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500 lines
17 KiB
C++
500 lines
17 KiB
C++
//---------------------------------------------------------------------------//
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// Copyright (c) 2013 Kyle Lutz <kyle.r.lutz@gmail.com>
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//
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// Distributed under the Boost Software License, Version 1.0
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// See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt
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//
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// See http://boostorg.github.com/compute for more information.
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//---------------------------------------------------------------------------//
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#ifndef BOOST_COMPUTE_CONTAINER_VALARRAY_HPP
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#define BOOST_COMPUTE_CONTAINER_VALARRAY_HPP
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#include <cstddef>
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#include <valarray>
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#include <boost/static_assert.hpp>
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#include <boost/type_traits.hpp>
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#include <boost/compute/buffer.hpp>
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#include <boost/compute/algorithm/copy.hpp>
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#include <boost/compute/algorithm/fill.hpp>
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#include <boost/compute/algorithm/max_element.hpp>
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#include <boost/compute/algorithm/min_element.hpp>
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#include <boost/compute/algorithm/transform.hpp>
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#include <boost/compute/algorithm/accumulate.hpp>
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#include <boost/compute/detail/buffer_value.hpp>
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#include <boost/compute/functional.hpp>
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#include <boost/compute/functional/bind.hpp>
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#include <boost/compute/iterator/buffer_iterator.hpp>
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#include <boost/compute/type_traits.hpp>
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namespace boost {
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namespace compute {
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template<class T>
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class valarray
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{
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public:
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explicit valarray(const context &context = system::default_context())
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: m_buffer(context, 0)
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{
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}
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explicit valarray(size_t size,
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const context &context = system::default_context())
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: m_buffer(context, size * sizeof(T))
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{
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}
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valarray(const T &value,
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size_t size,
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const context &context = system::default_context())
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: m_buffer(context, size * sizeof(T))
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{
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fill(begin(), end(), value);
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}
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valarray(const T *values,
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size_t size,
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const context &context = system::default_context())
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: m_buffer(context, size * sizeof(T))
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{
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copy(values, values + size, begin());
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}
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valarray(const valarray<T> &other)
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: m_buffer(other.m_buffer.get_context(), other.size() * sizeof(T))
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{
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}
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valarray(const std::valarray<T> &valarray,
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const context &context = system::default_context())
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: m_buffer(context, valarray.size() * sizeof(T))
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{
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copy(&valarray[0], &valarray[valarray.size()], begin());
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}
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valarray<T>& operator=(const valarray<T> &other)
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{
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if(this != &other){
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// change to other's OpenCL context
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m_buffer = buffer(other.m_buffer.get_context(), other.size() * sizeof(T));
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copy(other.begin(), other.end(), begin());
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}
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return *this;
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}
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valarray<T>& operator=(const std::valarray<T> &valarray)
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{
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m_buffer = buffer(m_buffer.get_context(), valarray.size() * sizeof(T));
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copy(&valarray[0], &valarray[valarray.size()], begin());
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return *this;
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}
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valarray<T>& operator*=(const T&);
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valarray<T>& operator/=(const T&);
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valarray<T>& operator%=(const T& val);
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valarray<T> operator+() const
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{
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// This operator can be used with any type.
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valarray<T> result(size());
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copy(begin(), end(), result.begin());
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return result;
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}
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valarray<T> operator-() const
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{
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BOOST_STATIC_ASSERT_MSG(
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is_fundamental<T>::value,
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"This operator can be used with all OpenCL built-in scalar"
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" and vector types"
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);
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valarray<T> result(size());
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BOOST_COMPUTE_FUNCTION(T, unary_minus, (T x),
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{
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return -x;
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});
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transform(begin(), end(), result.begin(), unary_minus);
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return result;
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}
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valarray<T> operator~() const
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{
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BOOST_STATIC_ASSERT_MSG(
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is_fundamental<T>::value &&
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!is_floating_point<typename scalar_type<T>::type>::value,
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"This operator can be used with all OpenCL built-in scalar"
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" and vector types except the built-in scalar and vector float types"
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);
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valarray<T> result(size());
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BOOST_COMPUTE_FUNCTION(T, bitwise_not, (T x),
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{
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return ~x;
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});
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transform(begin(), end(), result.begin(), bitwise_not);
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return result;
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}
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/// In OpenCL there cannot be memory buffer with bool type, for
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/// this reason return type is valarray<char> instead of valarray<bool>.
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/// 1 means true, 0 means false.
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valarray<char> operator!() const
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{
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BOOST_STATIC_ASSERT_MSG(
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is_fundamental<T>::value,
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"This operator can be used with all OpenCL built-in scalar"
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" and vector types"
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);
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valarray<char> result(size());
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BOOST_COMPUTE_FUNCTION(char, logical_not, (T x),
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{
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return !x;
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});
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transform(begin(), end(), &result[0], logical_not);
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return result;
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}
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valarray<T>& operator+=(const T&);
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valarray<T>& operator-=(const T&);
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valarray<T>& operator^=(const T&);
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valarray<T>& operator&=(const T&);
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valarray<T>& operator|=(const T&);
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valarray<T>& operator<<=(const T&);
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valarray<T>& operator>>=(const T&);
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valarray<T>& operator*=(const valarray<T>&);
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valarray<T>& operator/=(const valarray<T>&);
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valarray<T>& operator%=(const valarray<T>&);
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valarray<T>& operator+=(const valarray<T>&);
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valarray<T>& operator-=(const valarray<T>&);
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valarray<T>& operator^=(const valarray<T>&);
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valarray<T>& operator&=(const valarray<T>&);
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valarray<T>& operator|=(const valarray<T>&);
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valarray<T>& operator<<=(const valarray<T>&);
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valarray<T>& operator>>=(const valarray<T>&);
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~valarray()
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{
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}
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size_t size() const
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{
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return m_buffer.size() / sizeof(T);
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}
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void resize(size_t size, T value = T())
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{
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m_buffer = buffer(m_buffer.get_context(), size * sizeof(T));
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fill(begin(), end(), value);
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}
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detail::buffer_value<T> operator[](size_t index)
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{
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return *(begin() + static_cast<ptrdiff_t>(index));
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}
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const detail::buffer_value<T> operator[](size_t index) const
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{
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return *(begin() + static_cast<ptrdiff_t>(index));
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}
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T (min)() const
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{
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return *(boost::compute::min_element(begin(), end()));
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}
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T (max)() const
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{
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return *(boost::compute::max_element(begin(), end()));
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}
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T sum() const
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{
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return boost::compute::accumulate(begin(), end(), T(0));
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}
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template<class UnaryFunction>
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valarray<T> apply(UnaryFunction function) const
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{
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valarray<T> result(size());
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transform(begin(), end(), result.begin(), function);
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return result;
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}
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const buffer& get_buffer() const
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{
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return m_buffer;
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}
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private:
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buffer_iterator<T> begin() const
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{
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return buffer_iterator<T>(m_buffer, 0);
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}
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buffer_iterator<T> end() const
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{
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return buffer_iterator<T>(m_buffer, size());
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}
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private:
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buffer m_buffer;
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};
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/// \internal_
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#define BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT(op, op_name, assert) \
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template<class T> \
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inline valarray<T>& \
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valarray<T>::operator op##=(const T& val) \
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{ \
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assert \
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transform(begin(), end(), begin(), \
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::boost::compute::bind(op_name<T>(), placeholders::_1, val)); \
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return *this; \
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} \
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\
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template<class T> \
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inline valarray<T>& \
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valarray<T>::operator op##=(const valarray<T> &rhs) \
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{ \
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assert \
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transform(begin(), end(), rhs.begin(), begin(), op_name<T>()); \
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return *this; \
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}
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/// \internal_
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#define BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_ANY(op, op_name) \
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT(op, op_name, \
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BOOST_STATIC_ASSERT_MSG( \
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is_fundamental<T>::value, \
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"This operator can be used with all OpenCL built-in scalar" \
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" and vector types" \
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); \
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)
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/// \internal_
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/// For some operators class T can't be floating point type.
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/// See OpenCL specification, operators chapter.
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#define BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_NO_FP(op, op_name) \
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT(op, op_name, \
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BOOST_STATIC_ASSERT_MSG( \
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is_fundamental<T>::value && \
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!is_floating_point<typename scalar_type<T>::type>::value, \
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"This operator can be used with all OpenCL built-in scalar" \
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" and vector types except the built-in scalar and vector float types" \
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); \
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)
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// defining operators
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_ANY(+, plus)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_ANY(-, minus)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_ANY(*, multiplies)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_ANY(/, divides)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_NO_FP(^, bit_xor)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_NO_FP(&, bit_and)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_NO_FP(|, bit_or)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_NO_FP(<<, shift_left)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_NO_FP(>>, shift_right)
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// The remainder (%) operates on
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// integer scalar and integer vector data types only.
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// See OpenCL specification.
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT(%, modulus,
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BOOST_STATIC_ASSERT_MSG(
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is_integral<typename scalar_type<T>::type>::value,
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"This operator can be used only with OpenCL built-in integer types"
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);
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)
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_ANY
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT_NO_FP
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_COMPOUND_ASSIGNMENT
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/// \internal_
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/// Macro for defining binary operators for valarray
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#define BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR(op, op_name, assert) \
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template<class T> \
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valarray<T> operator op (const valarray<T>& lhs, const valarray<T>& rhs) \
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{ \
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assert \
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valarray<T> result(lhs.size()); \
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transform(buffer_iterator<T>(lhs.get_buffer(), 0), \
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buffer_iterator<T>(lhs.get_buffer(), lhs.size()), \
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buffer_iterator<T>(rhs.get_buffer(), 0), \
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buffer_iterator<T>(result.get_buffer(), 0), \
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op_name<T>()); \
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return result; \
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} \
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\
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template<class T> \
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valarray<T> operator op (const T& val, const valarray<T>& rhs) \
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{ \
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assert \
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valarray<T> result(rhs.size()); \
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transform(buffer_iterator<T>(rhs.get_buffer(), 0), \
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buffer_iterator<T>(rhs.get_buffer(), rhs.size()), \
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buffer_iterator<T>(result.get_buffer(), 0), \
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::boost::compute::bind(op_name<T>(), val, placeholders::_1)); \
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return result; \
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} \
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\
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template<class T> \
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valarray<T> operator op (const valarray<T>& lhs, const T& val) \
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{ \
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assert \
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valarray<T> result(lhs.size()); \
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transform(buffer_iterator<T>(lhs.get_buffer(), 0), \
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buffer_iterator<T>(lhs.get_buffer(), lhs.size()), \
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buffer_iterator<T>(result.get_buffer(), 0), \
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::boost::compute::bind(op_name<T>(), placeholders::_1, val)); \
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return result; \
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}
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/// \internal_
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#define BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_ANY(op, op_name) \
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR(op, op_name, \
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BOOST_STATIC_ASSERT_MSG( \
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is_fundamental<T>::value, \
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"This operator can be used with all OpenCL built-in scalar" \
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" and vector types" \
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); \
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)
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/// \internal_
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/// For some operators class T can't be floating point type.
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/// See OpenCL specification, operators chapter.
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#define BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_NO_FP(op, op_name) \
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR(op, op_name, \
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BOOST_STATIC_ASSERT_MSG( \
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is_fundamental<T>::value && \
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!is_floating_point<typename scalar_type<T>::type>::value, \
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"This operator can be used with all OpenCL built-in scalar" \
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" and vector types except the built-in scalar and vector float types" \
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); \
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)
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// defining binary operators for valarray
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_ANY(+, plus)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_ANY(-, minus)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_ANY(*, multiplies)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_ANY(/, divides)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_NO_FP(^, bit_xor)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_NO_FP(&, bit_and)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_NO_FP(|, bit_or)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_NO_FP(<<, shift_left)
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BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_NO_FP(>>, shift_right)
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_ANY
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR_NO_FP
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_BINARY_OPERATOR
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/// \internal_
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/// Macro for defining valarray comparison operators.
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/// For return type valarray<char> is used instead of valarray<bool> because
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/// in OpenCL there cannot be memory buffer with bool type.
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///
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/// Note it's also used for defining binary logical operators (==, &&)
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#define BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(op, op_name) \
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template<class T> \
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valarray<char> operator op (const valarray<T>& lhs, const valarray<T>& rhs) \
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{ \
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BOOST_STATIC_ASSERT_MSG( \
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is_fundamental<T>::value, \
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"This operator can be used with all OpenCL built-in scalar" \
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" and vector types" \
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); \
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valarray<char> result(lhs.size()); \
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transform(buffer_iterator<T>(lhs.get_buffer(), 0), \
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buffer_iterator<T>(lhs.get_buffer(), lhs.size()), \
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buffer_iterator<T>(rhs.get_buffer(), 0), \
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buffer_iterator<char>(result.get_buffer(), 0), \
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op_name<T>()); \
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return result; \
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} \
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\
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template<class T> \
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valarray<char> operator op (const T& val, const valarray<T>& rhs) \
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{ \
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BOOST_STATIC_ASSERT_MSG( \
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is_fundamental<T>::value, \
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"This operator can be used with all OpenCL built-in scalar" \
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" and vector types" \
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); \
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valarray<char> result(rhs.size()); \
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transform(buffer_iterator<T>(rhs.get_buffer(), 0), \
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buffer_iterator<T>(rhs.get_buffer(), rhs.size()), \
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buffer_iterator<char>(result.get_buffer(), 0), \
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::boost::compute::bind(op_name<T>(), val, placeholders::_1)); \
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return result; \
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} \
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\
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template<class T> \
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valarray<char> operator op (const valarray<T>& lhs, const T& val) \
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{ \
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BOOST_STATIC_ASSERT_MSG( \
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is_fundamental<T>::value, \
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"This operator can be used with all OpenCL built-in scalar" \
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" and vector types" \
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); \
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valarray<char> result(lhs.size()); \
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transform(buffer_iterator<T>(lhs.get_buffer(), 0), \
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buffer_iterator<T>(lhs.get_buffer(), lhs.size()), \
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buffer_iterator<char>(result.get_buffer(), 0), \
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::boost::compute::bind(op_name<T>(), placeholders::_1, val)); \
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return result; \
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}
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(==, equal_to)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(!=, not_equal_to)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(>, greater)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(<, less)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(>=, greater_equal)
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(<=, less_equal)
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/// \internal_
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/// Macro for defining binary logical operators for valarray.
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///
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/// For return type valarray<char> is used instead of valarray<bool> because
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/// in OpenCL there cannot be memory buffer with bool type.
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/// 1 means true, 0 means false.
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#define BOOST_COMPUTE_DEFINE_VALARRAY_LOGICAL_OPERATOR(op, op_name) \
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BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR(op, op_name)
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BOOST_COMPUTE_DEFINE_VALARRAY_LOGICAL_OPERATOR(&&, logical_and)
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BOOST_COMPUTE_DEFINE_VALARRAY_LOGICAL_OPERATOR(||, logical_or)
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_LOGICAL_OPERATOR
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#undef BOOST_COMPUTE_DEFINE_VALARRAY_COMPARISON_OPERATOR
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} // end compute namespace
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} // end boost namespace
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#endif // BOOST_COMPUTE_CONTAINER_VALARRAY_HPP
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