/usr/include/trilinos/Kokkos_DualView.hpp is in libtrilinos-kokkos-dev 12.12.1-5.
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// Kokkos v. 2.0
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/// \file Kokkos_DualView.hpp
/// \brief Declaration and definition of Kokkos::DualView.
///
/// This header file declares and defines Kokkos::DualView and its
/// related nonmember functions.
#ifndef KOKKOS_DUALVIEW_HPP
#define KOKKOS_DUALVIEW_HPP
#include <Kokkos_Core.hpp>
#include <impl/Kokkos_Error.hpp>
namespace Kokkos {
/* \class DualView
* \brief Container to manage mirroring a Kokkos::View that lives
* in device memory with a Kokkos::View that lives in host memory.
*
* This class provides capabilities to manage data which exists in two
* memory spaces at the same time. It keeps views of the same layout
* on two memory spaces as well as modified flags for both
* allocations. Users are responsible for setting the modified flags
* manually if they change the data in either memory space, by calling
* the sync() method templated on the device where they modified the
* data. Users may synchronize data by calling the modify() function,
* templated on the device towards which they want to synchronize
* (i.e., the target of the one-way copy operation).
*
* The DualView class also provides convenience methods such as
* realloc, resize and capacity which call the appropriate methods of
* the underlying Kokkos::View objects.
*
* The four template arguments are the same as those of Kokkos::View.
* (Please refer to that class' documentation for a detailed
* description.)
*
* \tparam DataType The type of the entries stored in the container.
*
* \tparam Layout The array's layout in memory.
*
* \tparam Device The Kokkos Device type. If its memory space is
* not the same as the host's memory space, then DualView will
* contain two separate Views: one in device memory, and one in
* host memory. Otherwise, DualView will only store one View.
*
* \tparam MemoryTraits (optional) The user's intended memory access
* behavior. Please see the documentation of Kokkos::View for
* examples. The default suffices for most users.
*/
template< class DataType ,
class Arg1Type = void ,
class Arg2Type = void ,
class Arg3Type = void>
class DualView : public ViewTraits< DataType , Arg1Type , Arg2Type, Arg3Type >
{
public:
//! \name Typedefs for device types and various Kokkos::View specializations.
//@{
typedef ViewTraits< DataType , Arg1Type , Arg2Type, Arg3Type > traits ;
//! The Kokkos Host Device type;
typedef typename traits::host_mirror_space host_mirror_space ;
//! The type of a Kokkos::View on the device.
typedef View< typename traits::data_type ,
Arg1Type ,
Arg2Type ,
Arg3Type > t_dev ;
/// \typedef t_host
/// \brief The type of a Kokkos::View host mirror of \c t_dev.
typedef typename t_dev::HostMirror t_host ;
//! The type of a const View on the device.
//! The type of a Kokkos::View on the device.
typedef View< typename traits::const_data_type ,
Arg1Type ,
Arg2Type ,
Arg3Type > t_dev_const ;
/// \typedef t_host_const
/// \brief The type of a const View host mirror of \c t_dev_const.
typedef typename t_dev_const::HostMirror t_host_const;
//! The type of a const, random-access View on the device.
typedef View< typename traits::const_data_type ,
typename traits::array_layout ,
typename traits::device_type ,
Kokkos::MemoryTraits<Kokkos::RandomAccess> > t_dev_const_randomread ;
/// \typedef t_host_const_randomread
/// \brief The type of a const, random-access View host mirror of
/// \c t_dev_const_randomread.
typedef typename t_dev_const_randomread::HostMirror t_host_const_randomread;
//! The type of an unmanaged View on the device.
typedef View< typename traits::data_type ,
typename traits::array_layout ,
typename traits::device_type ,
MemoryUnmanaged> t_dev_um;
//! The type of an unmanaged View host mirror of \c t_dev_um.
typedef View< typename t_host::data_type ,
typename t_host::array_layout ,
typename t_host::device_type ,
MemoryUnmanaged> t_host_um;
//! The type of a const unmanaged View on the device.
typedef View< typename traits::const_data_type ,
typename traits::array_layout ,
typename traits::device_type ,
MemoryUnmanaged> t_dev_const_um;
//! The type of a const unmanaged View host mirror of \c t_dev_const_um.
typedef View<typename t_host::const_data_type,
typename t_host::array_layout,
typename t_host::device_type,
MemoryUnmanaged> t_host_const_um;
//! The type of a const, random-access View on the device.
typedef View< typename t_host::const_data_type ,
typename t_host::array_layout ,
typename t_host::device_type ,
Kokkos::MemoryTraits<Kokkos::Unmanaged|Kokkos::RandomAccess> > t_dev_const_randomread_um ;
/// \typedef t_host_const_randomread
/// \brief The type of a const, random-access View host mirror of
/// \c t_dev_const_randomread.
typedef typename t_dev_const_randomread::HostMirror t_host_const_randomread_um;
//@}
//! \name The two View instances.
//@{
t_dev d_view;
t_host h_view;
//@}
//! \name Counters to keep track of changes ("modified" flags)
//@{
View<unsigned int,LayoutLeft,typename t_host::execution_space> modified_device;
View<unsigned int,LayoutLeft,typename t_host::execution_space> modified_host;
//@}
//! \name Constructors
//@{
/// \brief Empty constructor.
///
/// Both device and host View objects are constructed using their
/// default constructors. The "modified" flags are both initialized
/// to "unmodified."
DualView () :
modified_device (View<unsigned int,LayoutLeft,typename t_host::execution_space> ("DualView::modified_device")),
modified_host (View<unsigned int,LayoutLeft,typename t_host::execution_space> ("DualView::modified_host"))
{}
/// \brief Constructor that allocates View objects on both host and device.
///
/// This constructor works like the analogous constructor of View.
/// The first argument is a string label, which is entirely for your
/// benefit. (Different DualView objects may have the same label if
/// you like.) The arguments that follow are the dimensions of the
/// View objects. For example, if the View has three dimensions,
/// the first three integer arguments will be nonzero, and you may
/// omit the integer arguments that follow.
DualView (const std::string& label,
const size_t n0 = 0,
const size_t n1 = 0,
const size_t n2 = 0,
const size_t n3 = 0,
const size_t n4 = 0,
const size_t n5 = 0,
const size_t n6 = 0,
const size_t n7 = 0)
: d_view (label, n0, n1, n2, n3, n4, n5, n6, n7)
, h_view (create_mirror_view (d_view)) // without UVM, host View mirrors
, modified_device (View<unsigned int,LayoutLeft,typename t_host::execution_space> ("DualView::modified_device"))
, modified_host (View<unsigned int,LayoutLeft,typename t_host::execution_space> ("DualView::modified_host"))
{}
//! Copy constructor (shallow copy)
template<class SS, class LS, class DS, class MS>
DualView (const DualView<SS,LS,DS,MS>& src) :
d_view (src.d_view),
h_view (src.h_view),
modified_device (src.modified_device),
modified_host (src.modified_host)
{}
//! Subview constructor
template< class SD, class S1 , class S2 , class S3
, class Arg0 , class ... Args >
DualView( const DualView<SD,S1,S2,S3> & src
, const Arg0 & arg0
, Args ... args
)
: d_view( Kokkos::subview( src.d_view , arg0 , args ... ) )
, h_view( Kokkos::subview( src.h_view , arg0 , args ... ) )
, modified_device (src.modified_device)
, modified_host (src.modified_host)
{}
/// \brief Create DualView from existing device and host View objects.
///
/// This constructor assumes that the device and host View objects
/// are synchronized. You, the caller, are responsible for making
/// sure this is the case before calling this constructor. After
/// this constructor returns, you may use DualView's sync() and
/// modify() methods to ensure synchronization of the View objects.
///
/// \param d_view_ Device View
/// \param h_view_ Host View (must have type t_host = t_dev::HostMirror)
DualView (const t_dev& d_view_, const t_host& h_view_) :
d_view (d_view_),
h_view (h_view_),
modified_device (View<unsigned int,LayoutLeft,typename t_host::execution_space> ("DualView::modified_device")),
modified_host (View<unsigned int,LayoutLeft,typename t_host::execution_space> ("DualView::modified_host"))
{
if ( int(d_view.rank) != int(h_view.rank) ||
d_view.dimension_0() != h_view.dimension_0() ||
d_view.dimension_1() != h_view.dimension_1() ||
d_view.dimension_2() != h_view.dimension_2() ||
d_view.dimension_3() != h_view.dimension_3() ||
d_view.dimension_4() != h_view.dimension_4() ||
d_view.dimension_5() != h_view.dimension_5() ||
d_view.dimension_6() != h_view.dimension_6() ||
d_view.dimension_7() != h_view.dimension_7() ||
d_view.stride_0() != h_view.stride_0() ||
d_view.stride_1() != h_view.stride_1() ||
d_view.stride_2() != h_view.stride_2() ||
d_view.stride_3() != h_view.stride_3() ||
d_view.stride_4() != h_view.stride_4() ||
d_view.stride_5() != h_view.stride_5() ||
d_view.stride_6() != h_view.stride_6() ||
d_view.stride_7() != h_view.stride_7() ||
d_view.span() != h_view.span() ) {
Kokkos::Impl::throw_runtime_exception("DualView constructed with incompatible views");
}
}
//@}
//! \name Methods for synchronizing, marking as modified, and getting Views.
//@{
/// \brief Return a View on a specific device \c Device.
///
/// Please don't be afraid of the if_c expression in the return
/// value's type. That just tells the method what the return type
/// should be: t_dev if the \c Device template parameter matches
/// this DualView's device type, else t_host.
///
/// For example, suppose you create a DualView on Cuda, like this:
/// \code
/// typedef Kokkos::DualView<float, Kokkos::LayoutRight, Kokkos::Cuda> dual_view_type;
/// dual_view_type DV ("my dual view", 100);
/// \endcode
/// If you want to get the CUDA device View, do this:
/// \code
/// typename dual_view_type::t_dev cudaView = DV.view<Kokkos::Cuda> ();
/// \endcode
/// and if you want to get the host mirror of that View, do this:
/// \code
/// typedef typename Kokkos::HostSpace::execution_space host_device_type;
/// typename dual_view_type::t_host hostView = DV.view<host_device_type> ();
/// \endcode
template< class Device >
KOKKOS_INLINE_FUNCTION
const typename Impl::if_c<
std::is_same<typename t_dev::memory_space,
typename Device::memory_space>::value,
t_dev,
t_host>::type& view () const
{
return Impl::if_c<
std::is_same<
typename t_dev::memory_space,
typename Device::memory_space>::value,
t_dev,
t_host >::select (d_view , h_view);
}
/// \brief Update data on device or host only if data in the other
/// space has been marked as modified.
///
/// If \c Device is the same as this DualView's device type, then
/// copy data from host to device. Otherwise, copy data from device
/// to host. In either case, only copy if the source of the copy
/// has been modified.
///
/// This is a one-way synchronization only. If the target of the
/// copy has been modified, this operation will discard those
/// modifications. It will also reset both device and host modified
/// flags.
///
/// \note This method doesn't know on its own whether you modified
/// the data in either View. You must manually mark modified data
/// as modified, by calling the modify() method with the
/// appropriate template parameter.
template<class Device>
void sync( const typename Impl::enable_if<
( std::is_same< typename traits::data_type , typename traits::non_const_data_type>::value) ||
( std::is_same< Device , int>::value)
, int >::type& = 0)
{
const unsigned int dev =
Impl::if_c<
std::is_same<
typename t_dev::memory_space,
typename Device::memory_space>::value ,
unsigned int,
unsigned int>::select (1, 0);
if (dev) { // if Device is the same as DualView's device type
if ((modified_host () > 0) && (modified_host () >= modified_device ())) {
deep_copy (d_view, h_view);
modified_host() = modified_device() = 0;
}
} else { // hopefully Device is the same as DualView's host type
if ((modified_device () > 0) && (modified_device () >= modified_host ())) {
deep_copy (h_view, d_view);
modified_host() = modified_device() = 0;
}
}
if(std::is_same<typename t_host::memory_space,typename t_dev::memory_space>::value) {
t_dev::execution_space::fence();
t_host::execution_space::fence();
}
}
template<class Device>
void sync ( const typename Impl::enable_if<
( ! std::is_same< typename traits::data_type , typename traits::non_const_data_type>::value ) ||
( std::is_same< Device , int>::value)
, int >::type& = 0 )
{
const unsigned int dev =
Impl::if_c<
std::is_same<
typename t_dev::memory_space,
typename Device::memory_space>::value,
unsigned int,
unsigned int>::select (1, 0);
if (dev) { // if Device is the same as DualView's device type
if ((modified_host () > 0) && (modified_host () >= modified_device ())) {
Impl::throw_runtime_exception("Calling sync on a DualView with a const datatype.");
}
} else { // hopefully Device is the same as DualView's host type
if ((modified_device () > 0) && (modified_device () >= modified_host ())) {
Impl::throw_runtime_exception("Calling sync on a DualView with a const datatype.");
}
}
}
template<class Device>
bool need_sync() const
{
const unsigned int dev =
Impl::if_c<
std::is_same<
typename t_dev::memory_space,
typename Device::memory_space>::value ,
unsigned int,
unsigned int>::select (1, 0);
if (dev) { // if Device is the same as DualView's device type
if ((modified_host () > 0) && (modified_host () >= modified_device ())) {
return true;
}
} else { // hopefully Device is the same as DualView's host type
if ((modified_device () > 0) && (modified_device () >= modified_host ())) {
return true;
}
}
return false;
}
/// \brief Mark data as modified on the given device \c Device.
///
/// If \c Device is the same as this DualView's device type, then
/// mark the device's data as modified. Otherwise, mark the host's
/// data as modified.
template<class Device>
void modify () {
const unsigned int dev =
Impl::if_c<
std::is_same<
typename t_dev::memory_space,
typename Device::memory_space>::value,
unsigned int,
unsigned int>::select (1, 0);
if (dev) { // if Device is the same as DualView's device type
// Increment the device's modified count.
modified_device () = (modified_device () > modified_host () ?
modified_device () : modified_host ()) + 1;
} else { // hopefully Device is the same as DualView's host type
// Increment the host's modified count.
modified_host () = (modified_device () > modified_host () ?
modified_device () : modified_host ()) + 1;
}
#ifdef KOKKOS_ENABLE_DEBUG_DUALVIEW_MODIFY_CHECK
if (modified_host() && modified_device()) {
std::string msg = "Kokkos::DualView::modify ERROR: ";
msg += "Concurrent modification of host and device views ";
msg += "in DualView \"";
msg += d_view.label();
msg += "\"\n";
Kokkos::abort(msg.c_str());
}
#endif
}
//@}
//! \name Methods for reallocating or resizing the View objects.
//@{
/// \brief Reallocate both View objects.
///
/// This discards any existing contents of the objects, and resets
/// their modified flags. It does <i>not</i> copy the old contents
/// of either View into the new View objects.
void realloc( const size_t n0 = 0 ,
const size_t n1 = 0 ,
const size_t n2 = 0 ,
const size_t n3 = 0 ,
const size_t n4 = 0 ,
const size_t n5 = 0 ,
const size_t n6 = 0 ,
const size_t n7 = 0 ) {
::Kokkos::realloc(d_view,n0,n1,n2,n3,n4,n5,n6,n7);
h_view = create_mirror_view( d_view );
/* Reset dirty flags */
modified_device() = modified_host() = 0;
}
/// \brief Resize both views, copying old contents into new if necessary.
///
/// This method only copies the old contents into the new View
/// objects for the device which was last marked as modified.
void resize( const size_t n0 = 0 ,
const size_t n1 = 0 ,
const size_t n2 = 0 ,
const size_t n3 = 0 ,
const size_t n4 = 0 ,
const size_t n5 = 0 ,
const size_t n6 = 0 ,
const size_t n7 = 0 ) {
if(modified_device() >= modified_host()) {
/* Resize on Device */
::Kokkos::resize(d_view,n0,n1,n2,n3,n4,n5,n6,n7);
h_view = create_mirror_view( d_view );
/* Mark Device copy as modified */
modified_device() = modified_device()+1;
} else {
/* Realloc on Device */
::Kokkos::realloc(d_view,n0,n1,n2,n3,n4,n5,n6,n7);
t_host temp_view = create_mirror_view( d_view );
/* Remap on Host */
Kokkos::deep_copy( temp_view , h_view );
h_view = temp_view;
/* Mark Host copy as modified */
modified_host() = modified_host()+1;
}
}
//@}
//! \name Methods for getting capacity, stride, or dimension(s).
//@{
//! The allocation size (same as Kokkos::View::capacity).
size_t capacity() const {
return d_view.span();
}
//! Get stride(s) for each dimension.
template< typename iType>
void stride(iType* stride_) const {
d_view.stride(stride_);
}
/* \brief return size of dimension 0 */
size_t dimension_0() const {return d_view.dimension_0();}
/* \brief return size of dimension 1 */
size_t dimension_1() const {return d_view.dimension_1();}
/* \brief return size of dimension 2 */
size_t dimension_2() const {return d_view.dimension_2();}
/* \brief return size of dimension 3 */
size_t dimension_3() const {return d_view.dimension_3();}
/* \brief return size of dimension 4 */
size_t dimension_4() const {return d_view.dimension_4();}
/* \brief return size of dimension 5 */
size_t dimension_5() const {return d_view.dimension_5();}
/* \brief return size of dimension 6 */
size_t dimension_6() const {return d_view.dimension_6();}
/* \brief return size of dimension 7 */
size_t dimension_7() const {return d_view.dimension_7();}
//@}
};
} // namespace Kokkos
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
//
// Partial specializations of Kokkos::subview() for DualView objects.
//
namespace Kokkos {
namespace Impl {
template< class D, class A1, class A2, class A3, class ... Args >
struct DualViewSubview {
typedef typename Kokkos::Experimental::Impl::ViewMapping
< void
, Kokkos::ViewTraits< D, A1, A2, A3 >
, Args ...
>::traits_type dst_traits ;
typedef Kokkos::DualView
< typename dst_traits::data_type
, typename dst_traits::array_layout
, typename dst_traits::device_type
, typename dst_traits::memory_traits
> type ;
};
} /* namespace Impl */
template< class D , class A1 , class A2 , class A3 , class ... Args >
typename Impl::DualViewSubview<D,A1,A2,A3,Args...>::type
subview( const DualView<D,A1,A2,A3> & src , Args ... args )
{
return typename
Impl::DualViewSubview<D,A1,A2,A3,Args...>::type( src , args ... );
}
} /* namespace Kokkos */
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
namespace Kokkos {
//
// Partial specialization of Kokkos::deep_copy() for DualView objects.
//
template< class DT , class DL , class DD , class DM ,
class ST , class SL , class SD , class SM >
void
deep_copy (DualView<DT,DL,DD,DM> dst, // trust me, this must not be a reference
const DualView<ST,SL,SD,SM>& src )
{
if (src.modified_device () >= src.modified_host ()) {
deep_copy (dst.d_view, src.d_view);
dst.template modify<typename DualView<DT,DL,DD,DM>::device_type> ();
} else {
deep_copy (dst.h_view, src.h_view);
dst.template modify<typename DualView<DT,DL,DD,DM>::host_mirror_space> ();
}
}
template< class ExecutionSpace ,
class DT , class DL , class DD , class DM ,
class ST , class SL , class SD , class SM >
void
deep_copy (const ExecutionSpace& exec ,
DualView<DT,DL,DD,DM> dst, // trust me, this must not be a reference
const DualView<ST,SL,SD,SM>& src )
{
if (src.modified_device () >= src.modified_host ()) {
deep_copy (exec, dst.d_view, src.d_view);
dst.template modify<typename DualView<DT,DL,DD,DM>::device_type> ();
} else {
deep_copy (exec, dst.h_view, src.h_view);
dst.template modify<typename DualView<DT,DL,DD,DM>::host_mirror_space> ();
}
}
} // namespace Kokkos
#endif
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