2905	#endif // BZ_HAVE_COMPLEX
2906
2907	#ifdef BZ_HAVE_COMPLEX
2908	// Matrix<P_numtype1, P_struct1> > complex<long double>
2909	template<class P_numtype1, class P_struct1>
2910	inline
2911	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2912	_bz_MatExprConstant<complex<long double> >, _bz_Greater<P_numtype1, complex<long double> > > >
2913	operator>(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
2914	{
2915	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
2916	_bz_MatExprConstant<complex<long double> >,
2917	_bz_Greater<P_numtype1, complex<long double> > > T_expr;
2918
2919	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
2920	_bz_MatExprConstant<complex<long double> >(d2)));
2921	}
2922	#endif // BZ_HAVE_COMPLEX
2923
2924	// _bz_MatExpr<P_expr1> > Matrix<P_numtype2, P_struct2>
2925	template<class P_expr1, class P_numtype2, class P_struct2>
2926	inline
2927	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2928	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<_bz_typename P_expr1::T_numtype, P_numtype2> > >
2929	operator>(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
2930	{
2931	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2932	_bz_MatrixRef<P_numtype2, P_struct2>,
2933	_bz_Greater<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
2934
2935	return _bz_MatExpr<T_expr>(T_expr(d1,
2936	d2._bz_getRef()));
2937	}
2938
2939	// _bz_MatExpr<P_expr1> > _bz_MatExpr<P_expr2>
2940	template<class P_expr1, class P_expr2>
2941	inline
2942	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2943	_bz_MatExpr<P_expr2>, _bz_Greater<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
2944	operator>(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
2945	{
2946	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2947	_bz_MatExpr<P_expr2>,
2948	_bz_Greater<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
2949
2950	return _bz_MatExpr<T_expr>(T_expr(d1,
2951	d2));
2952	}
2953
2954	// _bz_MatExpr<P_expr1> > int
2955	template<class P_expr1>
2956	inline
2957	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2958	_bz_MatExprConstant<int>, _bz_Greater<_bz_typename P_expr1::T_numtype, int> > >
2959	operator>(_bz_MatExpr<P_expr1> d1, int d2)
2960	{
2961	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2962	_bz_MatExprConstant<int>,
2963	_bz_Greater<_bz_typename P_expr1::T_numtype, int> > T_expr;
2964
2965	return _bz_MatExpr<T_expr>(T_expr(d1,
2966	_bz_MatExprConstant<int>(d2)));
2967	}
2968
2969	// _bz_MatExpr<P_expr1> > float
2970	template<class P_expr1>
2971	inline
2972	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2973	_bz_MatExprConstant<float>, _bz_Greater<_bz_typename P_expr1::T_numtype, float> > >
2974	operator>(_bz_MatExpr<P_expr1> d1, float d2)
2975	{
2976	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2977	_bz_MatExprConstant<float>,
2978	_bz_Greater<_bz_typename P_expr1::T_numtype, float> > T_expr;
2979
2980	return _bz_MatExpr<T_expr>(T_expr(d1,
2981	_bz_MatExprConstant<float>(d2)));
2982	}
2983
2984	// _bz_MatExpr<P_expr1> > double
2985	template<class P_expr1>
2986	inline
2987	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
2988	_bz_MatExprConstant<double>, _bz_Greater<_bz_typename P_expr1::T_numtype, double> > >
2989	operator>(_bz_MatExpr<P_expr1> d1, double d2)
2990	{
2991	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
2992	_bz_MatExprConstant<double>,
2993	_bz_Greater<_bz_typename P_expr1::T_numtype, double> > T_expr;
2994
2995	return _bz_MatExpr<T_expr>(T_expr(d1,
2996	_bz_MatExprConstant<double>(d2)));
2997	}
2998
2999	// _bz_MatExpr<P_expr1> > long double
3000	template<class P_expr1>
3001	inline
3002	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3003	_bz_MatExprConstant<long double>, _bz_Greater<_bz_typename P_expr1::T_numtype, long double> > >
3004	operator>(_bz_MatExpr<P_expr1> d1, long double d2)
3005	{
3006	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3007	_bz_MatExprConstant<long double>,
3008	_bz_Greater<_bz_typename P_expr1::T_numtype, long double> > T_expr;
3009
3010	return _bz_MatExpr<T_expr>(T_expr(d1,
3011	_bz_MatExprConstant<long double>(d2)));
3012	}
3013
3014	#ifdef BZ_HAVE_COMPLEX
3015	// _bz_MatExpr<P_expr1> > complex<float>
3016	template<class P_expr1>
3017	inline
3018	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3019	_bz_MatExprConstant<complex<float> >, _bz_Greater<_bz_typename P_expr1::T_numtype, complex<float> > > >
3020	operator>(_bz_MatExpr<P_expr1> d1, complex<float> d2)
3021	{
3022	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3023	_bz_MatExprConstant<complex<float> >,
3024	_bz_Greater<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
3025
3026	return _bz_MatExpr<T_expr>(T_expr(d1,
3027	_bz_MatExprConstant<complex<float> >(d2)));
3028	}
3029	#endif // BZ_HAVE_COMPLEX
3030
3031	#ifdef BZ_HAVE_COMPLEX
3032	// _bz_MatExpr<P_expr1> > complex<double>
3033	template<class P_expr1>
3034	inline
3035	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3036	_bz_MatExprConstant<complex<double> >, _bz_Greater<_bz_typename P_expr1::T_numtype, complex<double> > > >
3037	operator>(_bz_MatExpr<P_expr1> d1, complex<double> d2)
3038	{
3039	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3040	_bz_MatExprConstant<complex<double> >,
3041	_bz_Greater<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
3042
3043	return _bz_MatExpr<T_expr>(T_expr(d1,
3044	_bz_MatExprConstant<complex<double> >(d2)));
3045	}
3046	#endif // BZ_HAVE_COMPLEX
3047
3048	#ifdef BZ_HAVE_COMPLEX
3049	// _bz_MatExpr<P_expr1> > complex<long double>
3050	template<class P_expr1>
3051	inline
3052	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3053	_bz_MatExprConstant<complex<long double> >, _bz_Greater<_bz_typename P_expr1::T_numtype, complex<long double> > > >
3054	operator>(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
3055	{
3056	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3057	_bz_MatExprConstant<complex<long double> >,
3058	_bz_Greater<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
3059
3060	return _bz_MatExpr<T_expr>(T_expr(d1,
3061	_bz_MatExprConstant<complex<long double> >(d2)));
3062	}
3063	#endif // BZ_HAVE_COMPLEX
3064
3065	// int > Matrix<P_numtype2, P_struct2>
3066	template<class P_numtype2, class P_struct2>
3067	inline
3068	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
3069	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<int, P_numtype2> > >
3070	operator>(int d1, const Matrix<P_numtype2, P_struct2>& d2)
3071	{
3072	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
3073	_bz_MatrixRef<P_numtype2, P_struct2>,
3074	_bz_Greater<int, P_numtype2> > T_expr;
3075
3076	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
3077	d2._bz_getRef()));
3078	}
3079
3080	// int > _bz_MatExpr<P_expr2>
3081	template<class P_expr2>
3082	inline
3083	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
3084	_bz_MatExpr<P_expr2>, _bz_Greater<int, _bz_typename P_expr2::T_numtype> > >
3085	operator>(int d1, _bz_MatExpr<P_expr2> d2)
3086	{
3087	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
3088	_bz_MatExpr<P_expr2>,
3089	_bz_Greater<int, _bz_typename P_expr2::T_numtype> > T_expr;
3090
3091	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
3092	d2));
3093	}
3094
3095	// float > Matrix<P_numtype2, P_struct2>
3096	template<class P_numtype2, class P_struct2>
3097	inline
3098	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
3099	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<float, P_numtype2> > >
3100	operator>(float d1, const Matrix<P_numtype2, P_struct2>& d2)
3101	{
3102	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
3103	_bz_MatrixRef<P_numtype2, P_struct2>,
3104	_bz_Greater<float, P_numtype2> > T_expr;
3105
3106	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
3107	d2._bz_getRef()));
3108	}
3109
3110	// float > _bz_MatExpr<P_expr2>
3111	template<class P_expr2>
3112	inline
3113	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
3114	_bz_MatExpr<P_expr2>, _bz_Greater<float, _bz_typename P_expr2::T_numtype> > >
3115	operator>(float d1, _bz_MatExpr<P_expr2> d2)
3116	{
3117	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
3118	_bz_MatExpr<P_expr2>,
3119	_bz_Greater<float, _bz_typename P_expr2::T_numtype> > T_expr;
3120
3121	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
3122	d2));
3123	}
3124
3125	// double > Matrix<P_numtype2, P_struct2>
3126	template<class P_numtype2, class P_struct2>
3127	inline
3128	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
3129	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<double, P_numtype2> > >
3130	operator>(double d1, const Matrix<P_numtype2, P_struct2>& d2)
3131	{
3132	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
3133	_bz_MatrixRef<P_numtype2, P_struct2>,
3134	_bz_Greater<double, P_numtype2> > T_expr;
3135
3136	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
3137	d2._bz_getRef()));
3138	}
3139
3140	// double > _bz_MatExpr<P_expr2>
3141	template<class P_expr2>
3142	inline
3143	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
3144	_bz_MatExpr<P_expr2>, _bz_Greater<double, _bz_typename P_expr2::T_numtype> > >
3145	operator>(double d1, _bz_MatExpr<P_expr2> d2)
3146	{
3147	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
3148	_bz_MatExpr<P_expr2>,
3149	_bz_Greater<double, _bz_typename P_expr2::T_numtype> > T_expr;
3150
3151	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
3152	d2));
3153	}
3154
3155	// long double > Matrix<P_numtype2, P_struct2>
3156	template<class P_numtype2, class P_struct2>
3157	inline
3158	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
3159	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<long double, P_numtype2> > >
3160	operator>(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
3161	{
3162	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
3163	_bz_MatrixRef<P_numtype2, P_struct2>,
3164	_bz_Greater<long double, P_numtype2> > T_expr;
3165
3166	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
3167	d2._bz_getRef()));
3168	}
3169
3170	// long double > _bz_MatExpr<P_expr2>
3171	template<class P_expr2>
3172	inline
3173	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
3174	_bz_MatExpr<P_expr2>, _bz_Greater<long double, _bz_typename P_expr2::T_numtype> > >
3175	operator>(long double d1, _bz_MatExpr<P_expr2> d2)
3176	{
3177	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
3178	_bz_MatExpr<P_expr2>,
3179	_bz_Greater<long double, _bz_typename P_expr2::T_numtype> > T_expr;
3180
3181	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
3182	d2));
3183	}
3184
3185	#ifdef BZ_HAVE_COMPLEX
3186	// complex<float> > Matrix<P_numtype2, P_struct2>
3187	template<class P_numtype2, class P_struct2>
3188	inline
3189	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3190	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<complex<float> , P_numtype2> > >
3191	operator>(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
3192	{
3193	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3194	_bz_MatrixRef<P_numtype2, P_struct2>,
3195	_bz_Greater<complex<float> , P_numtype2> > T_expr;
3196
3197	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
3198	d2._bz_getRef()));
3199	}
3200	#endif // BZ_HAVE_COMPLEX
3201
3202	#ifdef BZ_HAVE_COMPLEX
3203	// complex<float> > _bz_MatExpr<P_expr2>
3204	template<class P_expr2>
3205	inline
3206	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3207	_bz_MatExpr<P_expr2>, _bz_Greater<complex<float> , _bz_typename P_expr2::T_numtype> > >
3208	operator>(complex<float> d1, _bz_MatExpr<P_expr2> d2)
3209	{
3210	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3211	_bz_MatExpr<P_expr2>,
3212	_bz_Greater<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
3213
3214	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
3215	d2));
3216	}
3217	#endif // BZ_HAVE_COMPLEX
3218
3219	#ifdef BZ_HAVE_COMPLEX
3220	// complex<double> > Matrix<P_numtype2, P_struct2>
3221	template<class P_numtype2, class P_struct2>
3222	inline
3223	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3224	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<complex<double> , P_numtype2> > >
3225	operator>(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
3226	{
3227	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3228	_bz_MatrixRef<P_numtype2, P_struct2>,
3229	_bz_Greater<complex<double> , P_numtype2> > T_expr;
3230
3231	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
3232	d2._bz_getRef()));
3233	}
3234	#endif // BZ_HAVE_COMPLEX
3235
3236	#ifdef BZ_HAVE_COMPLEX
3237	// complex<double> > _bz_MatExpr<P_expr2>
3238	template<class P_expr2>
3239	inline
3240	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3241	_bz_MatExpr<P_expr2>, _bz_Greater<complex<double> , _bz_typename P_expr2::T_numtype> > >
3242	operator>(complex<double> d1, _bz_MatExpr<P_expr2> d2)
3243	{
3244	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3245	_bz_MatExpr<P_expr2>,
3246	_bz_Greater<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
3247
3248	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
3249	d2));
3250	}
3251	#endif // BZ_HAVE_COMPLEX
3252
3253	#ifdef BZ_HAVE_COMPLEX
3254	// complex<long double> > Matrix<P_numtype2, P_struct2>
3255	template<class P_numtype2, class P_struct2>
3256	inline
3257	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3258	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Greater<complex<long double> , P_numtype2> > >
3259	operator>(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
3260	{
3261	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3262	_bz_MatrixRef<P_numtype2, P_struct2>,
3263	_bz_Greater<complex<long double> , P_numtype2> > T_expr;
3264
3265	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
3266	d2._bz_getRef()));
3267	}
3268	#endif // BZ_HAVE_COMPLEX
3269
3270	#ifdef BZ_HAVE_COMPLEX
3271	// complex<long double> > _bz_MatExpr<P_expr2>
3272	template<class P_expr2>
3273	inline
3274	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3275	_bz_MatExpr<P_expr2>, _bz_Greater<complex<long double> , _bz_typename P_expr2::T_numtype> > >
3276	operator>(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
3277	{
3278	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3279	_bz_MatExpr<P_expr2>,
3280	_bz_Greater<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
3281
3282	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
3283	d2));
3284	}
3285	#endif // BZ_HAVE_COMPLEX
3286	/****************************************************************************
3287	* Less-than Operators
3288	****************************************************************************/
3289
3290	// Matrix<P_numtype1, P_struct1> < Matrix<P_numtype2, P_struct2>
3291	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
3292	inline
3293	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3294	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<P_numtype1, P_numtype2> > >
3295	operator<(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
3296	{
3297	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3298	_bz_MatrixRef<P_numtype2, P_struct2>,
3299	_bz_Less<P_numtype1, P_numtype2> > T_expr;
3300
3301	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3302	d2._bz_getRef()));
3303	}
3304
3305	// Matrix<P_numtype1, P_struct1> < _bz_MatExpr<P_expr2>
3306	template<class P_numtype1, class P_struct1, class P_expr2>
3307	inline
3308	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3309	_bz_MatExpr<P_expr2>, _bz_Less<P_numtype1, _bz_typename P_expr2::T_numtype> > >
3310	operator<(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
3311	{
3312	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3313	_bz_MatExpr<P_expr2>,
3314	_bz_Less<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
3315
3316	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3317	d2));
3318	}
3319
3320	// Matrix<P_numtype1, P_struct1> < int
3321	template<class P_numtype1, class P_struct1>
3322	inline
3323	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3324	_bz_MatExprConstant<int>, _bz_Less<P_numtype1, int> > >
3325	operator<(const Matrix<P_numtype1, P_struct1>& d1, int d2)
3326	{
3327	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3328	_bz_MatExprConstant<int>,
3329	_bz_Less<P_numtype1, int> > T_expr;
3330
3331	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3332	_bz_MatExprConstant<int>(d2)));
3333	}
3334
3335	// Matrix<P_numtype1, P_struct1> < float
3336	template<class P_numtype1, class P_struct1>
3337	inline
3338	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3339	_bz_MatExprConstant<float>, _bz_Less<P_numtype1, float> > >
3340	operator<(const Matrix<P_numtype1, P_struct1>& d1, float d2)
3341	{
3342	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3343	_bz_MatExprConstant<float>,
3344	_bz_Less<P_numtype1, float> > T_expr;
3345
3346	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3347	_bz_MatExprConstant<float>(d2)));
3348	}
3349
3350	// Matrix<P_numtype1, P_struct1> < double
3351	template<class P_numtype1, class P_struct1>
3352	inline
3353	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3354	_bz_MatExprConstant<double>, _bz_Less<P_numtype1, double> > >
3355	operator<(const Matrix<P_numtype1, P_struct1>& d1, double d2)
3356	{
3357	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3358	_bz_MatExprConstant<double>,
3359	_bz_Less<P_numtype1, double> > T_expr;
3360
3361	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3362	_bz_MatExprConstant<double>(d2)));
3363	}
3364
3365	// Matrix<P_numtype1, P_struct1> < long double
3366	template<class P_numtype1, class P_struct1>
3367	inline
3368	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3369	_bz_MatExprConstant<long double>, _bz_Less<P_numtype1, long double> > >
3370	operator<(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
3371	{
3372	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3373	_bz_MatExprConstant<long double>,
3374	_bz_Less<P_numtype1, long double> > T_expr;
3375
3376	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3377	_bz_MatExprConstant<long double>(d2)));
3378	}
3379
3380	#ifdef BZ_HAVE_COMPLEX
3381	// Matrix<P_numtype1, P_struct1> < complex<float>
3382	template<class P_numtype1, class P_struct1>
3383	inline
3384	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3385	_bz_MatExprConstant<complex<float> >, _bz_Less<P_numtype1, complex<float> > > >
3386	operator<(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
3387	{
3388	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3389	_bz_MatExprConstant<complex<float> >,
3390	_bz_Less<P_numtype1, complex<float> > > T_expr;
3391
3392	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3393	_bz_MatExprConstant<complex<float> >(d2)));
3394	}
3395	#endif // BZ_HAVE_COMPLEX
3396
3397	#ifdef BZ_HAVE_COMPLEX
3398	// Matrix<P_numtype1, P_struct1> < complex<double>
3399	template<class P_numtype1, class P_struct1>
3400	inline
3401	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3402	_bz_MatExprConstant<complex<double> >, _bz_Less<P_numtype1, complex<double> > > >
3403	operator<(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
3404	{
3405	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3406	_bz_MatExprConstant<complex<double> >,
3407	_bz_Less<P_numtype1, complex<double> > > T_expr;
3408
3409	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3410	_bz_MatExprConstant<complex<double> >(d2)));
3411	}
3412	#endif // BZ_HAVE_COMPLEX
3413
3414	#ifdef BZ_HAVE_COMPLEX
3415	// Matrix<P_numtype1, P_struct1> < complex<long double>
3416	template<class P_numtype1, class P_struct1>
3417	inline
3418	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3419	_bz_MatExprConstant<complex<long double> >, _bz_Less<P_numtype1, complex<long double> > > >
3420	operator<(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
3421	{
3422	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3423	_bz_MatExprConstant<complex<long double> >,
3424	_bz_Less<P_numtype1, complex<long double> > > T_expr;
3425
3426	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3427	_bz_MatExprConstant<complex<long double> >(d2)));
3428	}
3429	#endif // BZ_HAVE_COMPLEX
3430
3431	// _bz_MatExpr<P_expr1> < Matrix<P_numtype2, P_struct2>
3432	template<class P_expr1, class P_numtype2, class P_struct2>
3433	inline
3434	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3435	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<_bz_typename P_expr1::T_numtype, P_numtype2> > >
3436	operator<(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
3437	{
3438	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3439	_bz_MatrixRef<P_numtype2, P_struct2>,
3440	_bz_Less<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
3441
3442	return _bz_MatExpr<T_expr>(T_expr(d1,
3443	d2._bz_getRef()));
3444	}
3445
3446	// _bz_MatExpr<P_expr1> < _bz_MatExpr<P_expr2>
3447	template<class P_expr1, class P_expr2>
3448	inline
3449	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3450	_bz_MatExpr<P_expr2>, _bz_Less<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
3451	operator<(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
3452	{
3453	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3454	_bz_MatExpr<P_expr2>,
3455	_bz_Less<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
3456
3457	return _bz_MatExpr<T_expr>(T_expr(d1,
3458	d2));
3459	}
3460
3461	// _bz_MatExpr<P_expr1> < int
3462	template<class P_expr1>
3463	inline
3464	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3465	_bz_MatExprConstant<int>, _bz_Less<_bz_typename P_expr1::T_numtype, int> > >
3466	operator<(_bz_MatExpr<P_expr1> d1, int d2)
3467	{
3468	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3469	_bz_MatExprConstant<int>,
3470	_bz_Less<_bz_typename P_expr1::T_numtype, int> > T_expr;
3471
3472	return _bz_MatExpr<T_expr>(T_expr(d1,
3473	_bz_MatExprConstant<int>(d2)));
3474	}
3475
3476	// _bz_MatExpr<P_expr1> < float
3477	template<class P_expr1>
3478	inline
3479	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3480	_bz_MatExprConstant<float>, _bz_Less<_bz_typename P_expr1::T_numtype, float> > >
3481	operator<(_bz_MatExpr<P_expr1> d1, float d2)
3482	{
3483	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3484	_bz_MatExprConstant<float>,
3485	_bz_Less<_bz_typename P_expr1::T_numtype, float> > T_expr;
3486
3487	return _bz_MatExpr<T_expr>(T_expr(d1,
3488	_bz_MatExprConstant<float>(d2)));
3489	}
3490
3491	// _bz_MatExpr<P_expr1> < double
3492	template<class P_expr1>
3493	inline
3494	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3495	_bz_MatExprConstant<double>, _bz_Less<_bz_typename P_expr1::T_numtype, double> > >
3496	operator<(_bz_MatExpr<P_expr1> d1, double d2)
3497	{
3498	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3499	_bz_MatExprConstant<double>,
3500	_bz_Less<_bz_typename P_expr1::T_numtype, double> > T_expr;
3501
3502	return _bz_MatExpr<T_expr>(T_expr(d1,
3503	_bz_MatExprConstant<double>(d2)));
3504	}
3505
3506	// _bz_MatExpr<P_expr1> < long double
3507	template<class P_expr1>
3508	inline
3509	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3510	_bz_MatExprConstant<long double>, _bz_Less<_bz_typename P_expr1::T_numtype, long double> > >
3511	operator<(_bz_MatExpr<P_expr1> d1, long double d2)
3512	{
3513	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3514	_bz_MatExprConstant<long double>,
3515	_bz_Less<_bz_typename P_expr1::T_numtype, long double> > T_expr;
3516
3517	return _bz_MatExpr<T_expr>(T_expr(d1,
3518	_bz_MatExprConstant<long double>(d2)));
3519	}
3520
3521	#ifdef BZ_HAVE_COMPLEX
3522	// _bz_MatExpr<P_expr1> < complex<float>
3523	template<class P_expr1>
3524	inline
3525	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3526	_bz_MatExprConstant<complex<float> >, _bz_Less<_bz_typename P_expr1::T_numtype, complex<float> > > >
3527	operator<(_bz_MatExpr<P_expr1> d1, complex<float> d2)
3528	{
3529	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3530	_bz_MatExprConstant<complex<float> >,
3531	_bz_Less<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
3532
3533	return _bz_MatExpr<T_expr>(T_expr(d1,
3534	_bz_MatExprConstant<complex<float> >(d2)));
3535	}
3536	#endif // BZ_HAVE_COMPLEX
3537
3538	#ifdef BZ_HAVE_COMPLEX
3539	// _bz_MatExpr<P_expr1> < complex<double>
3540	template<class P_expr1>
3541	inline
3542	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3543	_bz_MatExprConstant<complex<double> >, _bz_Less<_bz_typename P_expr1::T_numtype, complex<double> > > >
3544	operator<(_bz_MatExpr<P_expr1> d1, complex<double> d2)
3545	{
3546	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3547	_bz_MatExprConstant<complex<double> >,
3548	_bz_Less<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
3549
3550	return _bz_MatExpr<T_expr>(T_expr(d1,
3551	_bz_MatExprConstant<complex<double> >(d2)));
3552	}
3553	#endif // BZ_HAVE_COMPLEX
3554
3555	#ifdef BZ_HAVE_COMPLEX
3556	// _bz_MatExpr<P_expr1> < complex<long double>
3557	template<class P_expr1>
3558	inline
3559	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3560	_bz_MatExprConstant<complex<long double> >, _bz_Less<_bz_typename P_expr1::T_numtype, complex<long double> > > >
3561	operator<(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
3562	{
3563	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3564	_bz_MatExprConstant<complex<long double> >,
3565	_bz_Less<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
3566
3567	return _bz_MatExpr<T_expr>(T_expr(d1,
3568	_bz_MatExprConstant<complex<long double> >(d2)));
3569	}
3570	#endif // BZ_HAVE_COMPLEX
3571
3572	// int < Matrix<P_numtype2, P_struct2>
3573	template<class P_numtype2, class P_struct2>
3574	inline
3575	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
3576	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<int, P_numtype2> > >
3577	operator<(int d1, const Matrix<P_numtype2, P_struct2>& d2)
3578	{
3579	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
3580	_bz_MatrixRef<P_numtype2, P_struct2>,
3581	_bz_Less<int, P_numtype2> > T_expr;
3582
3583	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
3584	d2._bz_getRef()));
3585	}
3586
3587	// int < _bz_MatExpr<P_expr2>
3588	template<class P_expr2>
3589	inline
3590	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
3591	_bz_MatExpr<P_expr2>, _bz_Less<int, _bz_typename P_expr2::T_numtype> > >
3592	operator<(int d1, _bz_MatExpr<P_expr2> d2)
3593	{
3594	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
3595	_bz_MatExpr<P_expr2>,
3596	_bz_Less<int, _bz_typename P_expr2::T_numtype> > T_expr;
3597
3598	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
3599	d2));
3600	}
3601
3602	// float < Matrix<P_numtype2, P_struct2>
3603	template<class P_numtype2, class P_struct2>
3604	inline
3605	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
3606	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<float, P_numtype2> > >
3607	operator<(float d1, const Matrix<P_numtype2, P_struct2>& d2)
3608	{
3609	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
3610	_bz_MatrixRef<P_numtype2, P_struct2>,
3611	_bz_Less<float, P_numtype2> > T_expr;
3612
3613	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
3614	d2._bz_getRef()));
3615	}
3616
3617	// float < _bz_MatExpr<P_expr2>
3618	template<class P_expr2>
3619	inline
3620	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
3621	_bz_MatExpr<P_expr2>, _bz_Less<float, _bz_typename P_expr2::T_numtype> > >
3622	operator<(float d1, _bz_MatExpr<P_expr2> d2)
3623	{
3624	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
3625	_bz_MatExpr<P_expr2>,
3626	_bz_Less<float, _bz_typename P_expr2::T_numtype> > T_expr;
3627
3628	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
3629	d2));
3630	}
3631
3632	// double < Matrix<P_numtype2, P_struct2>
3633	template<class P_numtype2, class P_struct2>
3634	inline
3635	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
3636	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<double, P_numtype2> > >
3637	operator<(double d1, const Matrix<P_numtype2, P_struct2>& d2)
3638	{
3639	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
3640	_bz_MatrixRef<P_numtype2, P_struct2>,
3641	_bz_Less<double, P_numtype2> > T_expr;
3642
3643	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
3644	d2._bz_getRef()));
3645	}
3646
3647	// double < _bz_MatExpr<P_expr2>
3648	template<class P_expr2>
3649	inline
3650	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
3651	_bz_MatExpr<P_expr2>, _bz_Less<double, _bz_typename P_expr2::T_numtype> > >
3652	operator<(double d1, _bz_MatExpr<P_expr2> d2)
3653	{
3654	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
3655	_bz_MatExpr<P_expr2>,
3656	_bz_Less<double, _bz_typename P_expr2::T_numtype> > T_expr;
3657
3658	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
3659	d2));
3660	}
3661
3662	// long double < Matrix<P_numtype2, P_struct2>
3663	template<class P_numtype2, class P_struct2>
3664	inline
3665	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
3666	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<long double, P_numtype2> > >
3667	operator<(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
3668	{
3669	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
3670	_bz_MatrixRef<P_numtype2, P_struct2>,
3671	_bz_Less<long double, P_numtype2> > T_expr;
3672
3673	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
3674	d2._bz_getRef()));
3675	}
3676
3677	// long double < _bz_MatExpr<P_expr2>
3678	template<class P_expr2>
3679	inline
3680	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
3681	_bz_MatExpr<P_expr2>, _bz_Less<long double, _bz_typename P_expr2::T_numtype> > >
3682	operator<(long double d1, _bz_MatExpr<P_expr2> d2)
3683	{
3684	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
3685	_bz_MatExpr<P_expr2>,
3686	_bz_Less<long double, _bz_typename P_expr2::T_numtype> > T_expr;
3687
3688	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
3689	d2));
3690	}
3691
3692	#ifdef BZ_HAVE_COMPLEX
3693	// complex<float> < Matrix<P_numtype2, P_struct2>
3694	template<class P_numtype2, class P_struct2>
3695	inline
3696	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3697	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<complex<float> , P_numtype2> > >
3698	operator<(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
3699	{
3700	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3701	_bz_MatrixRef<P_numtype2, P_struct2>,
3702	_bz_Less<complex<float> , P_numtype2> > T_expr;
3703
3704	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
3705	d2._bz_getRef()));
3706	}
3707	#endif // BZ_HAVE_COMPLEX
3708
3709	#ifdef BZ_HAVE_COMPLEX
3710	// complex<float> < _bz_MatExpr<P_expr2>
3711	template<class P_expr2>
3712	inline
3713	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3714	_bz_MatExpr<P_expr2>, _bz_Less<complex<float> , _bz_typename P_expr2::T_numtype> > >
3715	operator<(complex<float> d1, _bz_MatExpr<P_expr2> d2)
3716	{
3717	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
3718	_bz_MatExpr<P_expr2>,
3719	_bz_Less<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
3720
3721	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
3722	d2));
3723	}
3724	#endif // BZ_HAVE_COMPLEX
3725
3726	#ifdef BZ_HAVE_COMPLEX
3727	// complex<double> < Matrix<P_numtype2, P_struct2>
3728	template<class P_numtype2, class P_struct2>
3729	inline
3730	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3731	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<complex<double> , P_numtype2> > >
3732	operator<(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
3733	{
3734	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3735	_bz_MatrixRef<P_numtype2, P_struct2>,
3736	_bz_Less<complex<double> , P_numtype2> > T_expr;
3737
3738	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
3739	d2._bz_getRef()));
3740	}
3741	#endif // BZ_HAVE_COMPLEX
3742
3743	#ifdef BZ_HAVE_COMPLEX
3744	// complex<double> < _bz_MatExpr<P_expr2>
3745	template<class P_expr2>
3746	inline
3747	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3748	_bz_MatExpr<P_expr2>, _bz_Less<complex<double> , _bz_typename P_expr2::T_numtype> > >
3749	operator<(complex<double> d1, _bz_MatExpr<P_expr2> d2)
3750	{
3751	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
3752	_bz_MatExpr<P_expr2>,
3753	_bz_Less<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
3754
3755	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
3756	d2));
3757	}
3758	#endif // BZ_HAVE_COMPLEX
3759
3760	#ifdef BZ_HAVE_COMPLEX
3761	// complex<long double> < Matrix<P_numtype2, P_struct2>
3762	template<class P_numtype2, class P_struct2>
3763	inline
3764	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3765	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Less<complex<long double> , P_numtype2> > >
3766	operator<(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
3767	{
3768	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3769	_bz_MatrixRef<P_numtype2, P_struct2>,
3770	_bz_Less<complex<long double> , P_numtype2> > T_expr;
3771
3772	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
3773	d2._bz_getRef()));
3774	}
3775	#endif // BZ_HAVE_COMPLEX
3776
3777	#ifdef BZ_HAVE_COMPLEX
3778	// complex<long double> < _bz_MatExpr<P_expr2>
3779	template<class P_expr2>
3780	inline
3781	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3782	_bz_MatExpr<P_expr2>, _bz_Less<complex<long double> , _bz_typename P_expr2::T_numtype> > >
3783	operator<(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
3784	{
3785	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
3786	_bz_MatExpr<P_expr2>,
3787	_bz_Less<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
3788
3789	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
3790	d2));
3791	}
3792	#endif // BZ_HAVE_COMPLEX
3793	/****************************************************************************
3794	* Greater or equal (>=) operators
3795	****************************************************************************/
3796
3797	// Matrix<P_numtype1, P_struct1> >= Matrix<P_numtype2, P_struct2>
3798	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
3799	inline
3800	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3801	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<P_numtype1, P_numtype2> > >
3802	operator>=(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
3803	{
3804	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3805	_bz_MatrixRef<P_numtype2, P_struct2>,
3806	_bz_GreaterOrEqual<P_numtype1, P_numtype2> > T_expr;
3807
3808	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3809	d2._bz_getRef()));
3810	}
3811
3812	// Matrix<P_numtype1, P_struct1> >= _bz_MatExpr<P_expr2>
3813	template<class P_numtype1, class P_struct1, class P_expr2>
3814	inline
3815	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3816	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<P_numtype1, _bz_typename P_expr2::T_numtype> > >
3817	operator>=(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
3818	{
3819	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3820	_bz_MatExpr<P_expr2>,
3821	_bz_GreaterOrEqual<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
3822
3823	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3824	d2));
3825	}
3826
3827	// Matrix<P_numtype1, P_struct1> >= int
3828	template<class P_numtype1, class P_struct1>
3829	inline
3830	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3831	_bz_MatExprConstant<int>, _bz_GreaterOrEqual<P_numtype1, int> > >
3832	operator>=(const Matrix<P_numtype1, P_struct1>& d1, int d2)
3833	{
3834	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3835	_bz_MatExprConstant<int>,
3836	_bz_GreaterOrEqual<P_numtype1, int> > T_expr;
3837
3838	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3839	_bz_MatExprConstant<int>(d2)));
3840	}
3841
3842	// Matrix<P_numtype1, P_struct1> >= float
3843	template<class P_numtype1, class P_struct1>
3844	inline
3845	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3846	_bz_MatExprConstant<float>, _bz_GreaterOrEqual<P_numtype1, float> > >
3847	operator>=(const Matrix<P_numtype1, P_struct1>& d1, float d2)
3848	{
3849	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3850	_bz_MatExprConstant<float>,
3851	_bz_GreaterOrEqual<P_numtype1, float> > T_expr;
3852
3853	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3854	_bz_MatExprConstant<float>(d2)));
3855	}
3856
3857	// Matrix<P_numtype1, P_struct1> >= double
3858	template<class P_numtype1, class P_struct1>
3859	inline
3860	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3861	_bz_MatExprConstant<double>, _bz_GreaterOrEqual<P_numtype1, double> > >
3862	operator>=(const Matrix<P_numtype1, P_struct1>& d1, double d2)
3863	{
3864	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3865	_bz_MatExprConstant<double>,
3866	_bz_GreaterOrEqual<P_numtype1, double> > T_expr;
3867
3868	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3869	_bz_MatExprConstant<double>(d2)));
3870	}
3871
3872	// Matrix<P_numtype1, P_struct1> >= long double
3873	template<class P_numtype1, class P_struct1>
3874	inline
3875	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3876	_bz_MatExprConstant<long double>, _bz_GreaterOrEqual<P_numtype1, long double> > >
3877	operator>=(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
3878	{
3879	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3880	_bz_MatExprConstant<long double>,
3881	_bz_GreaterOrEqual<P_numtype1, long double> > T_expr;
3882
3883	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3884	_bz_MatExprConstant<long double>(d2)));
3885	}
3886
3887	#ifdef BZ_HAVE_COMPLEX
3888	// Matrix<P_numtype1, P_struct1> >= complex<float>
3889	template<class P_numtype1, class P_struct1>
3890	inline
3891	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3892	_bz_MatExprConstant<complex<float> >, _bz_GreaterOrEqual<P_numtype1, complex<float> > > >
3893	operator>=(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
3894	{
3895	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3896	_bz_MatExprConstant<complex<float> >,
3897	_bz_GreaterOrEqual<P_numtype1, complex<float> > > T_expr;
3898
3899	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3900	_bz_MatExprConstant<complex<float> >(d2)));
3901	}
3902	#endif // BZ_HAVE_COMPLEX
3903
3904	#ifdef BZ_HAVE_COMPLEX
3905	// Matrix<P_numtype1, P_struct1> >= complex<double>
3906	template<class P_numtype1, class P_struct1>
3907	inline
3908	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3909	_bz_MatExprConstant<complex<double> >, _bz_GreaterOrEqual<P_numtype1, complex<double> > > >
3910	operator>=(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
3911	{
3912	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3913	_bz_MatExprConstant<complex<double> >,
3914	_bz_GreaterOrEqual<P_numtype1, complex<double> > > T_expr;
3915
3916	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3917	_bz_MatExprConstant<complex<double> >(d2)));
3918	}
3919	#endif // BZ_HAVE_COMPLEX
3920
3921	#ifdef BZ_HAVE_COMPLEX
3922	// Matrix<P_numtype1, P_struct1> >= complex<long double>
3923	template<class P_numtype1, class P_struct1>
3924	inline
3925	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3926	_bz_MatExprConstant<complex<long double> >, _bz_GreaterOrEqual<P_numtype1, complex<long double> > > >
3927	operator>=(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
3928	{
3929	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
3930	_bz_MatExprConstant<complex<long double> >,
3931	_bz_GreaterOrEqual<P_numtype1, complex<long double> > > T_expr;
3932
3933	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
3934	_bz_MatExprConstant<complex<long double> >(d2)));
3935	}
3936	#endif // BZ_HAVE_COMPLEX
3937
3938	// _bz_MatExpr<P_expr1> >= Matrix<P_numtype2, P_struct2>
3939	template<class P_expr1, class P_numtype2, class P_struct2>
3940	inline
3941	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3942	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, P_numtype2> > >
3943	operator>=(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
3944	{
3945	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3946	_bz_MatrixRef<P_numtype2, P_struct2>,
3947	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
3948
3949	return _bz_MatExpr<T_expr>(T_expr(d1,
3950	d2._bz_getRef()));
3951	}
3952
3953	// _bz_MatExpr<P_expr1> >= _bz_MatExpr<P_expr2>
3954	template<class P_expr1, class P_expr2>
3955	inline
3956	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3957	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
3958	operator>=(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
3959	{
3960	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3961	_bz_MatExpr<P_expr2>,
3962	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
3963
3964	return _bz_MatExpr<T_expr>(T_expr(d1,
3965	d2));
3966	}
3967
3968	// _bz_MatExpr<P_expr1> >= int
3969	template<class P_expr1>
3970	inline
3971	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3972	_bz_MatExprConstant<int>, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, int> > >
3973	operator>=(_bz_MatExpr<P_expr1> d1, int d2)
3974	{
3975	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3976	_bz_MatExprConstant<int>,
3977	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, int> > T_expr;
3978
3979	return _bz_MatExpr<T_expr>(T_expr(d1,
3980	_bz_MatExprConstant<int>(d2)));
3981	}
3982
3983	// _bz_MatExpr<P_expr1> >= float
3984	template<class P_expr1>
3985	inline
3986	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
3987	_bz_MatExprConstant<float>, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, float> > >
3988	operator>=(_bz_MatExpr<P_expr1> d1, float d2)
3989	{
3990	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
3991	_bz_MatExprConstant<float>,
3992	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, float> > T_expr;
3993
3994	return _bz_MatExpr<T_expr>(T_expr(d1,
3995	_bz_MatExprConstant<float>(d2)));
3996	}
3997
3998	// _bz_MatExpr<P_expr1> >= double
3999	template<class P_expr1>
4000	inline
4001	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4002	_bz_MatExprConstant<double>, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, double> > >
4003	operator>=(_bz_MatExpr<P_expr1> d1, double d2)
4004	{
4005	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4006	_bz_MatExprConstant<double>,
4007	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, double> > T_expr;
4008
4009	return _bz_MatExpr<T_expr>(T_expr(d1,
4010	_bz_MatExprConstant<double>(d2)));
4011	}
4012
4013	// _bz_MatExpr<P_expr1> >= long double
4014	template<class P_expr1>
4015	inline
4016	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4017	_bz_MatExprConstant<long double>, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, long double> > >
4018	operator>=(_bz_MatExpr<P_expr1> d1, long double d2)
4019	{
4020	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4021	_bz_MatExprConstant<long double>,
4022	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, long double> > T_expr;
4023
4024	return _bz_MatExpr<T_expr>(T_expr(d1,
4025	_bz_MatExprConstant<long double>(d2)));
4026	}
4027
4028	#ifdef BZ_HAVE_COMPLEX
4029	// _bz_MatExpr<P_expr1> >= complex<float>
4030	template<class P_expr1>
4031	inline
4032	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4033	_bz_MatExprConstant<complex<float> >, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, complex<float> > > >
4034	operator>=(_bz_MatExpr<P_expr1> d1, complex<float> d2)
4035	{
4036	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4037	_bz_MatExprConstant<complex<float> >,
4038	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
4039
4040	return _bz_MatExpr<T_expr>(T_expr(d1,
4041	_bz_MatExprConstant<complex<float> >(d2)));
4042	}
4043	#endif // BZ_HAVE_COMPLEX
4044
4045	#ifdef BZ_HAVE_COMPLEX
4046	// _bz_MatExpr<P_expr1> >= complex<double>
4047	template<class P_expr1>
4048	inline
4049	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4050	_bz_MatExprConstant<complex<double> >, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, complex<double> > > >
4051	operator>=(_bz_MatExpr<P_expr1> d1, complex<double> d2)
4052	{
4053	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4054	_bz_MatExprConstant<complex<double> >,
4055	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
4056
4057	return _bz_MatExpr<T_expr>(T_expr(d1,
4058	_bz_MatExprConstant<complex<double> >(d2)));
4059	}
4060	#endif // BZ_HAVE_COMPLEX
4061
4062	#ifdef BZ_HAVE_COMPLEX
4063	// _bz_MatExpr<P_expr1> >= complex<long double>
4064	template<class P_expr1>
4065	inline
4066	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4067	_bz_MatExprConstant<complex<long double> >, _bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, complex<long double> > > >
4068	operator>=(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
4069	{
4070	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4071	_bz_MatExprConstant<complex<long double> >,
4072	_bz_GreaterOrEqual<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
4073
4074	return _bz_MatExpr<T_expr>(T_expr(d1,
4075	_bz_MatExprConstant<complex<long double> >(d2)));
4076	}
4077	#endif // BZ_HAVE_COMPLEX
4078
4079	// int >= Matrix<P_numtype2, P_struct2>
4080	template<class P_numtype2, class P_struct2>
4081	inline
4082	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
4083	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<int, P_numtype2> > >
4084	operator>=(int d1, const Matrix<P_numtype2, P_struct2>& d2)
4085	{
4086	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
4087	_bz_MatrixRef<P_numtype2, P_struct2>,
4088	_bz_GreaterOrEqual<int, P_numtype2> > T_expr;
4089
4090	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
4091	d2._bz_getRef()));
4092	}
4093
4094	// int >= _bz_MatExpr<P_expr2>
4095	template<class P_expr2>
4096	inline
4097	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
4098	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<int, _bz_typename P_expr2::T_numtype> > >
4099	operator>=(int d1, _bz_MatExpr<P_expr2> d2)
4100	{
4101	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
4102	_bz_MatExpr<P_expr2>,
4103	_bz_GreaterOrEqual<int, _bz_typename P_expr2::T_numtype> > T_expr;
4104
4105	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
4106	d2));
4107	}
4108
4109	// float >= Matrix<P_numtype2, P_struct2>
4110	template<class P_numtype2, class P_struct2>
4111	inline
4112	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
4113	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<float, P_numtype2> > >
4114	operator>=(float d1, const Matrix<P_numtype2, P_struct2>& d2)
4115	{
4116	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
4117	_bz_MatrixRef<P_numtype2, P_struct2>,
4118	_bz_GreaterOrEqual<float, P_numtype2> > T_expr;
4119
4120	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
4121	d2._bz_getRef()));
4122	}
4123
4124	// float >= _bz_MatExpr<P_expr2>
4125	template<class P_expr2>
4126	inline
4127	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
4128	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<float, _bz_typename P_expr2::T_numtype> > >
4129	operator>=(float d1, _bz_MatExpr<P_expr2> d2)
4130	{
4131	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
4132	_bz_MatExpr<P_expr2>,
4133	_bz_GreaterOrEqual<float, _bz_typename P_expr2::T_numtype> > T_expr;
4134
4135	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
4136	d2));
4137	}
4138
4139	// double >= Matrix<P_numtype2, P_struct2>
4140	template<class P_numtype2, class P_struct2>
4141	inline
4142	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
4143	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<double, P_numtype2> > >
4144	operator>=(double d1, const Matrix<P_numtype2, P_struct2>& d2)
4145	{
4146	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
4147	_bz_MatrixRef<P_numtype2, P_struct2>,
4148	_bz_GreaterOrEqual<double, P_numtype2> > T_expr;
4149
4150	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
4151	d2._bz_getRef()));
4152	}
4153
4154	// double >= _bz_MatExpr<P_expr2>
4155	template<class P_expr2>
4156	inline
4157	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
4158	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<double, _bz_typename P_expr2::T_numtype> > >
4159	operator>=(double d1, _bz_MatExpr<P_expr2> d2)
4160	{
4161	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
4162	_bz_MatExpr<P_expr2>,
4163	_bz_GreaterOrEqual<double, _bz_typename P_expr2::T_numtype> > T_expr;
4164
4165	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
4166	d2));
4167	}
4168
4169	// long double >= Matrix<P_numtype2, P_struct2>
4170	template<class P_numtype2, class P_struct2>
4171	inline
4172	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
4173	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<long double, P_numtype2> > >
4174	operator>=(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
4175	{
4176	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
4177	_bz_MatrixRef<P_numtype2, P_struct2>,
4178	_bz_GreaterOrEqual<long double, P_numtype2> > T_expr;
4179
4180	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
4181	d2._bz_getRef()));
4182	}
4183
4184	// long double >= _bz_MatExpr<P_expr2>
4185	template<class P_expr2>
4186	inline
4187	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
4188	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<long double, _bz_typename P_expr2::T_numtype> > >
4189	operator>=(long double d1, _bz_MatExpr<P_expr2> d2)
4190	{
4191	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
4192	_bz_MatExpr<P_expr2>,
4193	_bz_GreaterOrEqual<long double, _bz_typename P_expr2::T_numtype> > T_expr;
4194
4195	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
4196	d2));
4197	}
4198
4199	#ifdef BZ_HAVE_COMPLEX
4200	// complex<float> >= Matrix<P_numtype2, P_struct2>
4201	template<class P_numtype2, class P_struct2>
4202	inline
4203	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4204	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<complex<float> , P_numtype2> > >
4205	operator>=(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
4206	{
4207	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4208	_bz_MatrixRef<P_numtype2, P_struct2>,
4209	_bz_GreaterOrEqual<complex<float> , P_numtype2> > T_expr;
4210
4211	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
4212	d2._bz_getRef()));
4213	}
4214	#endif // BZ_HAVE_COMPLEX
4215
4216	#ifdef BZ_HAVE_COMPLEX
4217	// complex<float> >= _bz_MatExpr<P_expr2>
4218	template<class P_expr2>
4219	inline
4220	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4221	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<complex<float> , _bz_typename P_expr2::T_numtype> > >
4222	operator>=(complex<float> d1, _bz_MatExpr<P_expr2> d2)
4223	{
4224	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4225	_bz_MatExpr<P_expr2>,
4226	_bz_GreaterOrEqual<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
4227
4228	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
4229	d2));
4230	}
4231	#endif // BZ_HAVE_COMPLEX
4232
4233	#ifdef BZ_HAVE_COMPLEX
4234	// complex<double> >= Matrix<P_numtype2, P_struct2>
4235	template<class P_numtype2, class P_struct2>
4236	inline
4237	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4238	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<complex<double> , P_numtype2> > >
4239	operator>=(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
4240	{
4241	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4242	_bz_MatrixRef<P_numtype2, P_struct2>,
4243	_bz_GreaterOrEqual<complex<double> , P_numtype2> > T_expr;
4244
4245	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
4246	d2._bz_getRef()));
4247	}
4248	#endif // BZ_HAVE_COMPLEX
4249
4250	#ifdef BZ_HAVE_COMPLEX
4251	// complex<double> >= _bz_MatExpr<P_expr2>
4252	template<class P_expr2>
4253	inline
4254	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4255	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<complex<double> , _bz_typename P_expr2::T_numtype> > >
4256	operator>=(complex<double> d1, _bz_MatExpr<P_expr2> d2)
4257	{
4258	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4259	_bz_MatExpr<P_expr2>,
4260	_bz_GreaterOrEqual<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
4261
4262	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
4263	d2));
4264	}
4265	#endif // BZ_HAVE_COMPLEX
4266
4267	#ifdef BZ_HAVE_COMPLEX
4268	// complex<long double> >= Matrix<P_numtype2, P_struct2>
4269	template<class P_numtype2, class P_struct2>
4270	inline
4271	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4272	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_GreaterOrEqual<complex<long double> , P_numtype2> > >
4273	operator>=(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
4274	{
4275	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4276	_bz_MatrixRef<P_numtype2, P_struct2>,
4277	_bz_GreaterOrEqual<complex<long double> , P_numtype2> > T_expr;
4278
4279	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
4280	d2._bz_getRef()));
4281	}
4282	#endif // BZ_HAVE_COMPLEX
4283
4284	#ifdef BZ_HAVE_COMPLEX
4285	// complex<long double> >= _bz_MatExpr<P_expr2>
4286	template<class P_expr2>
4287	inline
4288	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4289	_bz_MatExpr<P_expr2>, _bz_GreaterOrEqual<complex<long double> , _bz_typename P_expr2::T_numtype> > >
4290	operator>=(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
4291	{
4292	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4293	_bz_MatExpr<P_expr2>,
4294	_bz_GreaterOrEqual<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
4295
4296	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
4297	d2));
4298	}
4299	#endif // BZ_HAVE_COMPLEX
4300	/****************************************************************************
4301	* Less or equal (<=) operators
4302	****************************************************************************/
4303
4304	// Matrix<P_numtype1, P_struct1> <= Matrix<P_numtype2, P_struct2>
4305	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
4306	inline
4307	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4308	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<P_numtype1, P_numtype2> > >
4309	operator<=(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
4310	{
4311	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4312	_bz_MatrixRef<P_numtype2, P_struct2>,
4313	_bz_LessOrEqual<P_numtype1, P_numtype2> > T_expr;
4314
4315	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4316	d2._bz_getRef()));
4317	}
4318
4319	// Matrix<P_numtype1, P_struct1> <= _bz_MatExpr<P_expr2>
4320	template<class P_numtype1, class P_struct1, class P_expr2>
4321	inline
4322	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4323	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<P_numtype1, _bz_typename P_expr2::T_numtype> > >
4324	operator<=(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
4325	{
4326	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4327	_bz_MatExpr<P_expr2>,
4328	_bz_LessOrEqual<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
4329
4330	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4331	d2));
4332	}
4333
4334	// Matrix<P_numtype1, P_struct1> <= int
4335	template<class P_numtype1, class P_struct1>
4336	inline
4337	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4338	_bz_MatExprConstant<int>, _bz_LessOrEqual<P_numtype1, int> > >
4339	operator<=(const Matrix<P_numtype1, P_struct1>& d1, int d2)
4340	{
4341	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4342	_bz_MatExprConstant<int>,
4343	_bz_LessOrEqual<P_numtype1, int> > T_expr;
4344
4345	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4346	_bz_MatExprConstant<int>(d2)));
4347	}
4348
4349	// Matrix<P_numtype1, P_struct1> <= float
4350	template<class P_numtype1, class P_struct1>
4351	inline
4352	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4353	_bz_MatExprConstant<float>, _bz_LessOrEqual<P_numtype1, float> > >
4354	operator<=(const Matrix<P_numtype1, P_struct1>& d1, float d2)
4355	{
4356	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4357	_bz_MatExprConstant<float>,
4358	_bz_LessOrEqual<P_numtype1, float> > T_expr;
4359
4360	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4361	_bz_MatExprConstant<float>(d2)));
4362	}
4363
4364	// Matrix<P_numtype1, P_struct1> <= double
4365	template<class P_numtype1, class P_struct1>
4366	inline
4367	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4368	_bz_MatExprConstant<double>, _bz_LessOrEqual<P_numtype1, double> > >
4369	operator<=(const Matrix<P_numtype1, P_struct1>& d1, double d2)
4370	{
4371	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4372	_bz_MatExprConstant<double>,
4373	_bz_LessOrEqual<P_numtype1, double> > T_expr;
4374
4375	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4376	_bz_MatExprConstant<double>(d2)));
4377	}
4378
4379	// Matrix<P_numtype1, P_struct1> <= long double
4380	template<class P_numtype1, class P_struct1>
4381	inline
4382	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4383	_bz_MatExprConstant<long double>, _bz_LessOrEqual<P_numtype1, long double> > >
4384	operator<=(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
4385	{
4386	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4387	_bz_MatExprConstant<long double>,
4388	_bz_LessOrEqual<P_numtype1, long double> > T_expr;
4389
4390	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4391	_bz_MatExprConstant<long double>(d2)));
4392	}
4393
4394	#ifdef BZ_HAVE_COMPLEX
4395	// Matrix<P_numtype1, P_struct1> <= complex<float>
4396	template<class P_numtype1, class P_struct1>
4397	inline
4398	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4399	_bz_MatExprConstant<complex<float> >, _bz_LessOrEqual<P_numtype1, complex<float> > > >
4400	operator<=(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
4401	{
4402	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4403	_bz_MatExprConstant<complex<float> >,
4404	_bz_LessOrEqual<P_numtype1, complex<float> > > T_expr;
4405
4406	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4407	_bz_MatExprConstant<complex<float> >(d2)));
4408	}
4409	#endif // BZ_HAVE_COMPLEX
4410
4411	#ifdef BZ_HAVE_COMPLEX
4412	// Matrix<P_numtype1, P_struct1> <= complex<double>
4413	template<class P_numtype1, class P_struct1>
4414	inline
4415	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4416	_bz_MatExprConstant<complex<double> >, _bz_LessOrEqual<P_numtype1, complex<double> > > >
4417	operator<=(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
4418	{
4419	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4420	_bz_MatExprConstant<complex<double> >,
4421	_bz_LessOrEqual<P_numtype1, complex<double> > > T_expr;
4422
4423	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4424	_bz_MatExprConstant<complex<double> >(d2)));
4425	}
4426	#endif // BZ_HAVE_COMPLEX
4427
4428	#ifdef BZ_HAVE_COMPLEX
4429	// Matrix<P_numtype1, P_struct1> <= complex<long double>
4430	template<class P_numtype1, class P_struct1>
4431	inline
4432	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4433	_bz_MatExprConstant<complex<long double> >, _bz_LessOrEqual<P_numtype1, complex<long double> > > >
4434	operator<=(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
4435	{
4436	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4437	_bz_MatExprConstant<complex<long double> >,
4438	_bz_LessOrEqual<P_numtype1, complex<long double> > > T_expr;
4439
4440	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4441	_bz_MatExprConstant<complex<long double> >(d2)));
4442	}
4443	#endif // BZ_HAVE_COMPLEX
4444
4445	// _bz_MatExpr<P_expr1> <= Matrix<P_numtype2, P_struct2>
4446	template<class P_expr1, class P_numtype2, class P_struct2>
4447	inline
4448	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4449	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, P_numtype2> > >
4450	operator<=(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
4451	{
4452	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4453	_bz_MatrixRef<P_numtype2, P_struct2>,
4454	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
4455
4456	return _bz_MatExpr<T_expr>(T_expr(d1,
4457	d2._bz_getRef()));
4458	}
4459
4460	// _bz_MatExpr<P_expr1> <= _bz_MatExpr<P_expr2>
4461	template<class P_expr1, class P_expr2>
4462	inline
4463	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4464	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
4465	operator<=(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
4466	{
4467	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4468	_bz_MatExpr<P_expr2>,
4469	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
4470
4471	return _bz_MatExpr<T_expr>(T_expr(d1,
4472	d2));
4473	}
4474
4475	// _bz_MatExpr<P_expr1> <= int
4476	template<class P_expr1>
4477	inline
4478	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4479	_bz_MatExprConstant<int>, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, int> > >
4480	operator<=(_bz_MatExpr<P_expr1> d1, int d2)
4481	{
4482	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4483	_bz_MatExprConstant<int>,
4484	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, int> > T_expr;
4485
4486	return _bz_MatExpr<T_expr>(T_expr(d1,
4487	_bz_MatExprConstant<int>(d2)));
4488	}
4489
4490	// _bz_MatExpr<P_expr1> <= float
4491	template<class P_expr1>
4492	inline
4493	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4494	_bz_MatExprConstant<float>, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, float> > >
4495	operator<=(_bz_MatExpr<P_expr1> d1, float d2)
4496	{
4497	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4498	_bz_MatExprConstant<float>,
4499	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, float> > T_expr;
4500
4501	return _bz_MatExpr<T_expr>(T_expr(d1,
4502	_bz_MatExprConstant<float>(d2)));
4503	}
4504
4505	// _bz_MatExpr<P_expr1> <= double
4506	template<class P_expr1>
4507	inline
4508	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4509	_bz_MatExprConstant<double>, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, double> > >
4510	operator<=(_bz_MatExpr<P_expr1> d1, double d2)
4511	{
4512	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4513	_bz_MatExprConstant<double>,
4514	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, double> > T_expr;
4515
4516	return _bz_MatExpr<T_expr>(T_expr(d1,
4517	_bz_MatExprConstant<double>(d2)));
4518	}
4519
4520	// _bz_MatExpr<P_expr1> <= long double
4521	template<class P_expr1>
4522	inline
4523	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4524	_bz_MatExprConstant<long double>, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, long double> > >
4525	operator<=(_bz_MatExpr<P_expr1> d1, long double d2)
4526	{
4527	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4528	_bz_MatExprConstant<long double>,
4529	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, long double> > T_expr;
4530
4531	return _bz_MatExpr<T_expr>(T_expr(d1,
4532	_bz_MatExprConstant<long double>(d2)));
4533	}
4534
4535	#ifdef BZ_HAVE_COMPLEX
4536	// _bz_MatExpr<P_expr1> <= complex<float>
4537	template<class P_expr1>
4538	inline
4539	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4540	_bz_MatExprConstant<complex<float> >, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, complex<float> > > >
4541	operator<=(_bz_MatExpr<P_expr1> d1, complex<float> d2)
4542	{
4543	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4544	_bz_MatExprConstant<complex<float> >,
4545	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
4546
4547	return _bz_MatExpr<T_expr>(T_expr(d1,
4548	_bz_MatExprConstant<complex<float> >(d2)));
4549	}
4550	#endif // BZ_HAVE_COMPLEX
4551
4552	#ifdef BZ_HAVE_COMPLEX
4553	// _bz_MatExpr<P_expr1> <= complex<double>
4554	template<class P_expr1>
4555	inline
4556	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4557	_bz_MatExprConstant<complex<double> >, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, complex<double> > > >
4558	operator<=(_bz_MatExpr<P_expr1> d1, complex<double> d2)
4559	{
4560	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4561	_bz_MatExprConstant<complex<double> >,
4562	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
4563
4564	return _bz_MatExpr<T_expr>(T_expr(d1,
4565	_bz_MatExprConstant<complex<double> >(d2)));
4566	}
4567	#endif // BZ_HAVE_COMPLEX
4568
4569	#ifdef BZ_HAVE_COMPLEX
4570	// _bz_MatExpr<P_expr1> <= complex<long double>
4571	template<class P_expr1>
4572	inline
4573	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4574	_bz_MatExprConstant<complex<long double> >, _bz_LessOrEqual<_bz_typename P_expr1::T_numtype, complex<long double> > > >
4575	operator<=(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
4576	{
4577	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4578	_bz_MatExprConstant<complex<long double> >,
4579	_bz_LessOrEqual<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
4580
4581	return _bz_MatExpr<T_expr>(T_expr(d1,
4582	_bz_MatExprConstant<complex<long double> >(d2)));
4583	}
4584	#endif // BZ_HAVE_COMPLEX
4585
4586	// int <= Matrix<P_numtype2, P_struct2>
4587	template<class P_numtype2, class P_struct2>
4588	inline
4589	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
4590	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<int, P_numtype2> > >
4591	operator<=(int d1, const Matrix<P_numtype2, P_struct2>& d2)
4592	{
4593	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
4594	_bz_MatrixRef<P_numtype2, P_struct2>,
4595	_bz_LessOrEqual<int, P_numtype2> > T_expr;
4596
4597	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
4598	d2._bz_getRef()));
4599	}
4600
4601	// int <= _bz_MatExpr<P_expr2>
4602	template<class P_expr2>
4603	inline
4604	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
4605	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<int, _bz_typename P_expr2::T_numtype> > >
4606	operator<=(int d1, _bz_MatExpr<P_expr2> d2)
4607	{
4608	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
4609	_bz_MatExpr<P_expr2>,
4610	_bz_LessOrEqual<int, _bz_typename P_expr2::T_numtype> > T_expr;
4611
4612	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
4613	d2));
4614	}
4615
4616	// float <= Matrix<P_numtype2, P_struct2>
4617	template<class P_numtype2, class P_struct2>
4618	inline
4619	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
4620	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<float, P_numtype2> > >
4621	operator<=(float d1, const Matrix<P_numtype2, P_struct2>& d2)
4622	{
4623	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
4624	_bz_MatrixRef<P_numtype2, P_struct2>,
4625	_bz_LessOrEqual<float, P_numtype2> > T_expr;
4626
4627	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
4628	d2._bz_getRef()));
4629	}
4630
4631	// float <= _bz_MatExpr<P_expr2>
4632	template<class P_expr2>
4633	inline
4634	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
4635	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<float, _bz_typename P_expr2::T_numtype> > >
4636	operator<=(float d1, _bz_MatExpr<P_expr2> d2)
4637	{
4638	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
4639	_bz_MatExpr<P_expr2>,
4640	_bz_LessOrEqual<float, _bz_typename P_expr2::T_numtype> > T_expr;
4641
4642	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
4643	d2));
4644	}
4645
4646	// double <= Matrix<P_numtype2, P_struct2>
4647	template<class P_numtype2, class P_struct2>
4648	inline
4649	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
4650	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<double, P_numtype2> > >
4651	operator<=(double d1, const Matrix<P_numtype2, P_struct2>& d2)
4652	{
4653	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
4654	_bz_MatrixRef<P_numtype2, P_struct2>,
4655	_bz_LessOrEqual<double, P_numtype2> > T_expr;
4656
4657	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
4658	d2._bz_getRef()));
4659	}
4660
4661	// double <= _bz_MatExpr<P_expr2>
4662	template<class P_expr2>
4663	inline
4664	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
4665	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<double, _bz_typename P_expr2::T_numtype> > >
4666	operator<=(double d1, _bz_MatExpr<P_expr2> d2)
4667	{
4668	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
4669	_bz_MatExpr<P_expr2>,
4670	_bz_LessOrEqual<double, _bz_typename P_expr2::T_numtype> > T_expr;
4671
4672	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
4673	d2));
4674	}
4675
4676	// long double <= Matrix<P_numtype2, P_struct2>
4677	template<class P_numtype2, class P_struct2>
4678	inline
4679	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
4680	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<long double, P_numtype2> > >
4681	operator<=(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
4682	{
4683	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
4684	_bz_MatrixRef<P_numtype2, P_struct2>,
4685	_bz_LessOrEqual<long double, P_numtype2> > T_expr;
4686
4687	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
4688	d2._bz_getRef()));
4689	}
4690
4691	// long double <= _bz_MatExpr<P_expr2>
4692	template<class P_expr2>
4693	inline
4694	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
4695	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<long double, _bz_typename P_expr2::T_numtype> > >
4696	operator<=(long double d1, _bz_MatExpr<P_expr2> d2)
4697	{
4698	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
4699	_bz_MatExpr<P_expr2>,
4700	_bz_LessOrEqual<long double, _bz_typename P_expr2::T_numtype> > T_expr;
4701
4702	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
4703	d2));
4704	}
4705
4706	#ifdef BZ_HAVE_COMPLEX
4707	// complex<float> <= Matrix<P_numtype2, P_struct2>
4708	template<class P_numtype2, class P_struct2>
4709	inline
4710	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4711	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<complex<float> , P_numtype2> > >
4712	operator<=(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
4713	{
4714	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4715	_bz_MatrixRef<P_numtype2, P_struct2>,
4716	_bz_LessOrEqual<complex<float> , P_numtype2> > T_expr;
4717
4718	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
4719	d2._bz_getRef()));
4720	}
4721	#endif // BZ_HAVE_COMPLEX
4722
4723	#ifdef BZ_HAVE_COMPLEX
4724	// complex<float> <= _bz_MatExpr<P_expr2>
4725	template<class P_expr2>
4726	inline
4727	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4728	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<complex<float> , _bz_typename P_expr2::T_numtype> > >
4729	operator<=(complex<float> d1, _bz_MatExpr<P_expr2> d2)
4730	{
4731	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
4732	_bz_MatExpr<P_expr2>,
4733	_bz_LessOrEqual<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
4734
4735	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
4736	d2));
4737	}
4738	#endif // BZ_HAVE_COMPLEX
4739
4740	#ifdef BZ_HAVE_COMPLEX
4741	// complex<double> <= Matrix<P_numtype2, P_struct2>
4742	template<class P_numtype2, class P_struct2>
4743	inline
4744	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4745	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<complex<double> , P_numtype2> > >
4746	operator<=(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
4747	{
4748	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4749	_bz_MatrixRef<P_numtype2, P_struct2>,
4750	_bz_LessOrEqual<complex<double> , P_numtype2> > T_expr;
4751
4752	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
4753	d2._bz_getRef()));
4754	}
4755	#endif // BZ_HAVE_COMPLEX
4756
4757	#ifdef BZ_HAVE_COMPLEX
4758	// complex<double> <= _bz_MatExpr<P_expr2>
4759	template<class P_expr2>
4760	inline
4761	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4762	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<complex<double> , _bz_typename P_expr2::T_numtype> > >
4763	operator<=(complex<double> d1, _bz_MatExpr<P_expr2> d2)
4764	{
4765	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
4766	_bz_MatExpr<P_expr2>,
4767	_bz_LessOrEqual<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
4768
4769	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
4770	d2));
4771	}
4772	#endif // BZ_HAVE_COMPLEX
4773
4774	#ifdef BZ_HAVE_COMPLEX
4775	// complex<long double> <= Matrix<P_numtype2, P_struct2>
4776	template<class P_numtype2, class P_struct2>
4777	inline
4778	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4779	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LessOrEqual<complex<long double> , P_numtype2> > >
4780	operator<=(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
4781	{
4782	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4783	_bz_MatrixRef<P_numtype2, P_struct2>,
4784	_bz_LessOrEqual<complex<long double> , P_numtype2> > T_expr;
4785
4786	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
4787	d2._bz_getRef()));
4788	}
4789	#endif // BZ_HAVE_COMPLEX
4790
4791	#ifdef BZ_HAVE_COMPLEX
4792	// complex<long double> <= _bz_MatExpr<P_expr2>
4793	template<class P_expr2>
4794	inline
4795	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4796	_bz_MatExpr<P_expr2>, _bz_LessOrEqual<complex<long double> , _bz_typename P_expr2::T_numtype> > >
4797	operator<=(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
4798	{
4799	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
4800	_bz_MatExpr<P_expr2>,
4801	_bz_LessOrEqual<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
4802
4803	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
4804	d2));
4805	}
4806	#endif // BZ_HAVE_COMPLEX
4807	/****************************************************************************
4808	* Equality operators
4809	****************************************************************************/
4810
4811	// Matrix<P_numtype1, P_struct1> == Matrix<P_numtype2, P_struct2>
4812	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
4813	inline
4814	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4815	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<P_numtype1, P_numtype2> > >
4816	operator==(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
4817	{
4818	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4819	_bz_MatrixRef<P_numtype2, P_struct2>,
4820	_bz_Equal<P_numtype1, P_numtype2> > T_expr;
4821
4822	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4823	d2._bz_getRef()));
4824	}
4825
4826	// Matrix<P_numtype1, P_struct1> == _bz_MatExpr<P_expr2>
4827	template<class P_numtype1, class P_struct1, class P_expr2>
4828	inline
4829	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4830	_bz_MatExpr<P_expr2>, _bz_Equal<P_numtype1, _bz_typename P_expr2::T_numtype> > >
4831	operator==(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
4832	{
4833	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4834	_bz_MatExpr<P_expr2>,
4835	_bz_Equal<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
4836
4837	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4838	d2));
4839	}
4840
4841	// Matrix<P_numtype1, P_struct1> == int
4842	template<class P_numtype1, class P_struct1>
4843	inline
4844	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4845	_bz_MatExprConstant<int>, _bz_Equal<P_numtype1, int> > >
4846	operator==(const Matrix<P_numtype1, P_struct1>& d1, int d2)
4847	{
4848	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4849	_bz_MatExprConstant<int>,
4850	_bz_Equal<P_numtype1, int> > T_expr;
4851
4852	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4853	_bz_MatExprConstant<int>(d2)));
4854	}
4855
4856	// Matrix<P_numtype1, P_struct1> == float
4857	template<class P_numtype1, class P_struct1>
4858	inline
4859	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4860	_bz_MatExprConstant<float>, _bz_Equal<P_numtype1, float> > >
4861	operator==(const Matrix<P_numtype1, P_struct1>& d1, float d2)
4862	{
4863	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4864	_bz_MatExprConstant<float>,
4865	_bz_Equal<P_numtype1, float> > T_expr;
4866
4867	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4868	_bz_MatExprConstant<float>(d2)));
4869	}
4870
4871	// Matrix<P_numtype1, P_struct1> == double
4872	template<class P_numtype1, class P_struct1>
4873	inline
4874	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4875	_bz_MatExprConstant<double>, _bz_Equal<P_numtype1, double> > >
4876	operator==(const Matrix<P_numtype1, P_struct1>& d1, double d2)
4877	{
4878	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4879	_bz_MatExprConstant<double>,
4880	_bz_Equal<P_numtype1, double> > T_expr;
4881
4882	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4883	_bz_MatExprConstant<double>(d2)));
4884	}
4885
4886	// Matrix<P_numtype1, P_struct1> == long double
4887	template<class P_numtype1, class P_struct1>
4888	inline
4889	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4890	_bz_MatExprConstant<long double>, _bz_Equal<P_numtype1, long double> > >
4891	operator==(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
4892	{
4893	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4894	_bz_MatExprConstant<long double>,
4895	_bz_Equal<P_numtype1, long double> > T_expr;
4896
4897	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4898	_bz_MatExprConstant<long double>(d2)));
4899	}
4900
4901	#ifdef BZ_HAVE_COMPLEX
4902	// Matrix<P_numtype1, P_struct1> == complex<float>
4903	template<class P_numtype1, class P_struct1>
4904	inline
4905	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4906	_bz_MatExprConstant<complex<float> >, _bz_Equal<P_numtype1, complex<float> > > >
4907	operator==(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
4908	{
4909	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4910	_bz_MatExprConstant<complex<float> >,
4911	_bz_Equal<P_numtype1, complex<float> > > T_expr;
4912
4913	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4914	_bz_MatExprConstant<complex<float> >(d2)));
4915	}
4916	#endif // BZ_HAVE_COMPLEX
4917
4918	#ifdef BZ_HAVE_COMPLEX
4919	// Matrix<P_numtype1, P_struct1> == complex<double>
4920	template<class P_numtype1, class P_struct1>
4921	inline
4922	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4923	_bz_MatExprConstant<complex<double> >, _bz_Equal<P_numtype1, complex<double> > > >
4924	operator==(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
4925	{
4926	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4927	_bz_MatExprConstant<complex<double> >,
4928	_bz_Equal<P_numtype1, complex<double> > > T_expr;
4929
4930	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4931	_bz_MatExprConstant<complex<double> >(d2)));
4932	}
4933	#endif // BZ_HAVE_COMPLEX
4934
4935	#ifdef BZ_HAVE_COMPLEX
4936	// Matrix<P_numtype1, P_struct1> == complex<long double>
4937	template<class P_numtype1, class P_struct1>
4938	inline
4939	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4940	_bz_MatExprConstant<complex<long double> >, _bz_Equal<P_numtype1, complex<long double> > > >
4941	operator==(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
4942	{
4943	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
4944	_bz_MatExprConstant<complex<long double> >,
4945	_bz_Equal<P_numtype1, complex<long double> > > T_expr;
4946
4947	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
4948	_bz_MatExprConstant<complex<long double> >(d2)));
4949	}
4950	#endif // BZ_HAVE_COMPLEX
4951
4952	// _bz_MatExpr<P_expr1> == Matrix<P_numtype2, P_struct2>
4953	template<class P_expr1, class P_numtype2, class P_struct2>
4954	inline
4955	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4956	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<_bz_typename P_expr1::T_numtype, P_numtype2> > >
4957	operator==(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
4958	{
4959	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4960	_bz_MatrixRef<P_numtype2, P_struct2>,
4961	_bz_Equal<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
4962
4963	return _bz_MatExpr<T_expr>(T_expr(d1,
4964	d2._bz_getRef()));
4965	}
4966
4967	// _bz_MatExpr<P_expr1> == _bz_MatExpr<P_expr2>
4968	template<class P_expr1, class P_expr2>
4969	inline
4970	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4971	_bz_MatExpr<P_expr2>, _bz_Equal<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
4972	operator==(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
4973	{
4974	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4975	_bz_MatExpr<P_expr2>,
4976	_bz_Equal<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
4977
4978	return _bz_MatExpr<T_expr>(T_expr(d1,
4979	d2));
4980	}
4981
4982	// _bz_MatExpr<P_expr1> == int
4983	template<class P_expr1>
4984	inline
4985	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
4986	_bz_MatExprConstant<int>, _bz_Equal<_bz_typename P_expr1::T_numtype, int> > >
4987	operator==(_bz_MatExpr<P_expr1> d1, int d2)
4988	{
4989	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
4990	_bz_MatExprConstant<int>,
4991	_bz_Equal<_bz_typename P_expr1::T_numtype, int> > T_expr;
4992
4993	return _bz_MatExpr<T_expr>(T_expr(d1,
4994	_bz_MatExprConstant<int>(d2)));
4995	}
4996
4997	// _bz_MatExpr<P_expr1> == float
4998	template<class P_expr1>
4999	inline
5000	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5001	_bz_MatExprConstant<float>, _bz_Equal<_bz_typename P_expr1::T_numtype, float> > >
5002	operator==(_bz_MatExpr<P_expr1> d1, float d2)
5003	{
5004	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5005	_bz_MatExprConstant<float>,
5006	_bz_Equal<_bz_typename P_expr1::T_numtype, float> > T_expr;
5007
5008	return _bz_MatExpr<T_expr>(T_expr(d1,
5009	_bz_MatExprConstant<float>(d2)));
5010	}
5011
5012	// _bz_MatExpr<P_expr1> == double
5013	template<class P_expr1>
5014	inline
5015	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5016	_bz_MatExprConstant<double>, _bz_Equal<_bz_typename P_expr1::T_numtype, double> > >
5017	operator==(_bz_MatExpr<P_expr1> d1, double d2)
5018	{
5019	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5020	_bz_MatExprConstant<double>,
5021	_bz_Equal<_bz_typename P_expr1::T_numtype, double> > T_expr;
5022
5023	return _bz_MatExpr<T_expr>(T_expr(d1,
5024	_bz_MatExprConstant<double>(d2)));
5025	}
5026
5027	// _bz_MatExpr<P_expr1> == long double
5028	template<class P_expr1>
5029	inline
5030	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5031	_bz_MatExprConstant<long double>, _bz_Equal<_bz_typename P_expr1::T_numtype, long double> > >
5032	operator==(_bz_MatExpr<P_expr1> d1, long double d2)
5033	{
5034	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5035	_bz_MatExprConstant<long double>,
5036	_bz_Equal<_bz_typename P_expr1::T_numtype, long double> > T_expr;
5037
5038	return _bz_MatExpr<T_expr>(T_expr(d1,
5039	_bz_MatExprConstant<long double>(d2)));
5040	}
5041
5042	#ifdef BZ_HAVE_COMPLEX
5043	// _bz_MatExpr<P_expr1> == complex<float>
5044	template<class P_expr1>
5045	inline
5046	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5047	_bz_MatExprConstant<complex<float> >, _bz_Equal<_bz_typename P_expr1::T_numtype, complex<float> > > >
5048	operator==(_bz_MatExpr<P_expr1> d1, complex<float> d2)
5049	{
5050	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5051	_bz_MatExprConstant<complex<float> >,
5052	_bz_Equal<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
5053
5054	return _bz_MatExpr<T_expr>(T_expr(d1,
5055	_bz_MatExprConstant<complex<float> >(d2)));
5056	}
5057	#endif // BZ_HAVE_COMPLEX
5058
5059	#ifdef BZ_HAVE_COMPLEX
5060	// _bz_MatExpr<P_expr1> == complex<double>
5061	template<class P_expr1>
5062	inline
5063	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5064	_bz_MatExprConstant<complex<double> >, _bz_Equal<_bz_typename P_expr1::T_numtype, complex<double> > > >
5065	operator==(_bz_MatExpr<P_expr1> d1, complex<double> d2)
5066	{
5067	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5068	_bz_MatExprConstant<complex<double> >,
5069	_bz_Equal<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
5070
5071	return _bz_MatExpr<T_expr>(T_expr(d1,
5072	_bz_MatExprConstant<complex<double> >(d2)));
5073	}
5074	#endif // BZ_HAVE_COMPLEX
5075
5076	#ifdef BZ_HAVE_COMPLEX
5077	// _bz_MatExpr<P_expr1> == complex<long double>
5078	template<class P_expr1>
5079	inline
5080	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5081	_bz_MatExprConstant<complex<long double> >, _bz_Equal<_bz_typename P_expr1::T_numtype, complex<long double> > > >
5082	operator==(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
5083	{
5084	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5085	_bz_MatExprConstant<complex<long double> >,
5086	_bz_Equal<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
5087
5088	return _bz_MatExpr<T_expr>(T_expr(d1,
5089	_bz_MatExprConstant<complex<long double> >(d2)));
5090	}
5091	#endif // BZ_HAVE_COMPLEX
5092
5093	// int == Matrix<P_numtype2, P_struct2>
5094	template<class P_numtype2, class P_struct2>
5095	inline
5096	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
5097	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<int, P_numtype2> > >
5098	operator==(int d1, const Matrix<P_numtype2, P_struct2>& d2)
5099	{
5100	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
5101	_bz_MatrixRef<P_numtype2, P_struct2>,
5102	_bz_Equal<int, P_numtype2> > T_expr;
5103
5104	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
5105	d2._bz_getRef()));
5106	}
5107
5108	// int == _bz_MatExpr<P_expr2>
5109	template<class P_expr2>
5110	inline
5111	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
5112	_bz_MatExpr<P_expr2>, _bz_Equal<int, _bz_typename P_expr2::T_numtype> > >
5113	operator==(int d1, _bz_MatExpr<P_expr2> d2)
5114	{
5115	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
5116	_bz_MatExpr<P_expr2>,
5117	_bz_Equal<int, _bz_typename P_expr2::T_numtype> > T_expr;
5118
5119	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
5120	d2));
5121	}
5122
5123	// float == Matrix<P_numtype2, P_struct2>
5124	template<class P_numtype2, class P_struct2>
5125	inline
5126	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
5127	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<float, P_numtype2> > >
5128	operator==(float d1, const Matrix<P_numtype2, P_struct2>& d2)
5129	{
5130	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
5131	_bz_MatrixRef<P_numtype2, P_struct2>,
5132	_bz_Equal<float, P_numtype2> > T_expr;
5133
5134	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
5135	d2._bz_getRef()));
5136	}
5137
5138	// float == _bz_MatExpr<P_expr2>
5139	template<class P_expr2>
5140	inline
5141	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
5142	_bz_MatExpr<P_expr2>, _bz_Equal<float, _bz_typename P_expr2::T_numtype> > >
5143	operator==(float d1, _bz_MatExpr<P_expr2> d2)
5144	{
5145	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
5146	_bz_MatExpr<P_expr2>,
5147	_bz_Equal<float, _bz_typename P_expr2::T_numtype> > T_expr;
5148
5149	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
5150	d2));
5151	}
5152
5153	// double == Matrix<P_numtype2, P_struct2>
5154	template<class P_numtype2, class P_struct2>
5155	inline
5156	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
5157	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<double, P_numtype2> > >
5158	operator==(double d1, const Matrix<P_numtype2, P_struct2>& d2)
5159	{
5160	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
5161	_bz_MatrixRef<P_numtype2, P_struct2>,
5162	_bz_Equal<double, P_numtype2> > T_expr;
5163
5164	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
5165	d2._bz_getRef()));
5166	}
5167
5168	// double == _bz_MatExpr<P_expr2>
5169	template<class P_expr2>
5170	inline
5171	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
5172	_bz_MatExpr<P_expr2>, _bz_Equal<double, _bz_typename P_expr2::T_numtype> > >
5173	operator==(double d1, _bz_MatExpr<P_expr2> d2)
5174	{
5175	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
5176	_bz_MatExpr<P_expr2>,
5177	_bz_Equal<double, _bz_typename P_expr2::T_numtype> > T_expr;
5178
5179	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
5180	d2));
5181	}
5182
5183	// long double == Matrix<P_numtype2, P_struct2>
5184	template<class P_numtype2, class P_struct2>
5185	inline
5186	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
5187	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<long double, P_numtype2> > >
5188	operator==(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
5189	{
5190	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
5191	_bz_MatrixRef<P_numtype2, P_struct2>,
5192	_bz_Equal<long double, P_numtype2> > T_expr;
5193
5194	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
5195	d2._bz_getRef()));
5196	}
5197
5198	// long double == _bz_MatExpr<P_expr2>
5199	template<class P_expr2>
5200	inline
5201	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
5202	_bz_MatExpr<P_expr2>, _bz_Equal<long double, _bz_typename P_expr2::T_numtype> > >
5203	operator==(long double d1, _bz_MatExpr<P_expr2> d2)
5204	{
5205	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
5206	_bz_MatExpr<P_expr2>,
5207	_bz_Equal<long double, _bz_typename P_expr2::T_numtype> > T_expr;
5208
5209	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
5210	d2));
5211	}
5212
5213	#ifdef BZ_HAVE_COMPLEX
5214	// complex<float> == Matrix<P_numtype2, P_struct2>
5215	template<class P_numtype2, class P_struct2>
5216	inline
5217	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5218	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<complex<float> , P_numtype2> > >
5219	operator==(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
5220	{
5221	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5222	_bz_MatrixRef<P_numtype2, P_struct2>,
5223	_bz_Equal<complex<float> , P_numtype2> > T_expr;
5224
5225	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
5226	d2._bz_getRef()));
5227	}
5228	#endif // BZ_HAVE_COMPLEX
5229
5230	#ifdef BZ_HAVE_COMPLEX
5231	// complex<float> == _bz_MatExpr<P_expr2>
5232	template<class P_expr2>
5233	inline
5234	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5235	_bz_MatExpr<P_expr2>, _bz_Equal<complex<float> , _bz_typename P_expr2::T_numtype> > >
5236	operator==(complex<float> d1, _bz_MatExpr<P_expr2> d2)
5237	{
5238	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5239	_bz_MatExpr<P_expr2>,
5240	_bz_Equal<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
5241
5242	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
5243	d2));
5244	}
5245	#endif // BZ_HAVE_COMPLEX
5246
5247	#ifdef BZ_HAVE_COMPLEX
5248	// complex<double> == Matrix<P_numtype2, P_struct2>
5249	template<class P_numtype2, class P_struct2>
5250	inline
5251	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5252	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<complex<double> , P_numtype2> > >
5253	operator==(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
5254	{
5255	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5256	_bz_MatrixRef<P_numtype2, P_struct2>,
5257	_bz_Equal<complex<double> , P_numtype2> > T_expr;
5258
5259	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
5260	d2._bz_getRef()));
5261	}
5262	#endif // BZ_HAVE_COMPLEX
5263
5264	#ifdef BZ_HAVE_COMPLEX
5265	// complex<double> == _bz_MatExpr<P_expr2>
5266	template<class P_expr2>
5267	inline
5268	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5269	_bz_MatExpr<P_expr2>, _bz_Equal<complex<double> , _bz_typename P_expr2::T_numtype> > >
5270	operator==(complex<double> d1, _bz_MatExpr<P_expr2> d2)
5271	{
5272	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5273	_bz_MatExpr<P_expr2>,
5274	_bz_Equal<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
5275
5276	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
5277	d2));
5278	}
5279	#endif // BZ_HAVE_COMPLEX
5280
5281	#ifdef BZ_HAVE_COMPLEX
5282	// complex<long double> == Matrix<P_numtype2, P_struct2>
5283	template<class P_numtype2, class P_struct2>
5284	inline
5285	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5286	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_Equal<complex<long double> , P_numtype2> > >
5287	operator==(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
5288	{
5289	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5290	_bz_MatrixRef<P_numtype2, P_struct2>,
5291	_bz_Equal<complex<long double> , P_numtype2> > T_expr;
5292
5293	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
5294	d2._bz_getRef()));
5295	}
5296	#endif // BZ_HAVE_COMPLEX
5297
5298	#ifdef BZ_HAVE_COMPLEX
5299	// complex<long double> == _bz_MatExpr<P_expr2>
5300	template<class P_expr2>
5301	inline
5302	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5303	_bz_MatExpr<P_expr2>, _bz_Equal<complex<long double> , _bz_typename P_expr2::T_numtype> > >
5304	operator==(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
5305	{
5306	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5307	_bz_MatExpr<P_expr2>,
5308	_bz_Equal<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
5309
5310	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
5311	d2));
5312	}
5313	#endif // BZ_HAVE_COMPLEX
5314	/****************************************************************************
5315	* Not-equal operators
5316	****************************************************************************/
5317
5318	// Matrix<P_numtype1, P_struct1> != Matrix<P_numtype2, P_struct2>
5319	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
5320	inline
5321	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5322	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<P_numtype1, P_numtype2> > >
5323	operator!=(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
5324	{
5325	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5326	_bz_MatrixRef<P_numtype2, P_struct2>,
5327	_bz_NotEqual<P_numtype1, P_numtype2> > T_expr;
5328
5329	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5330	d2._bz_getRef()));
5331	}
5332
5333	// Matrix<P_numtype1, P_struct1> != _bz_MatExpr<P_expr2>
5334	template<class P_numtype1, class P_struct1, class P_expr2>
5335	inline
5336	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5337	_bz_MatExpr<P_expr2>, _bz_NotEqual<P_numtype1, _bz_typename P_expr2::T_numtype> > >
5338	operator!=(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
5339	{
5340	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5341	_bz_MatExpr<P_expr2>,
5342	_bz_NotEqual<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
5343
5344	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5345	d2));
5346	}
5347
5348	// Matrix<P_numtype1, P_struct1> != int
5349	template<class P_numtype1, class P_struct1>
5350	inline
5351	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5352	_bz_MatExprConstant<int>, _bz_NotEqual<P_numtype1, int> > >
5353	operator!=(const Matrix<P_numtype1, P_struct1>& d1, int d2)
5354	{
5355	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5356	_bz_MatExprConstant<int>,
5357	_bz_NotEqual<P_numtype1, int> > T_expr;
5358
5359	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5360	_bz_MatExprConstant<int>(d2)));
5361	}
5362
5363	// Matrix<P_numtype1, P_struct1> != float
5364	template<class P_numtype1, class P_struct1>
5365	inline
5366	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5367	_bz_MatExprConstant<float>, _bz_NotEqual<P_numtype1, float> > >
5368	operator!=(const Matrix<P_numtype1, P_struct1>& d1, float d2)
5369	{
5370	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5371	_bz_MatExprConstant<float>,
5372	_bz_NotEqual<P_numtype1, float> > T_expr;
5373
5374	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5375	_bz_MatExprConstant<float>(d2)));
5376	}
5377
5378	// Matrix<P_numtype1, P_struct1> != double
5379	template<class P_numtype1, class P_struct1>
5380	inline
5381	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5382	_bz_MatExprConstant<double>, _bz_NotEqual<P_numtype1, double> > >
5383	operator!=(const Matrix<P_numtype1, P_struct1>& d1, double d2)
5384	{
5385	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5386	_bz_MatExprConstant<double>,
5387	_bz_NotEqual<P_numtype1, double> > T_expr;
5388
5389	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5390	_bz_MatExprConstant<double>(d2)));
5391	}
5392
5393	// Matrix<P_numtype1, P_struct1> != long double
5394	template<class P_numtype1, class P_struct1>
5395	inline
5396	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5397	_bz_MatExprConstant<long double>, _bz_NotEqual<P_numtype1, long double> > >
5398	operator!=(const Matrix<P_numtype1, P_struct1>& d1, long double d2)
5399	{
5400	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5401	_bz_MatExprConstant<long double>,
5402	_bz_NotEqual<P_numtype1, long double> > T_expr;
5403
5404	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5405	_bz_MatExprConstant<long double>(d2)));
5406	}
5407
5408	#ifdef BZ_HAVE_COMPLEX
5409	// Matrix<P_numtype1, P_struct1> != complex<float>
5410	template<class P_numtype1, class P_struct1>
5411	inline
5412	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5413	_bz_MatExprConstant<complex<float> >, _bz_NotEqual<P_numtype1, complex<float> > > >
5414	operator!=(const Matrix<P_numtype1, P_struct1>& d1, complex<float> d2)
5415	{
5416	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5417	_bz_MatExprConstant<complex<float> >,
5418	_bz_NotEqual<P_numtype1, complex<float> > > T_expr;
5419
5420	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5421	_bz_MatExprConstant<complex<float> >(d2)));
5422	}
5423	#endif // BZ_HAVE_COMPLEX
5424
5425	#ifdef BZ_HAVE_COMPLEX
5426	// Matrix<P_numtype1, P_struct1> != complex<double>
5427	template<class P_numtype1, class P_struct1>
5428	inline
5429	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5430	_bz_MatExprConstant<complex<double> >, _bz_NotEqual<P_numtype1, complex<double> > > >
5431	operator!=(const Matrix<P_numtype1, P_struct1>& d1, complex<double> d2)
5432	{
5433	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5434	_bz_MatExprConstant<complex<double> >,
5435	_bz_NotEqual<P_numtype1, complex<double> > > T_expr;
5436
5437	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5438	_bz_MatExprConstant<complex<double> >(d2)));
5439	}
5440	#endif // BZ_HAVE_COMPLEX
5441
5442	#ifdef BZ_HAVE_COMPLEX
5443	// Matrix<P_numtype1, P_struct1> != complex<long double>
5444	template<class P_numtype1, class P_struct1>
5445	inline
5446	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5447	_bz_MatExprConstant<complex<long double> >, _bz_NotEqual<P_numtype1, complex<long double> > > >
5448	operator!=(const Matrix<P_numtype1, P_struct1>& d1, complex<long double> d2)
5449	{
5450	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5451	_bz_MatExprConstant<complex<long double> >,
5452	_bz_NotEqual<P_numtype1, complex<long double> > > T_expr;
5453
5454	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5455	_bz_MatExprConstant<complex<long double> >(d2)));
5456	}
5457	#endif // BZ_HAVE_COMPLEX
5458
5459	// _bz_MatExpr<P_expr1> != Matrix<P_numtype2, P_struct2>
5460	template<class P_expr1, class P_numtype2, class P_struct2>
5461	inline
5462	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5463	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<_bz_typename P_expr1::T_numtype, P_numtype2> > >
5464	operator!=(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
5465	{
5466	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5467	_bz_MatrixRef<P_numtype2, P_struct2>,
5468	_bz_NotEqual<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
5469
5470	return _bz_MatExpr<T_expr>(T_expr(d1,
5471	d2._bz_getRef()));
5472	}
5473
5474	// _bz_MatExpr<P_expr1> != _bz_MatExpr<P_expr2>
5475	template<class P_expr1, class P_expr2>
5476	inline
5477	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5478	_bz_MatExpr<P_expr2>, _bz_NotEqual<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
5479	operator!=(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
5480	{
5481	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5482	_bz_MatExpr<P_expr2>,
5483	_bz_NotEqual<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
5484
5485	return _bz_MatExpr<T_expr>(T_expr(d1,
5486	d2));
5487	}
5488
5489	// _bz_MatExpr<P_expr1> != int
5490	template<class P_expr1>
5491	inline
5492	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5493	_bz_MatExprConstant<int>, _bz_NotEqual<_bz_typename P_expr1::T_numtype, int> > >
5494	operator!=(_bz_MatExpr<P_expr1> d1, int d2)
5495	{
5496	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5497	_bz_MatExprConstant<int>,
5498	_bz_NotEqual<_bz_typename P_expr1::T_numtype, int> > T_expr;
5499
5500	return _bz_MatExpr<T_expr>(T_expr(d1,
5501	_bz_MatExprConstant<int>(d2)));
5502	}
5503
5504	// _bz_MatExpr<P_expr1> != float
5505	template<class P_expr1>
5506	inline
5507	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5508	_bz_MatExprConstant<float>, _bz_NotEqual<_bz_typename P_expr1::T_numtype, float> > >
5509	operator!=(_bz_MatExpr<P_expr1> d1, float d2)
5510	{
5511	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5512	_bz_MatExprConstant<float>,
5513	_bz_NotEqual<_bz_typename P_expr1::T_numtype, float> > T_expr;
5514
5515	return _bz_MatExpr<T_expr>(T_expr(d1,
5516	_bz_MatExprConstant<float>(d2)));
5517	}
5518
5519	// _bz_MatExpr<P_expr1> != double
5520	template<class P_expr1>
5521	inline
5522	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5523	_bz_MatExprConstant<double>, _bz_NotEqual<_bz_typename P_expr1::T_numtype, double> > >
5524	operator!=(_bz_MatExpr<P_expr1> d1, double d2)
5525	{
5526	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5527	_bz_MatExprConstant<double>,
5528	_bz_NotEqual<_bz_typename P_expr1::T_numtype, double> > T_expr;
5529
5530	return _bz_MatExpr<T_expr>(T_expr(d1,
5531	_bz_MatExprConstant<double>(d2)));
5532	}
5533
5534	// _bz_MatExpr<P_expr1> != long double
5535	template<class P_expr1>
5536	inline
5537	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5538	_bz_MatExprConstant<long double>, _bz_NotEqual<_bz_typename P_expr1::T_numtype, long double> > >
5539	operator!=(_bz_MatExpr<P_expr1> d1, long double d2)
5540	{
5541	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5542	_bz_MatExprConstant<long double>,
5543	_bz_NotEqual<_bz_typename P_expr1::T_numtype, long double> > T_expr;
5544
5545	return _bz_MatExpr<T_expr>(T_expr(d1,
5546	_bz_MatExprConstant<long double>(d2)));
5547	}
5548
5549	#ifdef BZ_HAVE_COMPLEX
5550	// _bz_MatExpr<P_expr1> != complex<float>
5551	template<class P_expr1>
5552	inline
5553	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5554	_bz_MatExprConstant<complex<float> >, _bz_NotEqual<_bz_typename P_expr1::T_numtype, complex<float> > > >
5555	operator!=(_bz_MatExpr<P_expr1> d1, complex<float> d2)
5556	{
5557	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5558	_bz_MatExprConstant<complex<float> >,
5559	_bz_NotEqual<_bz_typename P_expr1::T_numtype, complex<float> > > T_expr;
5560
5561	return _bz_MatExpr<T_expr>(T_expr(d1,
5562	_bz_MatExprConstant<complex<float> >(d2)));
5563	}
5564	#endif // BZ_HAVE_COMPLEX
5565
5566	#ifdef BZ_HAVE_COMPLEX
5567	// _bz_MatExpr<P_expr1> != complex<double>
5568	template<class P_expr1>
5569	inline
5570	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5571	_bz_MatExprConstant<complex<double> >, _bz_NotEqual<_bz_typename P_expr1::T_numtype, complex<double> > > >
5572	operator!=(_bz_MatExpr<P_expr1> d1, complex<double> d2)
5573	{
5574	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5575	_bz_MatExprConstant<complex<double> >,
5576	_bz_NotEqual<_bz_typename P_expr1::T_numtype, complex<double> > > T_expr;
5577
5578	return _bz_MatExpr<T_expr>(T_expr(d1,
5579	_bz_MatExprConstant<complex<double> >(d2)));
5580	}
5581	#endif // BZ_HAVE_COMPLEX
5582
5583	#ifdef BZ_HAVE_COMPLEX
5584	// _bz_MatExpr<P_expr1> != complex<long double>
5585	template<class P_expr1>
5586	inline
5587	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5588	_bz_MatExprConstant<complex<long double> >, _bz_NotEqual<_bz_typename P_expr1::T_numtype, complex<long double> > > >
5589	operator!=(_bz_MatExpr<P_expr1> d1, complex<long double> d2)
5590	{
5591	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5592	_bz_MatExprConstant<complex<long double> >,
5593	_bz_NotEqual<_bz_typename P_expr1::T_numtype, complex<long double> > > T_expr;
5594
5595	return _bz_MatExpr<T_expr>(T_expr(d1,
5596	_bz_MatExprConstant<complex<long double> >(d2)));
5597	}
5598	#endif // BZ_HAVE_COMPLEX
5599
5600	// int != Matrix<P_numtype2, P_struct2>
5601	template<class P_numtype2, class P_struct2>
5602	inline
5603	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
5604	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<int, P_numtype2> > >
5605	operator!=(int d1, const Matrix<P_numtype2, P_struct2>& d2)
5606	{
5607	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
5608	_bz_MatrixRef<P_numtype2, P_struct2>,
5609	_bz_NotEqual<int, P_numtype2> > T_expr;
5610
5611	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
5612	d2._bz_getRef()));
5613	}
5614
5615	// int != _bz_MatExpr<P_expr2>
5616	template<class P_expr2>
5617	inline
5618	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
5619	_bz_MatExpr<P_expr2>, _bz_NotEqual<int, _bz_typename P_expr2::T_numtype> > >
5620	operator!=(int d1, _bz_MatExpr<P_expr2> d2)
5621	{
5622	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
5623	_bz_MatExpr<P_expr2>,
5624	_bz_NotEqual<int, _bz_typename P_expr2::T_numtype> > T_expr;
5625
5626	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
5627	d2));
5628	}
5629
5630	// float != Matrix<P_numtype2, P_struct2>
5631	template<class P_numtype2, class P_struct2>
5632	inline
5633	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
5634	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<float, P_numtype2> > >
5635	operator!=(float d1, const Matrix<P_numtype2, P_struct2>& d2)
5636	{
5637	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
5638	_bz_MatrixRef<P_numtype2, P_struct2>,
5639	_bz_NotEqual<float, P_numtype2> > T_expr;
5640
5641	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
5642	d2._bz_getRef()));
5643	}
5644
5645	// float != _bz_MatExpr<P_expr2>
5646	template<class P_expr2>
5647	inline
5648	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<float>,
5649	_bz_MatExpr<P_expr2>, _bz_NotEqual<float, _bz_typename P_expr2::T_numtype> > >
5650	operator!=(float d1, _bz_MatExpr<P_expr2> d2)
5651	{
5652	typedef _bz_MatExprOp<_bz_MatExprConstant<float>,
5653	_bz_MatExpr<P_expr2>,
5654	_bz_NotEqual<float, _bz_typename P_expr2::T_numtype> > T_expr;
5655
5656	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<float>(d1),
5657	d2));
5658	}
5659
5660	// double != Matrix<P_numtype2, P_struct2>
5661	template<class P_numtype2, class P_struct2>
5662	inline
5663	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
5664	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<double, P_numtype2> > >
5665	operator!=(double d1, const Matrix<P_numtype2, P_struct2>& d2)
5666	{
5667	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
5668	_bz_MatrixRef<P_numtype2, P_struct2>,
5669	_bz_NotEqual<double, P_numtype2> > T_expr;
5670
5671	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
5672	d2._bz_getRef()));
5673	}
5674
5675	// double != _bz_MatExpr<P_expr2>
5676	template<class P_expr2>
5677	inline
5678	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<double>,
5679	_bz_MatExpr<P_expr2>, _bz_NotEqual<double, _bz_typename P_expr2::T_numtype> > >
5680	operator!=(double d1, _bz_MatExpr<P_expr2> d2)
5681	{
5682	typedef _bz_MatExprOp<_bz_MatExprConstant<double>,
5683	_bz_MatExpr<P_expr2>,
5684	_bz_NotEqual<double, _bz_typename P_expr2::T_numtype> > T_expr;
5685
5686	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<double>(d1),
5687	d2));
5688	}
5689
5690	// long double != Matrix<P_numtype2, P_struct2>
5691	template<class P_numtype2, class P_struct2>
5692	inline
5693	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
5694	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<long double, P_numtype2> > >
5695	operator!=(long double d1, const Matrix<P_numtype2, P_struct2>& d2)
5696	{
5697	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
5698	_bz_MatrixRef<P_numtype2, P_struct2>,
5699	_bz_NotEqual<long double, P_numtype2> > T_expr;
5700
5701	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
5702	d2._bz_getRef()));
5703	}
5704
5705	// long double != _bz_MatExpr<P_expr2>
5706	template<class P_expr2>
5707	inline
5708	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<long double>,
5709	_bz_MatExpr<P_expr2>, _bz_NotEqual<long double, _bz_typename P_expr2::T_numtype> > >
5710	operator!=(long double d1, _bz_MatExpr<P_expr2> d2)
5711	{
5712	typedef _bz_MatExprOp<_bz_MatExprConstant<long double>,
5713	_bz_MatExpr<P_expr2>,
5714	_bz_NotEqual<long double, _bz_typename P_expr2::T_numtype> > T_expr;
5715
5716	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<long double>(d1),
5717	d2));
5718	}
5719
5720	#ifdef BZ_HAVE_COMPLEX
5721	// complex<float> != Matrix<P_numtype2, P_struct2>
5722	template<class P_numtype2, class P_struct2>
5723	inline
5724	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5725	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<complex<float> , P_numtype2> > >
5726	operator!=(complex<float> d1, const Matrix<P_numtype2, P_struct2>& d2)
5727	{
5728	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5729	_bz_MatrixRef<P_numtype2, P_struct2>,
5730	_bz_NotEqual<complex<float> , P_numtype2> > T_expr;
5731
5732	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
5733	d2._bz_getRef()));
5734	}
5735	#endif // BZ_HAVE_COMPLEX
5736
5737	#ifdef BZ_HAVE_COMPLEX
5738	// complex<float> != _bz_MatExpr<P_expr2>
5739	template<class P_expr2>
5740	inline
5741	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5742	_bz_MatExpr<P_expr2>, _bz_NotEqual<complex<float> , _bz_typename P_expr2::T_numtype> > >
5743	operator!=(complex<float> d1, _bz_MatExpr<P_expr2> d2)
5744	{
5745	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<float> >,
5746	_bz_MatExpr<P_expr2>,
5747	_bz_NotEqual<complex<float> , _bz_typename P_expr2::T_numtype> > T_expr;
5748
5749	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<float> >(d1),
5750	d2));
5751	}
5752	#endif // BZ_HAVE_COMPLEX
5753
5754	#ifdef BZ_HAVE_COMPLEX
5755	// complex<double> != Matrix<P_numtype2, P_struct2>
5756	template<class P_numtype2, class P_struct2>
5757	inline
5758	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5759	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<complex<double> , P_numtype2> > >
5760	operator!=(complex<double> d1, const Matrix<P_numtype2, P_struct2>& d2)
5761	{
5762	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5763	_bz_MatrixRef<P_numtype2, P_struct2>,
5764	_bz_NotEqual<complex<double> , P_numtype2> > T_expr;
5765
5766	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
5767	d2._bz_getRef()));
5768	}
5769	#endif // BZ_HAVE_COMPLEX
5770
5771	#ifdef BZ_HAVE_COMPLEX
5772	// complex<double> != _bz_MatExpr<P_expr2>
5773	template<class P_expr2>
5774	inline
5775	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5776	_bz_MatExpr<P_expr2>, _bz_NotEqual<complex<double> , _bz_typename P_expr2::T_numtype> > >
5777	operator!=(complex<double> d1, _bz_MatExpr<P_expr2> d2)
5778	{
5779	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<double> >,
5780	_bz_MatExpr<P_expr2>,
5781	_bz_NotEqual<complex<double> , _bz_typename P_expr2::T_numtype> > T_expr;
5782
5783	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<double> >(d1),
5784	d2));
5785	}
5786	#endif // BZ_HAVE_COMPLEX
5787
5788	#ifdef BZ_HAVE_COMPLEX
5789	// complex<long double> != Matrix<P_numtype2, P_struct2>
5790	template<class P_numtype2, class P_struct2>
5791	inline
5792	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5793	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_NotEqual<complex<long double> , P_numtype2> > >
5794	operator!=(complex<long double> d1, const Matrix<P_numtype2, P_struct2>& d2)
5795	{
5796	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5797	_bz_MatrixRef<P_numtype2, P_struct2>,
5798	_bz_NotEqual<complex<long double> , P_numtype2> > T_expr;
5799
5800	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
5801	d2._bz_getRef()));
5802	}
5803	#endif // BZ_HAVE_COMPLEX
5804
5805	#ifdef BZ_HAVE_COMPLEX
5806	// complex<long double> != _bz_MatExpr<P_expr2>
5807	template<class P_expr2>
5808	inline
5809	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5810	_bz_MatExpr<P_expr2>, _bz_NotEqual<complex<long double> , _bz_typename P_expr2::T_numtype> > >
5811	operator!=(complex<long double> d1, _bz_MatExpr<P_expr2> d2)
5812	{
5813	typedef _bz_MatExprOp<_bz_MatExprConstant<complex<long double> >,
5814	_bz_MatExpr<P_expr2>,
5815	_bz_NotEqual<complex<long double> , _bz_typename P_expr2::T_numtype> > T_expr;
5816
5817	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<complex<long double> >(d1),
5818	d2));
5819	}
5820	#endif // BZ_HAVE_COMPLEX
5821	/****************************************************************************
5822	* Logical AND operators
5823	****************************************************************************/
5824
5825	// Matrix<P_numtype1, P_struct1> && Matrix<P_numtype2, P_struct2>
5826	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
5827	inline
5828	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5829	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LogicalAnd<P_numtype1, P_numtype2> > >
5830	operator&&(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
5831	{
5832	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5833	_bz_MatrixRef<P_numtype2, P_struct2>,
5834	_bz_LogicalAnd<P_numtype1, P_numtype2> > T_expr;
5835
5836	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5837	d2._bz_getRef()));
5838	}
5839
5840	// Matrix<P_numtype1, P_struct1> && _bz_MatExpr<P_expr2>
5841	template<class P_numtype1, class P_struct1, class P_expr2>
5842	inline
5843	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5844	_bz_MatExpr<P_expr2>, _bz_LogicalAnd<P_numtype1, _bz_typename P_expr2::T_numtype> > >
5845	operator&&(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
5846	{
5847	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5848	_bz_MatExpr<P_expr2>,
5849	_bz_LogicalAnd<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
5850
5851	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5852	d2));
5853	}
5854
5855	// Matrix<P_numtype1, P_struct1> && int
5856	template<class P_numtype1, class P_struct1>
5857	inline
5858	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5859	_bz_MatExprConstant<int>, _bz_LogicalAnd<P_numtype1, int> > >
5860	operator&&(const Matrix<P_numtype1, P_struct1>& d1, int d2)
5861	{
5862	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5863	_bz_MatExprConstant<int>,
5864	_bz_LogicalAnd<P_numtype1, int> > T_expr;
5865
5866	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5867	_bz_MatExprConstant<int>(d2)));
5868	}
5869
5870	// _bz_MatExpr<P_expr1> && Matrix<P_numtype2, P_struct2>
5871	template<class P_expr1, class P_numtype2, class P_struct2>
5872	inline
5873	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5874	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LogicalAnd<_bz_typename P_expr1::T_numtype, P_numtype2> > >
5875	operator&&(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
5876	{
5877	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5878	_bz_MatrixRef<P_numtype2, P_struct2>,
5879	_bz_LogicalAnd<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
5880
5881	return _bz_MatExpr<T_expr>(T_expr(d1,
5882	d2._bz_getRef()));
5883	}
5884
5885	// _bz_MatExpr<P_expr1> && _bz_MatExpr<P_expr2>
5886	template<class P_expr1, class P_expr2>
5887	inline
5888	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5889	_bz_MatExpr<P_expr2>, _bz_LogicalAnd<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
5890	operator&&(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
5891	{
5892	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5893	_bz_MatExpr<P_expr2>,
5894	_bz_LogicalAnd<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
5895
5896	return _bz_MatExpr<T_expr>(T_expr(d1,
5897	d2));
5898	}
5899
5900	// _bz_MatExpr<P_expr1> && int
5901	template<class P_expr1>
5902	inline
5903	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5904	_bz_MatExprConstant<int>, _bz_LogicalAnd<_bz_typename P_expr1::T_numtype, int> > >
5905	operator&&(_bz_MatExpr<P_expr1> d1, int d2)
5906	{
5907	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
5908	_bz_MatExprConstant<int>,
5909	_bz_LogicalAnd<_bz_typename P_expr1::T_numtype, int> > T_expr;
5910
5911	return _bz_MatExpr<T_expr>(T_expr(d1,
5912	_bz_MatExprConstant<int>(d2)));
5913	}
5914
5915	// int && Matrix<P_numtype2, P_struct2>
5916	template<class P_numtype2, class P_struct2>
5917	inline
5918	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
5919	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LogicalAnd<int, P_numtype2> > >
5920	operator&&(int d1, const Matrix<P_numtype2, P_struct2>& d2)
5921	{
5922	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
5923	_bz_MatrixRef<P_numtype2, P_struct2>,
5924	_bz_LogicalAnd<int, P_numtype2> > T_expr;
5925
5926	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
5927	d2._bz_getRef()));
5928	}
5929
5930	// int && _bz_MatExpr<P_expr2>
5931	template<class P_expr2>
5932	inline
5933	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
5934	_bz_MatExpr<P_expr2>, _bz_LogicalAnd<int, _bz_typename P_expr2::T_numtype> > >
5935	operator&&(int d1, _bz_MatExpr<P_expr2> d2)
5936	{
5937	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
5938	_bz_MatExpr<P_expr2>,
5939	_bz_LogicalAnd<int, _bz_typename P_expr2::T_numtype> > T_expr;
5940
5941	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
5942	d2));
5943	}
5944	/****************************************************************************
5945	* Logical OR operators
5946	****************************************************************************/
5947
5948	// Matrix<P_numtype1, P_struct1> \|\| Matrix<P_numtype2, P_struct2>
5949	template<class P_numtype1, class P_struct1, class P_numtype2, class P_struct2>
5950	inline
5951	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5952	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LogicalOr<P_numtype1, P_numtype2> > >
5953	operator\|\|(const Matrix<P_numtype1, P_struct1>& d1, const Matrix<P_numtype2, P_struct2>& d2)
5954	{
5955	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5956	_bz_MatrixRef<P_numtype2, P_struct2>,
5957	_bz_LogicalOr<P_numtype1, P_numtype2> > T_expr;
5958
5959	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5960	d2._bz_getRef()));
5961	}
5962
5963	// Matrix<P_numtype1, P_struct1> \|\| _bz_MatExpr<P_expr2>
5964	template<class P_numtype1, class P_struct1, class P_expr2>
5965	inline
5966	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5967	_bz_MatExpr<P_expr2>, _bz_LogicalOr<P_numtype1, _bz_typename P_expr2::T_numtype> > >
5968	operator\|\|(const Matrix<P_numtype1, P_struct1>& d1, _bz_MatExpr<P_expr2> d2)
5969	{
5970	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5971	_bz_MatExpr<P_expr2>,
5972	_bz_LogicalOr<P_numtype1, _bz_typename P_expr2::T_numtype> > T_expr;
5973
5974	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5975	d2));
5976	}
5977
5978	// Matrix<P_numtype1, P_struct1> \|\| int
5979	template<class P_numtype1, class P_struct1>
5980	inline
5981	_bz_MatExpr<_bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5982	_bz_MatExprConstant<int>, _bz_LogicalOr<P_numtype1, int> > >
5983	operator\|\|(const Matrix<P_numtype1, P_struct1>& d1, int d2)
5984	{
5985	typedef _bz_MatExprOp<_bz_MatrixRef<P_numtype1, P_struct1>,
5986	_bz_MatExprConstant<int>,
5987	_bz_LogicalOr<P_numtype1, int> > T_expr;
5988
5989	return _bz_MatExpr<T_expr>(T_expr(d1._bz_getRef(),
5990	_bz_MatExprConstant<int>(d2)));
5991	}
5992
5993	// _bz_MatExpr<P_expr1> \|\| Matrix<P_numtype2, P_struct2>
5994	template<class P_expr1, class P_numtype2, class P_struct2>
5995	inline
5996	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
5997	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LogicalOr<_bz_typename P_expr1::T_numtype, P_numtype2> > >
5998	operator\|\|(_bz_MatExpr<P_expr1> d1, const Matrix<P_numtype2, P_struct2>& d2)
5999	{
6000	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
6001	_bz_MatrixRef<P_numtype2, P_struct2>,
6002	_bz_LogicalOr<_bz_typename P_expr1::T_numtype, P_numtype2> > T_expr;
6003
6004	return _bz_MatExpr<T_expr>(T_expr(d1,
6005	d2._bz_getRef()));
6006	}
6007
6008	// _bz_MatExpr<P_expr1> \|\| _bz_MatExpr<P_expr2>
6009	template<class P_expr1, class P_expr2>
6010	inline
6011	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
6012	_bz_MatExpr<P_expr2>, _bz_LogicalOr<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > >
6013	operator\|\|(_bz_MatExpr<P_expr1> d1, _bz_MatExpr<P_expr2> d2)
6014	{
6015	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
6016	_bz_MatExpr<P_expr2>,
6017	_bz_LogicalOr<_bz_typename P_expr1::T_numtype, _bz_typename P_expr2::T_numtype> > T_expr;
6018
6019	return _bz_MatExpr<T_expr>(T_expr(d1,
6020	d2));
6021	}
6022
6023	// _bz_MatExpr<P_expr1> \|\| int
6024	template<class P_expr1>
6025	inline
6026	_bz_MatExpr<_bz_MatExprOp<_bz_MatExpr<P_expr1>,
6027	_bz_MatExprConstant<int>, _bz_LogicalOr<_bz_typename P_expr1::T_numtype, int> > >
6028	operator\|\|(_bz_MatExpr<P_expr1> d1, int d2)
6029	{
6030	typedef _bz_MatExprOp<_bz_MatExpr<P_expr1>,
6031	_bz_MatExprConstant<int>,
6032	_bz_LogicalOr<_bz_typename P_expr1::T_numtype, int> > T_expr;
6033
6034	return _bz_MatExpr<T_expr>(T_expr(d1,
6035	_bz_MatExprConstant<int>(d2)));
6036	}
6037
6038	// int \|\| Matrix<P_numtype2, P_struct2>
6039	template<class P_numtype2, class P_struct2>
6040	inline
6041	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
6042	_bz_MatrixRef<P_numtype2, P_struct2>, _bz_LogicalOr<int, P_numtype2> > >
6043	operator\|\|(int d1, const Matrix<P_numtype2, P_struct2>& d2)
6044	{
6045	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
6046	_bz_MatrixRef<P_numtype2, P_struct2>,
6047	_bz_LogicalOr<int, P_numtype2> > T_expr;
6048
6049	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
6050	d2._bz_getRef()));
6051	}
6052
6053	// int \|\| _bz_MatExpr<P_expr2>
6054	template<class P_expr2>
6055	inline
6056	_bz_MatExpr<_bz_MatExprOp<_bz_MatExprConstant<int>,
6057	_bz_MatExpr<P_expr2>, _bz_LogicalOr<int, _bz_typename P_expr2::T_numtype> > >
6058	operator\|\|(int d1, _bz_MatExpr<P_expr2> d2)
6059	{
6060	typedef _bz_MatExprOp<_bz_MatExprConstant<int>,
6061	_bz_MatExpr<P_expr2>,
6062	_bz_LogicalOr<int, _bz_typename P_expr2::T_numtype> > T_expr;
6063
6064	return _bz_MatExpr<T_expr>(T_expr(_bz_MatExprConstant<int>(d1),
6065	d2));
6066	}
6067
6068	BZ_NAMESPACE_END
6069
6070	#endif // BZ_MATBOPS_H

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source: Sophya/trunk/SophyaExt/Blitz/blitz/matbops.h@ 221

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