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WSJT-X/boost/compute/context.hpp
Bill Somerville 4ebe6417a5 Squashed 'boost/' content from commit b4feb19f2 
git-subtree-dir: boost
git-subtree-split: b4feb19f287ee92d87a9624b5d36b7cf46aeadeb
2018-06-09 21:48:32 +01:00

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//---------------------------------------------------------------------------//
// Copyright (c) 2013 Kyle Lutz <kyle.r.lutz@gmail.com>
//
// Distributed under the Boost Software License, Version 1.0
// See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt
//
// See http://boostorg.github.com/compute for more information.
//---------------------------------------------------------------------------//
#ifndef BOOST_COMPUTE_CONTEXT_HPP
#define BOOST_COMPUTE_CONTEXT_HPP
#include <vector>
#include <boost/throw_exception.hpp>
#include <boost/compute/config.hpp>
#include <boost/compute/device.hpp>
#include <boost/compute/exception/opencl_error.hpp>
#include <boost/compute/detail/assert_cl_success.hpp>
namespace boost {
namespace compute {
/// \class context
/// \brief A compute context.
///
/// The context class represents a compute context.
///
/// A context object manages a set of OpenCL resources including memory
/// buffers and program objects. Before allocating memory on the device or
/// executing kernels you must set up a context object.
///
/// To create a context for the default device on the system:
/// \code
/// // get the default compute device
/// boost::compute::device gpu = boost::compute::system::default_device();
///
/// // create a context for the device
/// boost::compute::context context(gpu);
/// \endcode
///
/// Once a context is created, memory can be allocated using the buffer class
/// and kernels can be executed using the command_queue class.
///
/// \see device, command_queue
class context
{
public:
/// Create a null context object.
context()
: m_context(0)
{
}
/// Creates a new context for \p device with \p properties.
///
/// \see_opencl_ref{clCreateContext}
explicit context(const device &device,
const cl_context_properties *properties = 0)
{
BOOST_ASSERT(device.id() != 0);
cl_device_id device_id = device.id();
cl_int error = 0;
m_context = clCreateContext(properties, 1, &device_id, 0, 0, &error);
if(!m_context){
BOOST_THROW_EXCEPTION(opencl_error(error));
}
}
/// Creates a new context for \p devices with \p properties.
///
/// \see_opencl_ref{clCreateContext}
explicit context(const std::vector<device> &devices,
const cl_context_properties *properties = 0)
{
BOOST_ASSERT(!devices.empty());
cl_int error = 0;
m_context = clCreateContext(
properties,
static_cast<cl_uint>(devices.size()),
reinterpret_cast<const cl_device_id *>(&devices[0]),
0,
0,
&error
);
if(!m_context){
BOOST_THROW_EXCEPTION(opencl_error(error));
}
}
/// Creates a new context object for \p context. If \p retain is
/// \c true, the reference count for \p context will be incremented.
explicit context(cl_context context, bool retain = true)
: m_context(context)
{
if(m_context && retain){
clRetainContext(m_context);
}
}
/// Creates a new context object as a copy of \p other.
context(const context &other)
: m_context(other.m_context)
{
if(m_context){
clRetainContext(m_context);
}
}
/// Copies the context object from \p other to \c *this.
context& operator=(const context &other)
{
if(this != &other){
if(m_context){
clReleaseContext(m_context);
}
m_context = other.m_context;
if(m_context){
clRetainContext(m_context);
}
}
return *this;
}
#ifndef BOOST_COMPUTE_NO_RVALUE_REFERENCES
/// Move-constructs a new context object from \p other.
context(context&& other) BOOST_NOEXCEPT
: m_context(other.m_context)
{
other.m_context = 0;
}
/// Move-assigns the context from \p other to \c *this.
context& operator=(context&& other) BOOST_NOEXCEPT
{
if(m_context){
clReleaseContext(m_context);
}
m_context = other.m_context;
other.m_context = 0;
return *this;
}
#endif // BOOST_COMPUTE_NO_RVALUE_REFERENCES
/// Destroys the context object.
~context()
{
if(m_context){
BOOST_COMPUTE_ASSERT_CL_SUCCESS(
clReleaseContext(m_context)
);
}
}
/// Returns the underlying OpenCL context.
cl_context& get() const
{
return const_cast<cl_context &>(m_context);
}
/// Returns the device for the context. If the context contains multiple
/// devices, the first is returned.
device get_device() const
{
std::vector<device> devices = get_devices();
if(devices.empty()) {
return device();
}
return devices.front();
}
/// Returns a vector of devices for the context.
std::vector<device> get_devices() const
{
return get_info<std::vector<device> >(CL_CONTEXT_DEVICES);
}
/// Returns information about the context.
///
/// \see_opencl_ref{clGetContextInfo}
template<class T>
T get_info(cl_context_info info) const
{
return detail::get_object_info<T>(clGetContextInfo, m_context, info);
}
/// \overload
template<int Enum>
typename detail::get_object_info_type<context, Enum>::type
get_info() const;
/// Returns \c true if the context is the same as \p other.
bool operator==(const context &other) const
{
return m_context == other.m_context;
}
/// Returns \c true if the context is different from \p other.
bool operator!=(const context &other) const
{
return m_context != other.m_context;
}
/// \internal_
operator cl_context() const
{
return m_context;
}
private:
cl_context m_context;
};
/// \internal_ define get_info() specializations for context
BOOST_COMPUTE_DETAIL_DEFINE_GET_INFO_SPECIALIZATIONS(context,
((cl_uint, CL_CONTEXT_REFERENCE_COUNT))
((std::vector<cl_device_id>, CL_CONTEXT_DEVICES))
((std::vector<cl_context_properties>, CL_CONTEXT_PROPERTIES))
)
#ifdef CL_VERSION_1_1
BOOST_COMPUTE_DETAIL_DEFINE_GET_INFO_SPECIALIZATIONS(context,
((cl_uint, CL_CONTEXT_NUM_DEVICES))
)
#endif // CL_VERSION_1_1
} // end compute namespace
} // end boost namespace
#endif // BOOST_COMPUTE_CONTEXT_HPP
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