35#ifndef _BLAZE_MATH_FUNCTORS_LOG1P_H_
36#define _BLAZE_MATH_FUNCTORS_LOG1P_H_
78 template<
typename T >
81 return log1p( std::forward<T>( a ) );
90 template<
typename T >
91 static constexpr bool simdEnabled() {
return HasSIMDLog1p_v<T>; }
108 template<
typename T >
129template<
typename T >
130struct YieldsUniform<Log1p,T>
131 :
public IsUniform<T>
147template<
typename MT >
148struct YieldsSymmetric<Log1p,MT>
149 :
public IsSymmetric<MT>
165template<
typename MT >
166struct YieldsHermitian<Log1p,MT>
167 :
public IsHermitian<MT>
Header file for the HasSIMDLog1p type trait.
Macro for CUDA compatibility.
Header file for the IsHermitian type trait.
Header file for the IsSymmetric type trait.
Header file for the YieldsHermitian type trait.
Header file for the YieldsSymmetric type trait.
Constraint on the data type.
#define BLAZE_CONSTRAINT_MUST_BE_SIMD_PACK(T)
Constraint on the data type.
Definition: SIMDPack.h:60
BLAZE_ALWAYS_INLINE const SIMDdouble log1p(const SIMDf64< T > &a) noexcept=delete
Computes the natural logarithm of x+1 for a vector of double precision floating point values.
#define BLAZE_ALWAYS_INLINE
Platform dependent setup of an enforced inline keyword.
Definition: Inline.h:85
#define BLAZE_DEVICE_CALLABLE
Conditional macro that sets host and device attributes when compiled with CUDA.
Definition: HostDevice.h:94
Header file for the log1p shim.
Header file for the SIMD log1p functionality.
Generic wrapper for the log1p() function.
Definition: Log1p.h:71
BLAZE_ALWAYS_INLINE decltype(auto) load(const T &a) const
Returns the result of the log1p() function for the given SIMD vector.
Definition: Log1p.h:109
static constexpr bool paddingEnabled()
Returns whether the operation supports padding, i.e. whether it can deal with zeros.
Definition: Log1p.h:99
static constexpr bool simdEnabled()
Returns whether SIMD is enabled for the specified data type T.
Definition: Log1p.h:91
System settings for the inline keywords.