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vn-verdnaturachat/ios/Pods/boost-for-react-native/boost/compute/memory_object.hpp

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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_MEMORY_OBJECT_HPP
#define BOOST_COMPUTE_MEMORY_OBJECT_HPP
#include <boost/compute/config.hpp>
#include <boost/compute/context.hpp>
#include <boost/compute/kernel.hpp>
#include <boost/compute/detail/get_object_info.hpp>
#include <boost/compute/detail/assert_cl_success.hpp>
namespace boost {
namespace compute {
/// \class memory_object
/// \brief Base-class for memory objects.
///
/// The memory_object class is the base-class for memory objects on
/// compute devices.
///
/// \see buffer, vector
class memory_object
{
public:
/// Flags for the creation of memory objects.
enum mem_flags {
read_write = CL_MEM_READ_WRITE,
read_only = CL_MEM_READ_ONLY,
write_only = CL_MEM_WRITE_ONLY,
use_host_ptr = CL_MEM_USE_HOST_PTR,
alloc_host_ptr = CL_MEM_ALLOC_HOST_PTR,
copy_host_ptr = CL_MEM_COPY_HOST_PTR
#ifdef CL_VERSION_1_2
,
host_write_only = CL_MEM_HOST_WRITE_ONLY,
host_read_only = CL_MEM_HOST_READ_ONLY,
host_no_access = CL_MEM_HOST_NO_ACCESS
#endif
};
/// Symbolic names for the OpenCL address spaces.
enum address_space {
global_memory,
local_memory,
private_memory,
constant_memory
};
/// Returns the underlying OpenCL memory object.
cl_mem& get() const
{
return const_cast<cl_mem &>(m_mem);
}
/// Returns the size of the memory object in bytes.
size_t get_memory_size() const
{
return get_memory_info<size_t>(CL_MEM_SIZE);
}
/// Returns the type for the memory object.
cl_mem_object_type get_memory_type() const
{
return get_memory_info<cl_mem_object_type>(CL_MEM_TYPE);
}
/// Returns the flags for the memory object.
cl_mem_flags get_memory_flags() const
{
return get_memory_info<cl_mem_flags>(CL_MEM_FLAGS);
}
/// Returns the context for the memory object.
context get_context() const
{
return context(get_memory_info<cl_context>(CL_MEM_CONTEXT));
}
/// Returns the host pointer associated with the memory object.
void* get_host_ptr() const
{
return get_memory_info<void *>(CL_MEM_HOST_PTR);
}
/// Returns the reference count for the memory object.
uint_ reference_count() const
{
return get_memory_info<uint_>(CL_MEM_REFERENCE_COUNT);
}
/// Returns information about the memory object.
///
/// \see_opencl_ref{clGetMemObjectInfo}
template<class T>
T get_memory_info(cl_mem_info info) const
{
return detail::get_object_info<T>(clGetMemObjectInfo, m_mem, info);
}
#if defined(CL_VERSION_1_1) || defined(BOOST_COMPUTE_DOXYGEN_INVOKED)
/// Registers a function to be called when the memory object is deleted
/// and its resources freed.
///
/// \see_opencl_ref{clSetMemObjectDestructorCallback}
///
/// \opencl_version_warning{1,1}
void set_destructor_callback(void (BOOST_COMPUTE_CL_CALLBACK *callback)(
cl_mem memobj, void *user_data
),
void *user_data = 0)
{
cl_int ret = clSetMemObjectDestructorCallback(m_mem, callback, user_data);
if(ret != CL_SUCCESS){
BOOST_THROW_EXCEPTION(opencl_error(ret));
}
}
/// Registers a function to be called when the memory object is deleted
/// and its resources freed.
///
/// The function specified by \p callback must be invokable with zero
/// arguments (e.g. \c callback()).
///
/// \opencl_version_warning{1,1}
template<class Function>
void set_destructor_callback(Function callback)
{
set_destructor_callback(
destructor_callback_invoker,
new boost::function<void()>(callback)
);
}
#endif // CL_VERSION_1_1
/// Returns \c true if the memory object is the same as \p other.
bool operator==(const memory_object &other) const
{
return m_mem == other.m_mem;
}
/// Returns \c true if the memory object is different from \p other.
bool operator!=(const memory_object &other) const
{
return m_mem != other.m_mem;
}
private:
#ifdef CL_VERSION_1_1
/// \internal_
static void BOOST_COMPUTE_CL_CALLBACK
destructor_callback_invoker(cl_mem, void *user_data)
{
boost::function<void()> *callback =
static_cast<boost::function<void()> *>(user_data);
(*callback)();
delete callback;
}
#endif // CL_VERSION_1_1
protected:
/// \internal_
memory_object()
: m_mem(0)
{
}
/// \internal_
explicit memory_object(cl_mem mem, bool retain = true)
: m_mem(mem)
{
if(m_mem && retain){
clRetainMemObject(m_mem);
}
}
/// \internal_
memory_object(const memory_object &other)
: m_mem(other.m_mem)
{
if(m_mem){
clRetainMemObject(m_mem);
}
}
/// \internal_
memory_object& operator=(const memory_object &other)
{
if(this != &other){
if(m_mem){
clReleaseMemObject(m_mem);
}
m_mem = other.m_mem;
if(m_mem){
clRetainMemObject(m_mem);
}
}
return *this;
}
#ifndef BOOST_COMPUTE_NO_RVALUE_REFERENCES
/// \internal_
memory_object(memory_object&& other) BOOST_NOEXCEPT
: m_mem(other.m_mem)
{
other.m_mem = 0;
}
/// \internal_
memory_object& operator=(memory_object&& other) BOOST_NOEXCEPT
{
if(m_mem){
clReleaseMemObject(m_mem);
}
m_mem = other.m_mem;
other.m_mem = 0;
return *this;
}
#endif // BOOST_COMPUTE_NO_RVALUE_REFERENCES
/// \internal_
~memory_object()
{
if(m_mem){
BOOST_COMPUTE_ASSERT_CL_SUCCESS(
clReleaseMemObject(m_mem)
);
}
}
protected:
cl_mem m_mem;
};
namespace detail {
// set_kernel_arg specialization for memory_object
template<>
struct set_kernel_arg<memory_object>
{
void operator()(kernel &kernel_, size_t index, const memory_object &mem)
{
kernel_.set_arg(index, mem.get());
}
};
} // end detail namespace
} // end compute namespace
} // end boost namespace
#endif // BOOST_COMPUTE_MEMORY_OBJECT_HPP
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