unsupported/Eigen/src/MoreVectorization/MathFunctions.h - mirror - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2009 Rohit Garg <rpg.314@gmail.com>
 // Copyright (C) 2009 Benoit Jacob <jacob.benoit.1@gmail.com>
 //
 // 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/.

 #ifndef EIGEN_MOREVECTORIZATION_MATHFUNCTIONS_H
 #define EIGEN_MOREVECTORIZATION_MATHFUNCTIONS_H

 namespace Eigen {

 namespace internal {

 /** \internal \returns the arcsin of \a a (coeff-wise) */
 template<typename Packet> inline static Packet pasin(Packet a) { return std::asin(a); }

 #ifdef EIGEN_VECTORIZE_SSE

 template<> EIGEN_DONT_INLINE Packet4f pasin(Packet4f x)
 {
   _EIGEN_DECLARE_CONST_Packet4f(half, 0.5);
   _EIGEN_DECLARE_CONST_Packet4f(minus_half, -0.5);
   _EIGEN_DECLARE_CONST_Packet4f(3half, 1.5);

   _EIGEN_DECLARE_CONST_Packet4f_FROM_INT(sign_mask, 0x80000000);

   _EIGEN_DECLARE_CONST_Packet4f(pi, 3.141592654);
   _EIGEN_DECLARE_CONST_Packet4f(pi_over_2, 3.141592654*0.5);

   _EIGEN_DECLARE_CONST_Packet4f(asin1, 4.2163199048E-2);
   _EIGEN_DECLARE_CONST_Packet4f(asin2, 2.4181311049E-2);
   _EIGEN_DECLARE_CONST_Packet4f(asin3, 4.5470025998E-2);
   _EIGEN_DECLARE_CONST_Packet4f(asin4, 7.4953002686E-2);
   _EIGEN_DECLARE_CONST_Packet4f(asin5, 1.6666752422E-1);

   Packet4f a = pabs(x);//got the absolute value

   Packet4f sign_bit= _mm_and_ps(x, p4f_sign_mask);//extracted the sign bit

   Packet4f z1,z2;//will need them during computation


 //will compute the two branches for asin
 //so first compare with half

   Packet4f branch_mask= _mm_cmpgt_ps(a, p4f_half);//this is to select which branch to take
 //both will be taken, and finally results will be merged
 //the branch for values >0.5

     {
 //the core series expansion
     z1=pmadd(p4f_minus_half,a,p4f_half);
     Packet4f x1=psqrt(z1);
     Packet4f s1=pmadd(p4f_asin1, z1, p4f_asin2);
     Packet4f s2=pmadd(s1, z1, p4f_asin3);
     Packet4f s3=pmadd(s2,z1, p4f_asin4);
     Packet4f s4=pmadd(s3,z1, p4f_asin5);
     Packet4f temp=pmul(s4,z1);//not really a madd but a mul by z so that the next term can be a madd
     z1=pmadd(temp,x1,x1);
     z1=padd(z1,z1);
     z1=psub(p4f_pi_over_2,z1);
     }

     {
 //the core series expansion
     Packet4f x2=a;
     z2=pmul(x2,x2);
     Packet4f s1=pmadd(p4f_asin1, z2, p4f_asin2);
     Packet4f s2=pmadd(s1, z2, p4f_asin3);
     Packet4f s3=pmadd(s2,z2, p4f_asin4);
     Packet4f s4=pmadd(s3,z2, p4f_asin5);
     Packet4f temp=pmul(s4,z2);//not really a madd but a mul by z so that the next term can be a madd
     z2=pmadd(temp,x2,x2);
     }

 /* select the correct result from the two branch evaluations */
   z1  = _mm_and_ps(branch_mask, z1);
   z2  = _mm_andnot_ps(branch_mask, z2);
   Packet4f z  = _mm_or_ps(z1,z2);

 /* update the sign */
   return _mm_xor_ps(z, sign_bit);
 }

 #endif // EIGEN_VECTORIZE_SSE

 } // end namespace internal

 } // end namespace Eigen

 #endif // EIGEN_MOREVECTORIZATION_MATHFUNCTIONS_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2009 Rohit Garg <rpg.314@gmail.com>
	// Copyright (C) 2009 Benoit Jacob <jacob.benoit.1@gmail.com>
	//
	// 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/.

	#ifndef EIGEN_MOREVECTORIZATION_MATHFUNCTIONS_H
	#define EIGEN_MOREVECTORIZATION_MATHFUNCTIONS_H

	namespace Eigen {

	namespace internal {

	/** \internal \returns the arcsin of \a a (coeff-wise) */
	template<typename Packet> inline static Packet pasin(Packet a) { return std::asin(a); }

	#ifdef EIGEN_VECTORIZE_SSE

	template<> EIGEN_DONT_INLINE Packet4f pasin(Packet4f x)
	{
	_EIGEN_DECLARE_CONST_Packet4f(half, 0.5);
	_EIGEN_DECLARE_CONST_Packet4f(minus_half, -0.5);
	_EIGEN_DECLARE_CONST_Packet4f(3half, 1.5);

	_EIGEN_DECLARE_CONST_Packet4f_FROM_INT(sign_mask, 0x80000000);

	_EIGEN_DECLARE_CONST_Packet4f(pi, 3.141592654);
	_EIGEN_DECLARE_CONST_Packet4f(pi_over_2, 3.141592654*0.5);

	_EIGEN_DECLARE_CONST_Packet4f(asin1, 4.2163199048E-2);
	_EIGEN_DECLARE_CONST_Packet4f(asin2, 2.4181311049E-2);
	_EIGEN_DECLARE_CONST_Packet4f(asin3, 4.5470025998E-2);
	_EIGEN_DECLARE_CONST_Packet4f(asin4, 7.4953002686E-2);
	_EIGEN_DECLARE_CONST_Packet4f(asin5, 1.6666752422E-1);

	Packet4f a = pabs(x);//got the absolute value

	Packet4f sign_bit= _mm_and_ps(x, p4f_sign_mask);//extracted the sign bit

	Packet4f z1,z2;//will need them during computation


	//will compute the two branches for asin
	//so first compare with half

	Packet4f branch_mask= _mm_cmpgt_ps(a, p4f_half);//this is to select which branch to take
	//both will be taken, and finally results will be merged
	//the branch for values >0.5

	{
	//the core series expansion
	z1=pmadd(p4f_minus_half,a,p4f_half);
	Packet4f x1=psqrt(z1);
	Packet4f s1=pmadd(p4f_asin1, z1, p4f_asin2);
	Packet4f s2=pmadd(s1, z1, p4f_asin3);
	Packet4f s3=pmadd(s2,z1, p4f_asin4);
	Packet4f s4=pmadd(s3,z1, p4f_asin5);
	Packet4f temp=pmul(s4,z1);//not really a madd but a mul by z so that the next term can be a madd
	z1=pmadd(temp,x1,x1);
	z1=padd(z1,z1);
	z1=psub(p4f_pi_over_2,z1);
	}

	{
	//the core series expansion
	Packet4f x2=a;
	z2=pmul(x2,x2);
	Packet4f s1=pmadd(p4f_asin1, z2, p4f_asin2);
	Packet4f s2=pmadd(s1, z2, p4f_asin3);
	Packet4f s3=pmadd(s2,z2, p4f_asin4);
	Packet4f s4=pmadd(s3,z2, p4f_asin5);
	Packet4f temp=pmul(s4,z2);//not really a madd but a mul by z so that the next term can be a madd
	z2=pmadd(temp,x2,x2);
	}

	/* select the correct result from the two branch evaluations */
	z1 = _mm_and_ps(branch_mask, z1);
	z2 = _mm_andnot_ps(branch_mask, z2);
	Packet4f z = _mm_or_ps(z1,z2);

	/* update the sign */
	return _mm_xor_ps(z, sign_bit);
	}

	#endif // EIGEN_VECTORIZE_SSE

	} // end namespace internal

	} // end namespace Eigen

	#endif // EIGEN_MOREVECTORIZATION_MATHFUNCTIONS_H