boost/archive/basic_archive.hpp
#ifndef BOOST_ARCHIVE_BASIC_ARCHIVE_HPP
#define BOOST_ARCHIVE_BASIC_ARCHIVE_HPP
// MS compatible compilers support #pragma once
#if defined(_MSC_VER)
# pragma once
#endif
/////////1/////////2/////////3/////////4/////////5/////////6/////////7/////////8
// basic_archive.hpp:
// (C) Copyright 2002 Robert Ramey - http://www.rrsd.com .
// Use, modification and distribution is subject to 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://www.boost.org for updates, documentation, and revision history.
#include <cstring> // count
#include <boost/assert.hpp>
#include <boost/config.hpp>
#include <boost/cstdint.hpp> // size_t
#include <boost/noncopyable.hpp>
#include <boost/integer_traits.hpp>
#include <boost/archive/detail/auto_link_archive.hpp>
#include <boost/archive/detail/abi_prefix.hpp> // must be the last header
namespace boost {
namespace archive {
#if defined(_MSC_VER)
#pragma warning( push )
#pragma warning( disable : 4244 4267 )
#endif
/* NOTE : Warning : Warning : Warning : Warning : Warning
* Don't ever changes this. If you do, they previously created
* binary archives won't be readable !!!
*/
class library_version_type {
private:
typedef uint_least16_t base_type;
base_type t;
public:
library_version_type(): t(0) {};
explicit library_version_type(const unsigned int & t_) : t(t_){
BOOST_ASSERT(t_ <= boost::integer_traits<base_type>::const_max);
}
library_version_type(const library_version_type & t_) :
t(t_.t)
{}
library_version_type & operator=(const library_version_type & rhs){
t = rhs.t;
return *this;
}
// used for text output
operator base_type () const {
return t;
}
// used for text input
operator base_type & (){
return t;
}
bool operator==(const library_version_type & rhs) const {
return t == rhs.t;
}
bool operator<(const library_version_type & rhs) const {
return t < rhs.t;
}
};
BOOST_ARCHIVE_DECL library_version_type
BOOST_ARCHIVE_VERSION();
class version_type {
private:
typedef uint_least32_t base_type;
base_type t;
public:
// should be private - but MPI fails if it's not!!!
version_type(): t(0) {};
explicit version_type(const unsigned int & t_) : t(t_){
BOOST_ASSERT(t_ <= boost::integer_traits<base_type>::const_max);
}
version_type(const version_type & t_) :
t(t_.t)
{}
version_type & operator=(const version_type & rhs){
t = rhs.t;
return *this;
}
// used for text output
operator base_type () const {
return t;
}
// used for text intput
operator base_type & (){
return t;
}
bool operator==(const version_type & rhs) const {
return t == rhs.t;
}
bool operator<(const version_type & rhs) const {
return t < rhs.t;
}
};
class class_id_type {
private:
typedef int_least16_t base_type;
base_type t;
public:
// should be private - but then can't use BOOST_STRONG_TYPE below
class_id_type() : t(0) {};
explicit class_id_type(const int t_) : t(t_){
BOOST_ASSERT(t_ <= boost::integer_traits<base_type>::const_max);
}
explicit class_id_type(const std::size_t t_) : t(t_){
// BOOST_ASSERT(t_ <= boost::integer_traits<base_type>::const_max);
}
class_id_type(const class_id_type & t_) :
t(t_.t)
{}
class_id_type & operator=(const class_id_type & rhs){
t = rhs.t;
return *this;
}
// used for text output
operator int () const {
return t;
}
// used for text input
operator int_least16_t &() {
return t;
}
bool operator==(const class_id_type & rhs) const {
return t == rhs.t;
}
bool operator<(const class_id_type & rhs) const {
return t < rhs.t;
}
};
#define NULL_POINTER_TAG boost::archive::class_id_type(-1)
class object_id_type {
private:
typedef uint_least32_t base_type;
base_type t;
public:
object_id_type(): t(0) {};
// note: presumes that size_t >= unsigned int.
explicit object_id_type(const std::size_t & t_) : t(t_){
BOOST_ASSERT(t_ <= boost::integer_traits<base_type>::const_max);
}
object_id_type(const object_id_type & t_) :
t(t_.t)
{}
object_id_type & operator=(const object_id_type & rhs){
t = rhs.t;
return *this;
}
// used for text output
operator uint_least32_t () const {
return t;
}
// used for text input
operator uint_least32_t & () {
return t;
}
bool operator==(const object_id_type & rhs) const {
return t == rhs.t;
}
bool operator<(const object_id_type & rhs) const {
return t < rhs.t;
}
};
#if defined(_MSC_VER)
#pragma warning( pop )
#endif
struct tracking_type {
bool t;
explicit tracking_type(const bool t_ = false)
: t(t_)
{};
tracking_type(const tracking_type & t_)
: t(t_.t)
{}
operator bool () const {
return t;
};
operator bool & () {
return t;
};
tracking_type & operator=(const bool t_){
t = t_;
return *this;
}
bool operator==(const tracking_type & rhs) const {
return t == rhs.t;
}
bool operator==(const bool & rhs) const {
return t == rhs;
}
tracking_type & operator=(const tracking_type & rhs){
t = rhs.t;
return *this;
}
};
struct class_name_type :
private boost::noncopyable
{
char *t;
operator const char * & () const {
return const_cast<const char * &>(t);
}
operator char * () {
return t;
}
std::size_t size() const {
return std::strlen(t);
}
explicit class_name_type(const char *key_)
: t(const_cast<char *>(key_)){}
explicit class_name_type(char *key_)
: t(key_){}
class_name_type & operator=(const class_name_type & rhs){
t = rhs.t;
return *this;
}
};
enum archive_flags {
no_header = 1, // suppress archive header info
no_codecvt = 2, // suppress alteration of codecvt facet
no_xml_tag_checking = 4, // suppress checking of xml tags
no_tracking = 8, // suppress ALL tracking
flags_last = 8
};
BOOST_ARCHIVE_DECL const char *
BOOST_ARCHIVE_SIGNATURE();
/* NOTE : Warning : Warning : Warning : Warning : Warning
* If any of these are changed to different sized types,
* binary_iarchive won't be able to read older archives
* unless you rev the library version and include conditional
* code based on the library version. There is nothing
* inherently wrong in doing this - but you have to be super
* careful because it's easy to get wrong and start breaking
* old archives !!!
*/
#define BOOST_ARCHIVE_STRONG_TYPEDEF(T, D) \
class D : public T { \
public: \
explicit D(const T tt) : T(tt){} \
}; \
/**/
BOOST_ARCHIVE_STRONG_TYPEDEF(class_id_type, class_id_reference_type)
BOOST_ARCHIVE_STRONG_TYPEDEF(class_id_type, class_id_optional_type)
BOOST_ARCHIVE_STRONG_TYPEDEF(object_id_type, object_reference_type)
}// namespace archive
}// namespace boost
#include <boost/archive/detail/abi_suffix.hpp> // pops abi_suffix.hpp pragmas
#include <boost/serialization/level.hpp>
// set implementation level to primitive for all types
// used internally by the serialization library
BOOST_CLASS_IMPLEMENTATION(boost::archive::library_version_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::version_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::class_id_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::class_id_reference_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::class_id_optional_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::class_name_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::object_id_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::object_reference_type, primitive_type)
BOOST_CLASS_IMPLEMENTATION(boost::archive::tracking_type, primitive_type)
#include <boost/serialization/is_bitwise_serializable.hpp>
// set types used internally by the serialization library
// to be bitwise serializable
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::library_version_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::version_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::class_id_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::class_id_reference_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::class_id_optional_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::class_name_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::object_id_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::object_reference_type)
BOOST_IS_BITWISE_SERIALIZABLE(boost::archive::tracking_type)
#endif //BOOST_ARCHIVE_BASIC_ARCHIVE_HPP