diff options
Diffstat (limited to 'unsupported')
-rw-r--r-- | unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsImpl.h | 229 | ||||
-rw-r--r-- | unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsPacketMath.h | 10 |
2 files changed, 95 insertions, 144 deletions
diff --git a/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsImpl.h b/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsImpl.h index a9bc205ab..7c6d32049 100644 --- a/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsImpl.h +++ b/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsImpl.h @@ -36,78 +36,6 @@ namespace internal { // Good luck with your project, // Steve -namespace cephes { - -/* chbevl (modified for Eigen) - * - * Evaluate Chebyshev series - * - * - * - * SYNOPSIS: - * - * int N; - * Scalar x, y, coef[N], chebevl(); - * - * y = chbevl( x, coef, N ); - * - * - * - * DESCRIPTION: - * - * Evaluates the series - * - * N-1 - * - ' - * y = > coef[i] T (x/2) - * - i - * i=0 - * - * of Chebyshev polynomials Ti at argument x/2. - * - * Coefficients are stored in reverse order, i.e. the zero - * order term is last in the array. Note N is the number of - * coefficients, not the order. - * - * If coefficients are for the interval a to b, x must - * have been transformed to x -> 2(2x - b - a)/(b-a) before - * entering the routine. This maps x from (a, b) to (-1, 1), - * over which the Chebyshev polynomials are defined. - * - * If the coefficients are for the inverted interval, in - * which (a, b) is mapped to (1/b, 1/a), the transformation - * required is x -> 2(2ab/x - b - a)/(b-a). If b is infinity, - * this becomes x -> 4a/x - 1. - * - * - * - * SPEED: - * - * Taking advantage of the recurrence properties of the - * Chebyshev polynomials, the routine requires one more - * addition per loop than evaluating a nested polynomial of - * the same degree. - * - */ -template <typename Scalar, int N> -struct chebevl { - EIGEN_DEVICE_FUNC - static EIGEN_STRONG_INLINE Scalar run(Scalar x, const Scalar coef[]) { - Scalar b0 = coef[0]; - Scalar b1 = 0; - Scalar b2; - - for (int i = 1; i < N; i++) { - b2 = b1; - b1 = b0; - b0 = x * b1 - b2 + coef[i]; - } - - return Scalar(0.5) * (b0 - b2); - } -}; - -} // end namespace cephes /**************************************************************************** * Implementation of lgamma, requires C++11/C99 * @@ -1945,20 +1873,20 @@ struct i0e_retval { typedef Scalar type; }; -template <typename Scalar> -struct i0e_impl { +template <typename T, typename ScalarType> +struct generic_i0e { EIGEN_DEVICE_FUNC - static EIGEN_STRONG_INLINE Scalar run(const Scalar) { - EIGEN_STATIC_ASSERT((internal::is_same<Scalar, Scalar>::value == false), + static EIGEN_STRONG_INLINE T run(const T&) { + EIGEN_STATIC_ASSERT((internal::is_same<T, T>::value == false), THIS_TYPE_IS_NOT_SUPPORTED); - return Scalar(0); + return ScalarType(0); } }; -template <> -struct i0e_impl<float> { +template <typename T> +struct generic_i0e<T, float> { EIGEN_DEVICE_FUNC - static EIGEN_STRONG_INLINE float run(float x) { + static EIGEN_STRONG_INLINE T run(const T& x) { /* i0ef.c * * Modified Bessel function of order zero, @@ -1991,6 +1919,7 @@ struct i0e_impl<float> { * See i0f(). * */ + const float A[] = {-1.30002500998624804212E-8f, 6.04699502254191894932E-8f, -2.67079385394061173391E-7f, 1.11738753912010371815E-6f, -4.41673835845875056359E-6f, 1.64484480707288970893E-5f, @@ -2005,23 +1934,24 @@ struct i0e_impl<float> { 2.04891858946906374183E-7f, 2.89137052083475648297E-6f, 6.88975834691682398426E-5f, 3.36911647825569408990E-3f, 8.04490411014108831608E-1f}; - if (x < 0.0f) { - x = -x; - } - - if (x <= 8.0f) { - float y = 0.5f * x - 2.0f; - return cephes::chebevl<float, 18>::run(y, A); - } - - return cephes::chebevl<float, 7>::run(32.0f / x - 2.0f, B) / numext::sqrt(x); + T y = pabs(x); + T y_le_eight = internal::pchebevl<T, 18>::run( + pmadd(pset1<T>(0.5f), y, pset1<T>(-2.0f)), A); + T y_gt_eight = pdiv( + internal::pchebevl<T, 7>::run( + psub(pdiv(pset1<T>(32.0f), y), pset1<T>(2.0f)), B), + psqrt(y)); + // TODO: Perhaps instead check whether all packet elements are in + // [-8, 8] and evaluate a branch based off of that. It's possible + // in practice most elements are in this region. + return pselect(pcmp_le(y, pset1<T>(8.0f)), y_le_eight, y_gt_eight); } }; -template <> -struct i0e_impl<double> { +template <typename T> +struct generic_i0e<T, double> { EIGEN_DEVICE_FUNC - static EIGEN_STRONG_INLINE double run(double x) { + static EIGEN_STRONG_INLINE T run(const T& x) { /* i0e.c * * Modified Bessel function of order zero, @@ -2054,6 +1984,7 @@ struct i0e_impl<double> { * See i0(). * */ + const double A[] = {-4.41534164647933937950E-18, 3.33079451882223809783E-17, -2.43127984654795469359E-16, 1.71539128555513303061E-15, -1.16853328779934516808E-14, 7.67618549860493561688E-14, @@ -2083,40 +2014,48 @@ struct i0e_impl<double> { 2.04891858946906374183E-7, 2.89137052083475648297E-6, 6.88975834691682398426E-5, 3.36911647825569408990E-3, 8.04490411014108831608E-1}; + T y = pabs(x); + T y_le_eight = internal::pchebevl<T, 30>::run( + pmadd(pset1<T>(0.5), y, pset1<T>(-2.0)), A); + T y_gt_eight = pdiv( + internal::pchebevl<T, 25>::run( + psub(pdiv(pset1<T>(32.0), y), pset1<T>(2.0)), B), + psqrt(y)); + // TODO: Perhaps instead check whether all packet elements are in + // [-8, 8] and evaluate a branch based off of that. It's possible + // in practice most elements are in this region. + return pselect(pcmp_le(y, pset1<T>(8.0)), y_le_eight, y_gt_eight); + } +}; - if (x < 0.0) { - x = -x; - } - - if (x <= 8.0) { - double y = (x / 2.0) - 2.0; - return cephes::chebevl<double, 30>::run(y, A); - } - - return cephes::chebevl<double, 25>::run(32.0 / x - 2.0, B) / - numext::sqrt(x); +template <typename Scalar> +struct i0e_impl { + EIGEN_DEVICE_FUNC + static EIGEN_STRONG_INLINE Scalar run(const Scalar x) { + return generic_i0e<Scalar, Scalar>::run(x); } }; + template <typename Scalar> struct i1e_retval { typedef Scalar type; }; -template <typename Scalar> -struct i1e_impl { +template <typename T, typename ScalarType> +struct generic_i1e { EIGEN_DEVICE_FUNC - static EIGEN_STRONG_INLINE Scalar run(const Scalar) { - EIGEN_STATIC_ASSERT((internal::is_same<Scalar, Scalar>::value == false), + static EIGEN_STRONG_INLINE T run(const T&) { + EIGEN_STATIC_ASSERT((internal::is_same<T, T>::value == false), THIS_TYPE_IS_NOT_SUPPORTED); - return Scalar(0); + return ScalarType(0); } }; -template <> -struct i1e_impl<float> { +template <typename T> +struct generic_i1e<T, float> { EIGEN_DEVICE_FUNC - static EIGEN_STRONG_INLINE float run(float x) { + static EIGEN_STRONG_INLINE T run(const T& x) { /* i1ef.c * * Modified Bessel function of order one, @@ -2164,27 +2103,27 @@ struct i1e_impl<float> { -1.10588938762623716291E-4f, -9.76109749136146840777E-3f, 7.78576235018280120474E-1f}; - float z = numext::abs(x); - - if (z <= 8.0f) { - float y = 0.5f * z - 2.0f; - z = cephes::chebevl<float, 17>::run(y, A) * z; - } else { - z = cephes::chebevl<float, 7>::run(32.0f / z - 2.0f, B) / numext::sqrt(z); - } - if (x < 0.0f) { - z = -z; - } - - return z; + T y = pabs(x); + T y_le_eight = pmul(y, internal::pchebevl<T, 17>::run( + pmadd(pset1<T>(0.5f), y, pset1<T>(-2.0f)), A)); + T y_gt_eight = pdiv( + internal::pchebevl<T, 7>::run( + psub(pdiv(pset1<T>(32.0f), y), + pset1<T>(2.0f)), B), + psqrt(y)); + // TODO: Perhaps instead check whether all packet elements are in + // [-8, 8] and evaluate a branch based off of that. It's possible + // in practice most elements are in this region. + y = pselect(pcmp_le(y, pset1<T>(8.0f)), y_le_eight, y_gt_eight); + return pselect(pcmp_lt(x, pset1<T>(0.0f)), -y, y); } }; -template <> -struct i1e_impl<double> { +template <typename T> +struct generic_i1e<T, double> { EIGEN_DEVICE_FUNC - static EIGEN_STRONG_INLINE double run(double x) { + static EIGEN_STRONG_INLINE T run(const T& x) { /* i1e.c * * Modified Bessel function of order one, @@ -2246,21 +2185,27 @@ struct i1e_impl<double> { -2.51223623787020892529E-7, -3.88256480887769039346E-6, -1.10588938762623716291E-4, -9.76109749136146840777E-3, 7.78576235018280120474E-1}; + T y = pabs(x); + T y_le_eight = pmul(y, internal::pchebevl<T, 29>::run( + pmadd(pset1<T>(0.5), y, pset1<T>(-2.0)), A)); + T y_gt_eight = pdiv( + internal::pchebevl<T, 25>::run( + psub(pdiv(pset1<T>(32.0), y), + pset1<T>(2.0)), B), + psqrt(y)); + // TODO: Perhaps instead check whether all packet elements are in + // [-8, 8] and evaluate a branch based off of that. It's possible + // in practice most elements are in this region. + y = pselect(pcmp_le(y, pset1<T>(8.0)), y_le_eight, y_gt_eight); + return pselect(pcmp_lt(x, pset1<T>(0.0f)), -y, y); + } +}; - double z = numext::abs(x); - - if (z <= 8.0) { - double y = (z / 2.0) - 2.0; - z = cephes::chebevl<double, 29>::run(y, A) * z; - } else { - z = cephes::chebevl<double, 25>::run(32.0 / z - 2.0, B) / numext::sqrt(z); - } - - if (x < 0.0) { - z = -z; - } - - return z; +template <typename Scalar> +struct i1e_impl { + EIGEN_DEVICE_FUNC + static EIGEN_STRONG_INLINE Scalar run(const Scalar x) { + return generic_i1e<Scalar, Scalar>::run(x); } }; diff --git a/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsPacketMath.h b/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsPacketMath.h index b6323c4db..21908e512 100644 --- a/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsPacketMath.h +++ b/unsupported/Eigen/src/SpecialFunctions/SpecialFunctionsPacketMath.h @@ -76,13 +76,19 @@ Packet pbetainc(const Packet& a, const Packet& b,const Packet& x) { using numext * order zero i0e(\a a) (coeff-wise) */ template <typename Packet> EIGEN_DEVICE_FUNC EIGEN_DECLARE_FUNCTION_ALLOWING_MULTIPLE_DEFINITIONS -Packet pi0e(const Packet& x) { using numext::i0e; return i0e(x); } +Packet pi0e(const Packet& x) { + typedef typename unpacket_traits<Packet>::type ScalarType; + using internal::generic_i0e; return generic_i0e<Packet, ScalarType>::run(x); +} /** \internal \returns the exponentially scaled modified Bessel function of * order one i1e(\a a) (coeff-wise) */ template <typename Packet> EIGEN_DEVICE_FUNC EIGEN_DECLARE_FUNCTION_ALLOWING_MULTIPLE_DEFINITIONS -Packet pi1e(const Packet& x) { using numext::i1e; return i1e(x); } +Packet pi1e(const Packet& x) { + typedef typename unpacket_traits<Packet>::type ScalarType; + using internal::generic_i1e; return generic_i1e<Packet, ScalarType>::run(x); +} } // end namespace internal |