/usr/include/viennacl/backend/util.hpp is in libviennacl-dev 1.7.1+dfsg1-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#define VIENNACL_BACKEND_UTIL_HPP
/* =========================================================================
Copyright (c) 2010-2016, Institute for Microelectronics,
Institute for Analysis and Scientific Computing,
TU Wien.
Portions of this software are copyright by UChicago Argonne, LLC.
-----------------
ViennaCL - The Vienna Computing Library
-----------------
Project Head: Karl Rupp rupp@iue.tuwien.ac.at
(A list of authors and contributors can be found in the manual)
License: MIT (X11), see file LICENSE in the base directory
============================================================================= */
/** @file viennacl/backend/util.hpp
@brief Helper functionality for working with different memory domains
*/
#include <vector>
#include <cassert>
#include "viennacl/forwards.h"
#include "viennacl/backend/mem_handle.hpp"
#ifdef VIENNACL_WITH_OPENCL
#include "viennacl/backend/opencl.hpp"
#endif
namespace viennacl
{
namespace backend
{
namespace detail
{
/** @brief Helper struct for converting a type to its OpenCL pendant. */
template<typename T>
struct convert_to_opencl
{
typedef T type;
enum { special = 0 };
};
#ifdef VIENNACL_WITH_OPENCL
template<>
struct convert_to_opencl<unsigned int>
{
typedef cl_uint type;
//enum { special = (sizeof(unsigned int) != sizeof(cl_uint)) };
enum { special = 1 };
};
template<>
struct convert_to_opencl<int>
{
typedef cl_int type;
//enum { special = (sizeof(int) != sizeof(cl_int)) };
enum { special = 1 };
};
template<>
struct convert_to_opencl<unsigned long>
{
typedef cl_ulong type;
//enum { special = (sizeof(unsigned long) != sizeof(cl_ulong)) };
enum { special = 1 };
};
template<>
struct convert_to_opencl<long>
{
typedef cl_long type;
//enum { special = (sizeof(long) != sizeof(cl_long)) };
enum { special = 1 };
};
#endif
} //namespace detail
/** @brief Helper class implementing an array on the host. Default case: No conversion necessary */
template<typename T, bool special = detail::convert_to_opencl<T>::special>
class typesafe_host_array
{
typedef T cpu_type;
typedef typename detail::convert_to_opencl<T>::type target_type;
public:
explicit typesafe_host_array() : bytes_buffer_(NULL), buffer_size_(0) {}
explicit typesafe_host_array(mem_handle const & handle, vcl_size_t num = 0) : bytes_buffer_(NULL), buffer_size_(sizeof(cpu_type) * num)
{
resize(handle, num);
}
~typesafe_host_array() { delete[] bytes_buffer_; }
//
// Setter and Getter
//
void * get() { return reinterpret_cast<void *>(bytes_buffer_); }
vcl_size_t raw_size() const { return buffer_size_; }
vcl_size_t element_size() const { return sizeof(cpu_type); }
vcl_size_t size() const { return buffer_size_ / element_size(); }
template<typename U>
void set(vcl_size_t index, U value)
{
reinterpret_cast<cpu_type *>(bytes_buffer_)[index] = static_cast<cpu_type>(value);
}
//
// Resize functionality
//
/** @brief Resize without initializing the new memory */
void raw_resize(mem_handle const & /*handle*/, vcl_size_t num)
{
buffer_size_ = sizeof(cpu_type) * num;
if (num > 0)
{
delete[] bytes_buffer_;
bytes_buffer_ = new char[buffer_size_];
}
}
/** @brief Resize including initialization of new memory (cf. std::vector<>) */
void resize(mem_handle const & handle, vcl_size_t num)
{
raw_resize(handle, num);
if (num > 0)
{
for (vcl_size_t i=0; i<buffer_size_; ++i)
bytes_buffer_[i] = 0;
}
}
cpu_type operator[](vcl_size_t index) const
{
assert(index < size() && bool("index out of bounds"));
return reinterpret_cast<cpu_type *>(bytes_buffer_)[index];
}
private:
char * bytes_buffer_;
vcl_size_t buffer_size_;
};
/** @brief Special host array type for conversion between OpenCL types and pure CPU types */
template<typename T>
class typesafe_host_array<T, true>
{
typedef T cpu_type;
typedef typename detail::convert_to_opencl<T>::type target_type;
public:
explicit typesafe_host_array() : convert_to_opencl_( (default_memory_type() == OPENCL_MEMORY) ? true : false), bytes_buffer_(NULL), buffer_size_(0) {}
explicit typesafe_host_array(mem_handle const & handle, vcl_size_t num = 0) : convert_to_opencl_(false), bytes_buffer_(NULL), buffer_size_(sizeof(cpu_type) * num)
{
resize(handle, num);
}
~typesafe_host_array() { delete[] bytes_buffer_; }
//
// Setter and Getter
//
template<typename U>
void set(vcl_size_t index, U value)
{
#ifdef VIENNACL_WITH_OPENCL
if (convert_to_opencl_)
reinterpret_cast<target_type *>(bytes_buffer_)[index] = static_cast<target_type>(value);
else
#endif
reinterpret_cast<cpu_type *>(bytes_buffer_)[index] = static_cast<cpu_type>(value);
}
void * get() { return reinterpret_cast<void *>(bytes_buffer_); }
cpu_type operator[](vcl_size_t index) const
{
assert(index < size() && bool("index out of bounds"));
#ifdef VIENNACL_WITH_OPENCL
if (convert_to_opencl_)
return static_cast<cpu_type>(reinterpret_cast<target_type *>(bytes_buffer_)[index]);
#endif
return reinterpret_cast<cpu_type *>(bytes_buffer_)[index];
}
vcl_size_t raw_size() const { return buffer_size_; }
vcl_size_t element_size() const
{
#ifdef VIENNACL_WITH_OPENCL
if (convert_to_opencl_)
return sizeof(target_type);
#endif
return sizeof(cpu_type);
}
vcl_size_t size() const { return buffer_size_ / element_size(); }
//
// Resize functionality
//
/** @brief Resize without initializing the new memory */
void raw_resize(mem_handle const & handle, vcl_size_t num)
{
buffer_size_ = sizeof(cpu_type) * num;
(void)handle; //silence unused variable warning if compiled without OpenCL support
#ifdef VIENNACL_WITH_OPENCL
memory_types mem_type = handle.get_active_handle_id();
if (mem_type == MEMORY_NOT_INITIALIZED)
mem_type = default_memory_type();
if (mem_type == OPENCL_MEMORY)
{
convert_to_opencl_ = true;
buffer_size_ = sizeof(target_type) * num;
}
#endif
if (num > 0)
{
delete[] bytes_buffer_;
bytes_buffer_ = new char[buffer_size_];
}
}
/** @brief Resize including initialization of new memory (cf. std::vector<>) */
void resize(mem_handle const & handle, vcl_size_t num)
{
raw_resize(handle, num);
if (num > 0)
{
for (vcl_size_t i=0; i<buffer_size_; ++i)
bytes_buffer_[i] = 0;
}
}
private:
bool convert_to_opencl_;
char * bytes_buffer_;
vcl_size_t buffer_size_;
};
} //backend
} //viennacl
#endif
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