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228 lines
6.8 KiB
C++
228 lines
6.8 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_BUFFER_HPP
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#define BOOST_COMPUTE_BUFFER_HPP
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#include <boost/compute/config.hpp>
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#include <boost/compute/context.hpp>
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#include <boost/compute/exception.hpp>
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#include <boost/compute/memory_object.hpp>
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#include <boost/compute/detail/get_object_info.hpp>
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namespace boost {
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namespace compute {
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// forward declarations
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class command_queue;
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/// \class buffer
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/// \brief A memory buffer on a compute device.
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///
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/// The buffer class represents a memory buffer on a compute device.
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///
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/// Buffers are allocated within a compute context. For example, to allocate
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/// a memory buffer for 32 float's:
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///
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/// \snippet test/test_buffer.cpp constructor
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///
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/// Once created, data can be copied to and from the buffer using the
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/// \c enqueue_*_buffer() methods in the command_queue class. For example, to
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/// copy a set of \c int values from the host to the device:
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/// \code
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/// int data[] = { 1, 2, 3, 4 };
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///
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/// queue.enqueue_write_buffer(buf, 0, 4 * sizeof(int), data);
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/// \endcode
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///
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/// Also see the copy() algorithm for a higher-level interface to copying data
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/// between the host and the device. For a higher-level, dynamically-resizable,
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/// type-safe container for data on a compute device, use the vector<T> class.
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///
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/// Buffer objects have reference semantics. Creating a copy of a buffer
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/// object simply creates another reference to the underlying OpenCL memory
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/// object. To create an actual copy use the buffer::clone() method.
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///
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/// \see context, command_queue
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class buffer : public memory_object
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{
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public:
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/// Creates a null buffer object.
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buffer()
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: memory_object()
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{
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}
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/// Creates a buffer object for \p mem. If \p retain is \c true, the
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/// reference count for \p mem will be incremented.
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explicit buffer(cl_mem mem, bool retain = true)
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: memory_object(mem, retain)
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{
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}
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/// Create a new memory buffer in of \p size with \p flags in
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/// \p context.
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///
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/// \see_opencl_ref{clCreateBuffer}
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buffer(const context &context,
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size_t size,
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cl_mem_flags flags = read_write,
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void *host_ptr = 0)
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{
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cl_int error = 0;
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m_mem = clCreateBuffer(context,
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flags,
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(std::max)(size, size_t(1)),
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host_ptr,
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&error);
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if(!m_mem){
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BOOST_THROW_EXCEPTION(opencl_error(error));
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}
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}
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/// Creates a new buffer object as a copy of \p other.
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buffer(const buffer &other)
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: memory_object(other)
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{
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}
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/// Copies the buffer object from \p other to \c *this.
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buffer& operator=(const buffer &other)
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{
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if(this != &other){
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memory_object::operator=(other);
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}
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return *this;
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}
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#ifndef BOOST_COMPUTE_NO_RVALUE_REFERENCES
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/// Move-constructs a new buffer object from \p other.
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buffer(buffer&& other) BOOST_NOEXCEPT
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: memory_object(std::move(other))
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{
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}
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/// Move-assigns the buffer from \p other to \c *this.
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buffer& operator=(buffer&& other) BOOST_NOEXCEPT
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{
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memory_object::operator=(std::move(other));
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return *this;
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}
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#endif // BOOST_COMPUTE_NO_RVALUE_REFERENCES
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/// Destroys the buffer object.
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~buffer()
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{
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}
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/// Returns the size of the buffer in bytes.
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size_t size() const
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{
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return get_memory_size();
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}
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/// \internal_
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size_t max_size() const
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{
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return get_context().get_device().max_memory_alloc_size();
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}
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/// Returns information about the buffer.
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///
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/// \see_opencl_ref{clGetMemObjectInfo}
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template<class T>
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T get_info(cl_mem_info info) const
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{
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return get_memory_info<T>(info);
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}
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/// \overload
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template<int Enum>
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typename detail::get_object_info_type<buffer, Enum>::type
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get_info() const;
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/// Creates a new buffer with a copy of the data in \c *this. Uses
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/// \p queue to perform the copy.
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buffer clone(command_queue &queue) const;
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#if defined(CL_VERSION_1_1) || defined(BOOST_COMPUTE_DOXYGEN_INVOKED)
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/// Creates a new buffer out of this buffer.
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/// The new buffer is a sub region of this buffer.
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/// \p flags The mem_flags which should be used to create the new buffer
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/// \p origin The start index in this buffer
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/// \p size The size of the new sub buffer
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///
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/// \see_opencl_ref{clCreateSubBuffer}
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///
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/// \opencl_version_warning{1,1}
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buffer create_subbuffer(cl_mem_flags flags, size_t origin,
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size_t size)
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{
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BOOST_ASSERT(origin + size <= this->size());
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BOOST_ASSERT(origin % (get_context().
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get_device().
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get_info<CL_DEVICE_MEM_BASE_ADDR_ALIGN>() / 8) == 0);
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cl_int error = 0;
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cl_buffer_region region = { origin, size };
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cl_mem mem = clCreateSubBuffer(m_mem,
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flags,
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CL_BUFFER_CREATE_TYPE_REGION,
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®ion,
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&error);
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if(!mem){
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BOOST_THROW_EXCEPTION(opencl_error(error));
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}
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return buffer(mem, false);
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}
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#endif // CL_VERSION_1_1
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};
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/// \internal_ define get_info() specializations for buffer
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BOOST_COMPUTE_DETAIL_DEFINE_GET_INFO_SPECIALIZATIONS(buffer,
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((cl_mem_object_type, CL_MEM_TYPE))
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((cl_mem_flags, CL_MEM_FLAGS))
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((size_t, CL_MEM_SIZE))
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((void *, CL_MEM_HOST_PTR))
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((cl_uint, CL_MEM_MAP_COUNT))
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((cl_uint, CL_MEM_REFERENCE_COUNT))
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((cl_context, CL_MEM_CONTEXT))
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)
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#ifdef CL_VERSION_1_1
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BOOST_COMPUTE_DETAIL_DEFINE_GET_INFO_SPECIALIZATIONS(buffer,
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((cl_mem, CL_MEM_ASSOCIATED_MEMOBJECT))
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((size_t, CL_MEM_OFFSET))
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)
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#endif // CL_VERSION_1_1
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namespace detail {
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// set_kernel_arg specialization for buffer
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template<>
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struct set_kernel_arg<buffer>
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{
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void operator()(kernel &kernel_, size_t index, const buffer &buffer_)
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{
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kernel_.set_arg(index, buffer_.get());
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}
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};
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} // end detail namespace
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} // end compute namespace
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} // end boost namespace
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#endif // BOOST_COMPUTE_BUFFER_HPP
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