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https://github.com/ecency/ecency-mobile.git
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419 lines
13 KiB
C++
419 lines
13 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_KERNEL_HPP
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#define BOOST_COMPUTE_KERNEL_HPP
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#include <string>
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#include <boost/assert.hpp>
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#include <boost/utility/enable_if.hpp>
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#include <boost/compute/config.hpp>
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#include <boost/compute/program.hpp>
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#include <boost/compute/exception.hpp>
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#include <boost/compute/type_traits/is_fundamental.hpp>
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#include <boost/compute/detail/get_object_info.hpp>
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#include <boost/compute/detail/assert_cl_success.hpp>
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namespace boost {
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namespace compute {
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namespace detail {
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template<class T> struct set_kernel_arg;
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} // end detail namespace
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/// \class kernel
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/// \brief A compute kernel.
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///
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/// \see command_queue, program
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class kernel
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{
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public:
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/// Creates a null kernel object.
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kernel()
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: m_kernel(0)
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{
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}
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/// Creates a new kernel object for \p kernel. If \p retain is
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/// \c true, the reference count for \p kernel will be incremented.
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explicit kernel(cl_kernel kernel, bool retain = true)
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: m_kernel(kernel)
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{
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if(m_kernel && retain){
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clRetainKernel(m_kernel);
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}
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}
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/// Creates a new kernel object with \p name from \p program.
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kernel(const program &program, const std::string &name)
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{
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cl_int error = 0;
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m_kernel = clCreateKernel(program.get(), name.c_str(), &error);
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if(!m_kernel){
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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 kernel object as a copy of \p other.
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kernel(const kernel &other)
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: m_kernel(other.m_kernel)
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{
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if(m_kernel){
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clRetainKernel(m_kernel);
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}
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}
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/// Copies the kernel object from \p other to \c *this.
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kernel& operator=(const kernel &other)
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{
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if(this != &other){
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if(m_kernel){
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clReleaseKernel(m_kernel);
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}
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m_kernel = other.m_kernel;
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if(m_kernel){
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clRetainKernel(m_kernel);
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}
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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 kernel object from \p other.
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kernel(kernel&& other) BOOST_NOEXCEPT
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: m_kernel(other.m_kernel)
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{
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other.m_kernel = 0;
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}
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/// Move-assigns the kernel from \p other to \c *this.
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kernel& operator=(kernel&& other) BOOST_NOEXCEPT
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{
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if(m_kernel){
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clReleaseKernel(m_kernel);
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}
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m_kernel = other.m_kernel;
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other.m_kernel = 0;
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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 kernel object.
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~kernel()
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{
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if(m_kernel){
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BOOST_COMPUTE_ASSERT_CL_SUCCESS(
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clReleaseKernel(m_kernel)
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);
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}
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}
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/// Returns a reference to the underlying OpenCL kernel object.
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cl_kernel& get() const
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{
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return const_cast<cl_kernel &>(m_kernel);
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}
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/// Returns the function name for the kernel.
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std::string name() const
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{
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return get_info<std::string>(CL_KERNEL_FUNCTION_NAME);
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}
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/// Returns the number of arguments for the kernel.
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size_t arity() const
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{
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return get_info<cl_uint>(CL_KERNEL_NUM_ARGS);
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}
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/// Returns the program for the kernel.
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program get_program() const
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{
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return program(get_info<cl_program>(CL_KERNEL_PROGRAM));
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}
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/// Returns the context for the kernel.
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context get_context() const
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{
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return context(get_info<cl_context>(CL_KERNEL_CONTEXT));
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}
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/// Returns information about the kernel.
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///
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/// \see_opencl_ref{clGetKernelInfo}
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template<class T>
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T get_info(cl_kernel_info info) const
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{
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return detail::get_object_info<T>(clGetKernelInfo, m_kernel, 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<kernel, Enum>::type
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get_info() const;
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#if defined(CL_VERSION_1_2) || defined(BOOST_COMPUTE_DOXYGEN_INVOKED)
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/// Returns information about the argument at \p index.
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///
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/// For example, to get the name of the first argument:
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/// \code
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/// std::string arg = kernel.get_arg_info<std::string>(0, CL_KERNEL_ARG_NAME);
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/// \endcode
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///
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/// Note, this function requires that the program be compiled with the
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/// \c "-cl-kernel-arg-info" flag. For example:
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/// \code
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/// program.build("-cl-kernel-arg-info");
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/// \endcode
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///
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/// \opencl_version_warning{1,2}
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///
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/// \see_opencl_ref{clGetKernelArgInfo}
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template<class T>
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T get_arg_info(size_t index, cl_kernel_arg_info info) const
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{
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return detail::get_object_info<T>(
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clGetKernelArgInfo, m_kernel, info, static_cast<cl_uint>(index)
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);
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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<kernel, Enum>::type
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get_arg_info(size_t index) const;
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#endif // CL_VERSION_1_2
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/// Returns work-group information for the kernel with \p device.
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///
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/// \see_opencl_ref{clGetKernelWorkGroupInfo}
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template<class T>
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T get_work_group_info(const device &device, cl_kernel_work_group_info info) const
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{
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return detail::get_object_info<T>(clGetKernelWorkGroupInfo, m_kernel, info, device.id());
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}
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/// Sets the argument at \p index to \p value with \p size.
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///
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/// \see_opencl_ref{clSetKernelArg}
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void set_arg(size_t index, size_t size, const void *value)
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{
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BOOST_ASSERT(index < arity());
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cl_int ret = clSetKernelArg(m_kernel,
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static_cast<cl_uint>(index),
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size,
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value);
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if(ret != CL_SUCCESS){
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BOOST_THROW_EXCEPTION(opencl_error(ret));
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}
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}
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/// Sets the argument at \p index to \p value.
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///
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/// For built-in types (e.g. \c float, \c int4_), this is equivalent to
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/// calling set_arg(index, sizeof(type), &value).
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///
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/// Additionally, this method is specialized for device memory objects
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/// such as buffer and image2d. This allows for them to be passed directly
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/// without having to extract their underlying cl_mem object.
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///
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/// This method is also specialized for device container types such as
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/// vector<T> and array<T, N>. This allows for them to be passed directly
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/// as kernel arguments without having to extract their underlying buffer.
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///
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/// For setting local memory arguments (e.g. "__local float *buf"), the
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/// local_buffer<T> class may be used:
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/// \code
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/// // set argument to a local buffer with storage for 32 float's
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/// kernel.set_arg(0, local_buffer<float>(32));
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/// \endcode
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template<class T>
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void set_arg(size_t index, const T &value)
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{
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// if you get a compilation error pointing here it means you
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// attempted to set a kernel argument from an invalid type.
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detail::set_kernel_arg<T>()(*this, index, value);
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}
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/// \internal_
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void set_arg(size_t index, const cl_mem mem)
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{
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set_arg(index, sizeof(cl_mem), static_cast<const void *>(&mem));
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}
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/// \internal_
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void set_arg(size_t index, const cl_sampler sampler)
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{
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set_arg(index, sizeof(cl_sampler), static_cast<const void *>(&sampler));
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}
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/// \internal_
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void set_arg_svm_ptr(size_t index, void* ptr)
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{
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#ifdef CL_VERSION_2_0
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cl_int ret = clSetKernelArgSVMPointer(m_kernel, static_cast<cl_uint>(index), ptr);
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if(ret != CL_SUCCESS){
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BOOST_THROW_EXCEPTION(opencl_error(ret));
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}
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#else
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(void) index;
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(void) ptr;
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BOOST_THROW_EXCEPTION(opencl_error(CL_INVALID_ARG_VALUE));
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#endif
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}
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#ifndef BOOST_COMPUTE_NO_VARIADIC_TEMPLATES
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/// Sets the arguments for the kernel to \p args.
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template<class... T>
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void set_args(T&&... args)
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{
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BOOST_ASSERT(sizeof...(T) <= arity());
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_set_args<0>(args...);
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}
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#endif // BOOST_COMPUTE_NO_VARIADIC_TEMPLATES
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#if defined(CL_VERSION_2_0) || defined(BOOST_COMPUTE_DOXYGEN_INVOKED)
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/// Sets additional execution information for the kernel.
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///
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/// \opencl_version_warning{2,0}
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///
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/// \see_opencl2_ref{clSetKernelExecInfo}
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void set_exec_info(cl_kernel_exec_info info, size_t size, const void *value)
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{
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cl_int ret = clSetKernelExecInfo(m_kernel, info, size, value);
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if(ret != CL_SUCCESS){
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BOOST_THROW_EXCEPTION(opencl_error(ret));
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}
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}
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#endif // CL_VERSION_2_0
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/// Returns \c true if the kernel is the same at \p other.
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bool operator==(const kernel &other) const
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{
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return m_kernel == other.m_kernel;
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}
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/// Returns \c true if the kernel is different from \p other.
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bool operator!=(const kernel &other) const
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{
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return m_kernel != other.m_kernel;
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}
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/// \internal_
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operator cl_kernel() const
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{
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return m_kernel;
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}
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/// \internal_
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static kernel create_with_source(const std::string &source,
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const std::string &name,
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const context &context)
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{
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return program::build_with_source(source, context).create_kernel(name);
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}
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private:
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#ifndef BOOST_COMPUTE_NO_VARIADIC_TEMPLATES
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/// \internal_
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template<size_t N>
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void _set_args()
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{
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}
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/// \internal_
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template<size_t N, class T, class... Args>
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void _set_args(T&& arg, Args&&... rest)
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{
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set_arg(N, arg);
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_set_args<N+1>(rest...);
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}
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#endif // BOOST_COMPUTE_NO_VARIADIC_TEMPLATES
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private:
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cl_kernel m_kernel;
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};
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inline kernel program::create_kernel(const std::string &name) const
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{
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return kernel(*this, name);
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}
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/// \internal_ define get_info() specializations for kernel
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BOOST_COMPUTE_DETAIL_DEFINE_GET_INFO_SPECIALIZATIONS(kernel,
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((std::string, CL_KERNEL_FUNCTION_NAME))
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((cl_uint, CL_KERNEL_NUM_ARGS))
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((cl_uint, CL_KERNEL_REFERENCE_COUNT))
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((cl_context, CL_KERNEL_CONTEXT))
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((cl_program, CL_KERNEL_PROGRAM))
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)
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#ifdef CL_VERSION_1_2
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BOOST_COMPUTE_DETAIL_DEFINE_GET_INFO_SPECIALIZATIONS(kernel,
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((std::string, CL_KERNEL_ATTRIBUTES))
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)
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#endif // CL_VERSION_1_2
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/// \internal_ define get_arg_info() specializations for kernel
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#ifdef CL_VERSION_1_2
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#define BOOST_COMPUTE_DETAIL_DEFINE_KERNEL_GET_ARG_INFO_SPECIALIZATION(result_type, value) \
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namespace detail { \
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template<> struct get_object_info_type<kernel, value> { typedef result_type type; }; \
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} \
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template<> inline result_type kernel::get_arg_info<value>(size_t index) const { \
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return get_arg_info<result_type>(index, value); \
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}
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BOOST_COMPUTE_DETAIL_DEFINE_KERNEL_GET_ARG_INFO_SPECIALIZATION(cl_kernel_arg_address_qualifier, CL_KERNEL_ARG_ADDRESS_QUALIFIER)
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BOOST_COMPUTE_DETAIL_DEFINE_KERNEL_GET_ARG_INFO_SPECIALIZATION(cl_kernel_arg_access_qualifier, CL_KERNEL_ARG_ACCESS_QUALIFIER)
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BOOST_COMPUTE_DETAIL_DEFINE_KERNEL_GET_ARG_INFO_SPECIALIZATION(std::string, CL_KERNEL_ARG_TYPE_NAME)
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BOOST_COMPUTE_DETAIL_DEFINE_KERNEL_GET_ARG_INFO_SPECIALIZATION(cl_kernel_arg_type_qualifier, CL_KERNEL_ARG_TYPE_QUALIFIER)
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BOOST_COMPUTE_DETAIL_DEFINE_KERNEL_GET_ARG_INFO_SPECIALIZATION(std::string, CL_KERNEL_ARG_NAME)
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#endif // CL_VERSION_1_2
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namespace detail {
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// set_kernel_arg implementation for built-in types
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template<class T>
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struct set_kernel_arg
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{
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typename boost::enable_if<is_fundamental<T> >::type
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operator()(kernel &kernel_, size_t index, const T &value)
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{
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kernel_.set_arg(index, sizeof(T), &value);
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}
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};
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// set_kernel_arg specialization for char (different from built-in cl_char)
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template<>
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struct set_kernel_arg<char>
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{
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void operator()(kernel &kernel_, size_t index, const char c)
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{
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kernel_.set_arg(index, sizeof(char), &c);
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}
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};
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} // end detail namespace
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} // end namespace compute
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} // end namespace boost
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#endif // BOOST_COMPUTE_KERNEL_HPP
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