Dot.h
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1 // This file is part of Eigen, a lightweight C++ template library
2 // for linear algebra.
3 //
4 // Copyright (C) 2006-2008, 2010 Benoit Jacob <jacob.benoit.1@gmail.com>
5 //
6 // This Source Code Form is subject to the terms of the Mozilla
7 // Public License v. 2.0. If a copy of the MPL was not distributed
8 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
9 
10 #ifndef EIGEN_DOT_H
11 #define EIGEN_DOT_H
12 
13 namespace Eigen {
14 
15 namespace internal {
16 
17 // helper function for dot(). The problem is that if we put that in the body of dot(), then upon calling dot
18 // with mismatched types, the compiler emits errors about failing to instantiate cwiseProduct BEFORE
19 // looking at the static assertions. Thus this is a trick to get better compile errors.
20 template<typename T, typename U,
21 // the NeedToTranspose condition here is taken straight from Assign.h
22  bool NeedToTranspose = T::IsVectorAtCompileTime
23  && U::IsVectorAtCompileTime
24  && ((int(T::RowsAtCompileTime) == 1 && int(U::ColsAtCompileTime) == 1)
25  | // FIXME | instead of || to please GCC 4.4.0 stupid warning "suggest parentheses around &&".
26  // revert to || as soon as not needed anymore.
27  (int(T::ColsAtCompileTime) == 1 && int(U::RowsAtCompileTime) == 1))
28 >
30 {
35  static ResScalar run(const MatrixBase<T>& a, const MatrixBase<U>& b)
36  {
37  return a.template binaryExpr<conj_prod>(b).sum();
38  }
39 };
40 
41 template<typename T, typename U>
42 struct dot_nocheck<T, U, true>
43 {
48  static ResScalar run(const MatrixBase<T>& a, const MatrixBase<U>& b)
49  {
50  return a.transpose().template binaryExpr<conj_prod>(b).sum();
51  }
52 };
53 
54 } // end namespace internal
55 
67 template<typename Derived>
68 template<typename OtherDerived>
73 {
76  EIGEN_STATIC_ASSERT_SAME_VECTOR_SIZE(Derived,OtherDerived)
77 #if !(defined(EIGEN_NO_STATIC_ASSERT) && defined(EIGEN_NO_DEBUG))
80 #endif
81 
82  eigen_assert(size() == other.size());
83 
85 }
86 
87 //---------- implementation of L2 norm and related functions ----------
88 
95 template<typename Derived>
97 {
98  return numext::real((*this).cwiseAbs2().sum());
99 }
100 
107 template<typename Derived>
109 {
110  return numext::sqrt(squaredNorm());
111 }
112 
122 template<typename Derived>
125 {
126  typedef typename internal::nested_eval<Derived,2>::type _Nested;
127  _Nested n(derived());
128  RealScalar z = n.squaredNorm();
129  // NOTE: after extensive benchmarking, this conditional does not impact performance, at least on recent x86 CPU
130  if(z>RealScalar(0))
131  return n / numext::sqrt(z);
132  else
133  return n;
134 }
135 
144 template<typename Derived>
146 {
147  RealScalar z = squaredNorm();
148  // NOTE: after extensive benchmarking, this conditional does not impact performance, at least on recent x86 CPU
149  if(z>RealScalar(0))
150  derived() /= numext::sqrt(z);
151 }
152 
165 template<typename Derived>
168 {
169  typedef typename internal::nested_eval<Derived,3>::type _Nested;
170  _Nested n(derived());
171  RealScalar w = n.cwiseAbs().maxCoeff();
172  RealScalar z = (n/w).squaredNorm();
173  if(z>RealScalar(0))
174  return n / (numext::sqrt(z)*w);
175  else
176  return n;
177 }
178 
190 template<typename Derived>
192 {
193  RealScalar w = cwiseAbs().maxCoeff();
194  RealScalar z = (derived()/w).squaredNorm();
195  if(z>RealScalar(0))
196  derived() /= numext::sqrt(z)*w;
197 }
198 
199 //---------- implementation of other norms ----------
200 
201 namespace internal {
202 
203 template<typename Derived, int p>
205 {
208  static inline RealScalar run(const MatrixBase<Derived>& m)
209  {
211  return pow(m.cwiseAbs().array().pow(p).sum(), RealScalar(1)/p);
212  }
213 };
214 
215 template<typename Derived>
216 struct lpNorm_selector<Derived, 1>
217 {
220  {
221  return m.cwiseAbs().sum();
222  }
223 };
224 
225 template<typename Derived>
226 struct lpNorm_selector<Derived, 2>
227 {
230  {
231  return m.norm();
232  }
233 };
234 
235 template<typename Derived>
236 struct lpNorm_selector<Derived, Infinity>
237 {
240  static inline RealScalar run(const MatrixBase<Derived>& m)
241  {
242  if(Derived::SizeAtCompileTime==0 || (Derived::SizeAtCompileTime==Dynamic && m.size()==0))
243  return RealScalar(0);
244  return m.cwiseAbs().maxCoeff();
245  }
246 };
247 
248 } // end namespace internal
249 
260 template<typename Derived>
261 template<int p>
262 #ifndef EIGEN_PARSED_BY_DOXYGEN
264 #else
266 #endif
268 {
270 }
271 
272 //---------- implementation of isOrthogonal / isUnitary ----------
273 
280 template<typename Derived>
281 template<typename OtherDerived>
283 (const MatrixBase<OtherDerived>& other, const RealScalar& prec) const
284 {
285  typename internal::nested_eval<Derived,2>::type nested(derived());
286  typename internal::nested_eval<OtherDerived,2>::type otherNested(other.derived());
287  return numext::abs2(nested.dot(otherNested)) <= prec * prec * nested.squaredNorm() * otherNested.squaredNorm();
288 }
289 
301 template<typename Derived>
303 {
304  typename internal::nested_eval<Derived,1>::type self(derived());
305  for(Index i = 0; i < cols(); ++i)
306  {
307  if(!internal::isApprox(self.col(i).squaredNorm(), static_cast<RealScalar>(1), prec))
308  return false;
309  for(Index j = 0; j < i; ++j)
310  if(!internal::isMuchSmallerThan(self.col(i).dot(self.col(j)), static_cast<Scalar>(1), prec))
311  return false;
312  }
313  return true;
314 }
315 
316 } // end namespace Eigen
317 
318 #endif // EIGEN_DOT_H
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