unsupported/test/alignedvector3.cpp - manifest_repos/eigen - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2009 Gael Guennebaud <g.gael@free.fr>
 //
 // This Source Code Form is subject to the terms of the Mozilla
 // Public License v. 2.0. If a copy of the MPL was not distributed
 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

 #include "main.h"
 #include <unsupported/Eigen/AlignedVector3>

 namespace Eigen {

 template<typename T,typename Derived>
 T test_relative_error(const AlignedVector3<T> &a, const MatrixBase<Derived> &b)
 {
   return test_relative_error(a.coeffs().template head<3>(), b);
 }

 }

 template<typename Scalar>
 void alignedvector3()
 {
   Scalar s1 = internal::random<Scalar>();
   Scalar s2 = internal::random<Scalar>();
   typedef Matrix<Scalar,3,1> RefType;
   typedef Matrix<Scalar,3,3> Mat33;
   typedef AlignedVector3<Scalar> FastType;
   RefType  r1(RefType::Random()), r2(RefType::Random()), r3(RefType::Random()),
            r4(RefType::Random()), r5(RefType::Random());
   FastType f1(r1), f2(r2), f3(r3), f4(r4), f5(r5);
   Mat33 m1(Mat33::Random());

   VERIFY_IS_APPROX(f1,r1);
   VERIFY_IS_APPROX(f4,r4);

   VERIFY_IS_APPROX(f4+f1,r4+r1);
   VERIFY_IS_APPROX(f4-f1,r4-r1);
   VERIFY_IS_APPROX(f4+f1-f2,r4+r1-r2);
   VERIFY_IS_APPROX(f4+=f3,r4+=r3);
   VERIFY_IS_APPROX(f4-=f5,r4-=r5);
   VERIFY_IS_APPROX(f4-=f5+f1,r4-=r5+r1);
   VERIFY_IS_APPROX(f5+f1-s1*f2,r5+r1-s1*r2);
   VERIFY_IS_APPROX(f5+f1/s2-s1*f2,r5+r1/s2-s1*r2);

   VERIFY_IS_APPROX(m1*f4,m1*r4);
   VERIFY_IS_APPROX(f4.transpose()*m1,r4.transpose()*m1);

   VERIFY_IS_APPROX(f2.dot(f3),r2.dot(r3));
   VERIFY_IS_APPROX(f2.cross(f3),r2.cross(r3));
   VERIFY_IS_APPROX(f2.norm(),r2.norm());

   VERIFY_IS_APPROX(f2.normalized(),r2.normalized());

   VERIFY_IS_APPROX((f2+f1).normalized(),(r2+r1).normalized());

   f2.normalize();
   r2.normalize();
   VERIFY_IS_APPROX(f2,r2);

   {
     FastType f6 = RefType::Zero();
     FastType f7 = FastType::Zero();
     VERIFY_IS_APPROX(f6,f7);
     f6 = r4+r1;
     VERIFY_IS_APPROX(f6,r4+r1);
     f6 -= Scalar(2)*r4;
     VERIFY_IS_APPROX(f6,r1-r4);
   }

   std::stringstream ss1, ss2;
   ss1 << f1;
   ss2 << r1;
   VERIFY(ss1.str()==ss2.str());
 }

 void test_alignedvector3()
 {
   for(int i = 0; i < g_repeat; i++) {
     CALL_SUBTEST( alignedvector3<float>() );
   }
 }
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2009 Gael Guennebaud <g.gael@free.fr>
	//
	// This Source Code Form is subject to the terms of the Mozilla
	// Public License v. 2.0. If a copy of the MPL was not distributed
	// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

	#include "main.h"
	#include <unsupported/Eigen/AlignedVector3>

	namespace Eigen {

	template<typename T,typename Derived>
	T test_relative_error(const AlignedVector3<T> &a, const MatrixBase<Derived> &b)
	{
	return test_relative_error(a.coeffs().template head<3>(), b);
	}

	}

	template<typename Scalar>
	void alignedvector3()
	{
	Scalar s1 = internal::random<Scalar>();
	Scalar s2 = internal::random<Scalar>();
	typedef Matrix<Scalar,3,1> RefType;
	typedef Matrix<Scalar,3,3> Mat33;
	typedef AlignedVector3<Scalar> FastType;
	RefType r1(RefType::Random()), r2(RefType::Random()), r3(RefType::Random()),
	r4(RefType::Random()), r5(RefType::Random());
	FastType f1(r1), f2(r2), f3(r3), f4(r4), f5(r5);
	Mat33 m1(Mat33::Random());

	VERIFY_IS_APPROX(f1,r1);
	VERIFY_IS_APPROX(f4,r4);

	VERIFY_IS_APPROX(f4+f1,r4+r1);
	VERIFY_IS_APPROX(f4-f1,r4-r1);
	VERIFY_IS_APPROX(f4+f1-f2,r4+r1-r2);
	VERIFY_IS_APPROX(f4+=f3,r4+=r3);
	VERIFY_IS_APPROX(f4-=f5,r4-=r5);
	VERIFY_IS_APPROX(f4-=f5+f1,r4-=r5+r1);
	VERIFY_IS_APPROX(f5+f1-s1f2,r5+r1-s1r2);
	VERIFY_IS_APPROX(f5+f1/s2-s1f2,r5+r1/s2-s1r2);

	VERIFY_IS_APPROX(m1f4,m1r4);
	VERIFY_IS_APPROX(f4.transpose()m1,r4.transpose()m1);

	VERIFY_IS_APPROX(f2.dot(f3),r2.dot(r3));
	VERIFY_IS_APPROX(f2.cross(f3),r2.cross(r3));
	VERIFY_IS_APPROX(f2.norm(),r2.norm());

	VERIFY_IS_APPROX(f2.normalized(),r2.normalized());

	VERIFY_IS_APPROX((f2+f1).normalized(),(r2+r1).normalized());

	f2.normalize();
	r2.normalize();
	VERIFY_IS_APPROX(f2,r2);

	{
	FastType f6 = RefType::Zero();
	FastType f7 = FastType::Zero();
	VERIFY_IS_APPROX(f6,f7);
	f6 = r4+r1;
	VERIFY_IS_APPROX(f6,r4+r1);
	f6 -= Scalar(2)*r4;
	VERIFY_IS_APPROX(f6,r1-r4);
	}

	std::stringstream ss1, ss2;
	ss1 << f1;
	ss2 << r1;
	VERIFY(ss1.str()==ss2.str());
	}

	void test_alignedvector3()
	{
	for(int i = 0; i < g_repeat; i++) {
	CALL_SUBTEST( alignedvector3<float>() );
	}
	}