/usr/include/trilinos/Teuchos_SerializationTraits.hpp is in libtrilinos-teuchos-dev 12.10.1-3.
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// ***********************************************************************
//
// Teuchos: Common Tools Package
// Copyright (2004) Sandia Corporation
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// 2. Redistributions in binary form must reproduce the above copyright
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// 3. Neither the name of the Corporation nor the names of the
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
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// @HEADER
/// \file Teuchos_SerializationTraits.hpp
/// \brief Teuchos::SerializationTraits and Teuchos::DirectSerializationTraits definitions.
///
#ifndef TEUCHOS_SERIALIZATION_TRAITS_HPP
#define TEUCHOS_SERIALIZATION_TRAITS_HPP
#include "Teuchos_ConfigDefs.hpp"
#include "Teuchos_TestForException.hpp"
#include <climits> // SIZE_MAX, ULONG_MAX, etc.
#ifdef HAVE_TEUCHOSCORE_QUADMATH
#include <quadmath.h>
#endif // HAVE_TEUCHOSCORE_QUADMATH
#ifdef HAVE_TEUCHOS_QD
#include <qd/dd_real.h>
#include <qd/qd_real.h>
#endif
namespace Teuchos {
/// \class UndefinedSerializationTraits
/// \brief Report an error if a specialization of \c SerializationTraits is missing.
///
/// This class reports a compile-time error if you attempt to
/// instantiate it. We use this class to make it easy to detect a
/// missing specialization of \c SerializationTraits.
template<typename T>
struct UndefinedSerializationTraits {
//! This function should not compile if there is an attempt to instantiate!
static inline T notDefined() {return(T::this_type_is_missing_a_specialization());}
};
/** \class SerializationTraits
* \brief Serialization traits class for types T that use value semantics.
*
* This traits class describes how to convert between arrays of T, and
* arrays of char. We call the process of converting from T to char
* "serialization," and from char to T "deserialization." Teuchos
* uses serialization and deserialization mainly for implementing
* distributed-memory message-passing communication in a generic way.
*
* \tparam Ordinal The same template parameter as that of \c Comm.
* The integer type used to count the number of packets sent and
* received.
*
* \tparam T The type of the objects that this class shows how to
* serialize.
*
* Teuchos defines specializations of this class for many commonly
* used types in distributed-memory communication, such as char, int
* (signed and unsigned), float, double, and std::pair<P1, P2> for
* certain types P1 and P2. Depending on your Trilinos build options,
* other specializations may be defined as well, for example for long
* long int, double-double and quad-double real types (dd_real
* resp. qd_real), or certain std::complex<T> specializations. If a
* specialization of this class does not exist for your type T, you
* may define your own specialization.
*
* \note Before defining specializations of this class, make sure that
* they do not duplicate specializations already present in
* PyTrilinos (see packages/PyTrilinos/src/Teuchos_Traits.i)
*
* There are two different serialization modes: direct and indirect.
* "Direct" serialization means that you can convert directly between
* an object of type T and an array of char, of a specific length
* dependent only on the type T and not on the particular instance.
* Specifically, it means you can
*
* 1. reinterpret_cast a pointer to an instance of T into an array of
* char (which array has length dependent only on the type T and
* not on the specific T instance),
* 2. serialize the resulting array of char, and finally
* 3. deserialize by reading in the array of char and doing a
* reinterpret_cast back into a T.
*
* "Indirect" serialization is defined as any serialization method
* more general than that. The \c supportsDirectSerialization class
* Boolean tells you whether this specialization supports direct
* serialization.
*
* SerializationTraits is used by classes such as \c
* ValueTypeSerializationBuffer, \c ConstValueTypeSerializationBuffer,
* \c ValueTypeDeserializationBuffer, and \c
* ConstValueTypeDeserializationBuffer.
*/
template <typename Ordinal, typename T>
class SerializationTraits {
public:
//! @name Serialization type selection
//@{
/// \brief Whether the type T supports direct serialization.
///
/// See the class documentation for definitions of "direct" and
/// "indirect" serialization.
static const bool supportsDirectSerialization = false;
//@}
//! @name Direct serialization functions (not defined if supportsDirectSerialization==false)
//@{
/** \brief Return the number of bytes for <tt>count</tt> objects. */
static Ordinal fromCountToDirectBytes(const Ordinal count) {
(void)count;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
/** \brief Convert the pointer type to <tt>char*</tt>. */
static char* convertToCharPtr( T* ptr ) {
(void)ptr;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
/** \brief Convert the pointer type to <tt>const char*</tt>. */
static const char* convertToCharPtr( const T* ptr ) {
(void)ptr;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
/** \brief Return the number of objects for <tt>bytes</tt> of storage. */
static Ordinal fromDirectBytesToCount(const Ordinal bytes) {
(void)bytes;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
/** \brief Convert the pointer type from <tt>char*</tt>. */
static T* convertFromCharPtr( char* ptr ) {
(void)ptr;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
/** \brief Convert the pointer type from <tt>char*</tt>. */
static const T* convertFromCharPtr( const char* ptr ) {
(void)ptr;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
//@}
//! @name Indirect serialization functions (always defined and supported)
//@{
/** \brief Return the number of bytes for <tt>count</tt> objects. */
static Ordinal fromCountToIndirectBytes(const Ordinal count,
const T buffer[]) {
(void)count; (void)buffer;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
/** \brief Serialize to an indirect <tt>char[]</tt> buffer.
*
* \param count
* [in] The number of objects to serialize.
* \param buffer
* [in] The objects to serialize.
* \param bytes
* [in] Number of bytes in <tt>charBuffer[]</tt>
* \param charBuffer
* [out] Array (length <tt>bytes</tt>) containing the serialized objects.
*
* <b>Preconditions:</b><ul>
* <li><tt>bytes==fromCountToIndirectBytes(count)</tt>
* </ul>
*/
static void serialize (const Ordinal count,
const T buffer[],
const Ordinal bytes,
char charBuffer[])
{
(void)count; (void)buffer; (void)bytes; (void)charBuffer;
UndefinedSerializationTraits<T>::notDefined();
}
/** \brief Return the number of objects for <tt>bytes</tt> of storage. */
static Ordinal fromIndirectBytesToCount(const Ordinal bytes,
const char charBuffer[]) {
(void)bytes; (void)charBuffer;
UndefinedSerializationTraits<T>::notDefined();
return 0;
}
/** \brief Deserialize from an indirect <tt>char[]</tt> buffer.
*
* \param bytes
* [in] Number of bytes in <tt>charBuffer[]</tt>
* \param charBuffer
* [in] Array (length <tt>bytes</tt>) containing the serialized objects.
* \param count
* [in] The number of objects to deserialize.
* \param buffer
* [out] The deserialized objects.
* <b>Preconditions:</b><ul>
* <li><tt>count==fromIndirectBytesToCount(bytes)</tt>
* </ul>
*/
static void deserialize (const Ordinal bytes,
const char charBuffer[],
const Ordinal count,
T buffer[])
{
(void)bytes; (void)charBuffer; (void)count; (void)buffer;
UndefinedSerializationTraits<T>::notDefined();
}
//@}
};
/** \class ValueTypeSerializer
* \brief Serialization class for types T that use value semantics.
*
* This works similarly to SerializationTraits, except that it provides
* a class that can be specialized for types T to implement serialization
* through an object instead of a traits class. Some types need other data
* to help them serialize, and that data can be encapsulated into a non-static
* specialization of this class.
*
* The default implementation is just given by the SerializationTraits for the
* type T, and thus this class will be defined for any type that defines its
* SerializationTraits.
*/
template <typename Ordinal, typename T>
class ValueTypeSerializer : public Teuchos::SerializationTraits<Ordinal,T> {};
/// \class DirectSerializationTraits
/// \brief Serialization traits for objects that support direct serialization.
///
/// "Direct" serialization means that you can convert directly
/// between an object of type T and an array of char, of a specific
/// length dependent only on the type T and not on the particular
/// instance. Specifically, it means you can
///
/// 1. reinterpret_cast a pointer to an instance of T into an
/// array of char (which array has length dependent only on
/// the type T and not on the specific T instance),
/// 2. serialize the resulting array of char, and finally
/// 3. deserialize by reading in the array of char and doing a
/// reinterpret_cast back into a T.
///
/// "Indirect" serialization is defined as any serialization method
/// more general than that.
///
/// We use partial specializations of DirectSerializationTraits
/// (specialized on certain T types, not Ordinal) as public base
/// classes for the corresponding SerializationTraits specialization.
/// This provides high-performance default implementations of
/// serialization for commonly used types T (including char, int, and
/// double).
///
/// \tparam Ordinal The same template parameter as that of \c Comm.
/// The integer type used to count the number of packets sent and
/// received.
///
/// \tparam T The type of the objects that this class shows how to
/// serialize.
///
template <typename Ordinal, typename T>
class DirectSerializationTraits {
public:
static const bool supportsDirectSerialization = true;
// Direct serialization
static Ordinal fromCountToDirectBytes(const Ordinal count)
{ return sizeof(T)*count; }
static char* convertToCharPtr( T* ptr )
{ return reinterpret_cast<char*>(ptr); }
static const char* convertToCharPtr( const T* ptr )
{ return reinterpret_cast<const char*>(ptr); }
static Ordinal fromDirectBytesToCount(const Ordinal count)
{ return count/sizeof(T); }
static T* convertFromCharPtr( char* ptr )
{ return reinterpret_cast<T*>(ptr); }
static const T* convertFromCharPtr( const char* ptr )
{ return reinterpret_cast<const T*>(ptr); }
// Indirect serialization
static Ordinal fromCountToIndirectBytes(const Ordinal count, const T buffer[])
{ return fromCountToDirectBytes(count); }
static void serialize(
const Ordinal count, const T buffer[], const Ordinal bytes, char charBuffer[]
)
{
#ifdef TEUCHOS_DEBUG
TEUCHOS_TEST_FOR_EXCEPT(bytes!=fromCountToDirectBytes(count));
#endif
const char *_buffer = convertToCharPtr(buffer);
std::copy(_buffer,_buffer+bytes,charBuffer);
}
static Ordinal fromIndirectBytesToCount(const Ordinal bytes,
const char charBuffer[])
{ return fromDirectBytesToCount(bytes); }
static void deserialize(
const Ordinal bytes, const char charBuffer[], const Ordinal count, T buffer[]
)
{
#ifdef TEUCHOS_DEBUG
TEUCHOS_TEST_FOR_EXCEPT(count!=fromDirectBytesToCount(bytes));
#endif
char *_buffer = convertToCharPtr(buffer);
std::copy(charBuffer,charBuffer+bytes,_buffer);
}
};
// Whether 'char' is signed or unsigned depends on the implementation.
// However, on some systems (e.g., Clang 3.1 on Intel Mac), partially
// specializing for signed char and unsigned char, but not for char,
// does not work. Thus, we include specializations for all three
// possibilities.
template<typename Ordinal>
class SerializationTraits<Ordinal,char>
: public DirectSerializationTraits<Ordinal,char>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,signed char>
: public DirectSerializationTraits<Ordinal,signed char>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,unsigned char>
: public DirectSerializationTraits<Ordinal,unsigned char>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,short int>
: public DirectSerializationTraits<Ordinal,short int>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,unsigned short int>
: public DirectSerializationTraits<Ordinal,unsigned short int>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,int>
: public DirectSerializationTraits<Ordinal,int>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,unsigned int>
: public DirectSerializationTraits<Ordinal,unsigned int>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,long int>
: public DirectSerializationTraits<Ordinal,long int>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,unsigned long int>
: public DirectSerializationTraits<Ordinal,long unsigned int>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,float>
: public DirectSerializationTraits<Ordinal,float>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,double>
: public DirectSerializationTraits<Ordinal,double>
{};
// FIXME: How do we know that P1 and P2 are directly serializable?
template<typename Ordinal, typename P1, typename P2>
class SerializationTraits<Ordinal,std::pair<P1,P2> >
: public DirectSerializationTraits<Ordinal,std::pair<P1,P2> >
{};
#ifdef HAVE_TEUCHOSCORE_QUADMATH
template<typename Ordinal>
class SerializationTraits<Ordinal,__float128>
: public DirectSerializationTraits<Ordinal,__float128>
{};
#endif // HAVE_TEUCHOSCORE_QUADMATH
#ifdef HAVE_TEUCHOS_QD
template<typename Ordinal>
class SerializationTraits<Ordinal,dd_real>
: public DirectSerializationTraits<Ordinal,dd_real>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,qd_real>
: public DirectSerializationTraits<Ordinal,qd_real>
{};
#endif
#ifdef HAVE_TEUCHOS_COMPLEX
template<typename Ordinal>
class SerializationTraits<Ordinal,std::complex<float> >
: public DirectSerializationTraits<Ordinal,std::complex<float> >
{};
template<typename Ordinal>
class SerializationTraits<Ordinal,std::complex<double> >
: public DirectSerializationTraits<Ordinal,std::complex<double> >
{};
#endif // HAVE_TEUCHOS_COMPLEX
#if defined(HAVE_TEUCHOS_LONG_LONG_INT)
// Partial specialization for long long.
// On platforms with sizeof(ptrdiff_t) <= sizeof(long long),
// this should take care of the ptrdiff_t specialization as well,
// since we've covered all built-in signed integer types above
// with size <= sizeof(long long).
template<typename Ordinal>
class SerializationTraits<Ordinal, long long int>
: public DirectSerializationTraits<Ordinal, long long int>
{};
// Partial specialization for unsigned long long.
// On platforms with sizeof(size_t) <= sizeof(unsigned long long),
// this should take care of the size_t specialization as well,
// since we've covered all built-in unsigned integer types above
// with size <= sizeof(unsigned long long).
template<typename Ordinal>
class SerializationTraits<Ordinal, unsigned long long int>
: public DirectSerializationTraits<Ordinal, unsigned long long int>
{};
// The C preprocessor does not allow "sizeof(T)" expressions in #if
// statements, even if T is a built-in type. Otherwise, we could test
// for 'sizeof(size_t) > sizeof(unsigned long int)'. The constants
// below are defined in the <cstdint> header file.
#elif SIZE_MAX > ULONG_MAX
// We already have an unsigned long int specialization above. If
// Teuchos support for "long long" is enabled, then we've taken care
// of all possible lengths of size_t: unsigned (char, short, int,
// long, long long). If "long long" is _not_ enabled, we need to
// check if sizeof(size_t) > sizeof(unsigned long). If so, then we
// need a specialization for size_t. Ditto for ptrdiff_t (which is a
// signed type of the same length as size_t).
template<typename Ordinal>
class SerializationTraits<Ordinal, size_t>
: public DirectSerializationTraits<Ordinal, size_t>
{};
template<typename Ordinal>
class SerializationTraits<Ordinal, ptrdiff_t>
: public DirectSerializationTraits<Ordinal, ptrdiff_t>
{};
#endif // HAVE_TEUCHOS_LONG_LONG_INT
} // namespace Teuchos
#endif // TEUCHOS_SERIALIZATION_TRAITS_HPP
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