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AnimTestbed/3rdparty/ozz-animation/include/ozz/base/io/archive_traits.h

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//----------------------------------------------------------------------------//
// //
// ozz-animation is hosted at http://github.com/guillaumeblanc/ozz-animation //
// and distributed under the MIT License (MIT). //
// //
// Copyright (c) Guillaume Blanc //
// //
// Permission is hereby granted, free of charge, to any person obtaining a //
// copy of this software and associated documentation files (the "Software"), //
// to deal in the Software without restriction, including without limitation //
// the rights to use, copy, modify, merge, publish, distribute, sublicense, //
// and/or sell copies of the Software, and to permit persons to whom the //
// Software is furnished to do so, subject to the following conditions: //
// //
// The above copyright notice and this permission notice shall be included in //
// all copies or substantial portions of the Software. //
// //
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR //
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, //
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL //
// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER //
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING //
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER //
// DEALINGS IN THE SOFTWARE. //
// //
//----------------------------------------------------------------------------//
#ifndef OZZ_OZZ_BASE_IO_ARCHIVE_TRAITS_H_
#define OZZ_OZZ_BASE_IO_ARCHIVE_TRAITS_H_
// Provides traits for customizing archive serialization properties: version,
// tag... See archive.h for more details.
#include <stdint.h>
#include <cstddef>
namespace ozz {
namespace io {
// Forward declaration of archive types.
class OArchive;
class IArchive;
// Default loading and saving external declaration.
// Those template implementations aim to be specialized at compilation time by
// non-member Load and save functions. For example the specialization of the
// Save() function for a type Type is:
// void Save(OArchive& _archive, const Extrusive* _test, size_t _count) {
// }
// The Load() function receives the version _version of type _Ty at the time the
// archive was saved.
// This uses polymorphism rather than template specialization to avoid
// including the file that contains the template definition.
//
// This default function call member _Ty::Load/Save function.
template <typename _Ty>
struct Extern;
// Declares the current (compile time) version of _type.
// This macro must be used inside namespace ozz::io.
// Syntax is: OZZ_IO_TYPE_VERSION(46, Foo).
#define OZZ_IO_TYPE_VERSION(_version, _type) \
static_assert(_version > 0, "Version number must be > 0"); \
namespace internal { \
template <> \
struct Version<const _type> { \
enum { kValue = _version }; \
}; \
} // internal
// Declares the current (compile time) version of a template _type.
// This macro must be used inside namespace ozz::io.
// OZZ_IO_TYPE_VERSION_T1(46, typename _T1, Foo<_T1>).
#define OZZ_IO_TYPE_VERSION_T1(_version, _arg0, ...) \
static_assert(_version > 0, "Version number must be > 0"); \
namespace internal { \
template <_arg0> \
struct Version<const __VA_ARGS__> { \
enum { kValue = _version }; \
}; \
} // internal
// Declares the current (compile time) version of a template _type.
// This macro must be used inside namespace ozz::io.
// OZZ_IO_TYPE_VERSION_T2(46, typename _T1, typename _T2, Foo<_T1, _T2>).
#define OZZ_IO_TYPE_VERSION_T2(_version, _arg0, _arg1, ...) \
static_assert(_version > 0, "Version number must be > 0"); \
namespace internal { \
template <_arg0, _arg1> \
struct Version<const __VA_ARGS__> { \
enum { kValue = _version }; \
}; \
\
} // internal
// Declares the current (compile time) version of a template _type.
// This macro must be used inside namespace ozz::io.
// OZZ_IO_TYPE_VERSION_T3(
// 46, typename _T1, typename _T2, typename _T3, Foo<_T1, _T2, _T3>).
#define OZZ_IO_TYPE_VERSION_T3(_version, _arg0, _arg1, _arg2, ...) \
static_assert(_version > 0, "Version number must be > 0"); \
namespace internal { \
template <_arg0, _arg1, _arg2> \
struct Version<const __VA_ARGS__> { \
enum { kValue = _version }; \
}; \
\
} // internal
// Declares the current (compile time) version of a template _type.
// This macro must be used inside namespace ozz::io.
// OZZ_IO_TYPE_VERSION_T4(
// 46, typename _T1, typename _T2, typename _T3, typename _T4,
// Foo<_T1, _T2, _T3, _T4>).
#define OZZ_IO_TYPE_VERSION_T4(_version, _arg0, _arg1, _arg2, _arg3, ...) \
static_assert(_version > 0, "Version number must be > 0"); \
namespace internal { \
template <_arg0, _arg1, _arg2, _arg3> \
struct Version<const __VA_ARGS__> { \
enum { kValue = _version }; \
}; \
} // internal
// Declares that _type is not versionable. Its version number is 0.
// Once a type has been declared not versionable, it cannot be changed without
// braking versioning.
// This macro must be used inside namespace ozz::io.
// Syntax is: OZZ_IO_TYPE_NOT_VERSIONABLE(Foo).
#define OZZ_IO_TYPE_NOT_VERSIONABLE(_type) \
namespace internal { \
template <> \
struct Version<const _type> { \
enum { kValue = 0 }; \
}; \
} // internal
// Declares that a template _type is not versionable. Its version number is 0.
// Once a type has been declared not versionable, it cannot be changed without
// braking versioning.
// This macro must be used inside namespace ozz::io.
// Syntax is:
// OZZ_IO_TYPE_NOT_VERSIONABLE_T1(typename _T1, Foo<_T1>).
#define OZZ_IO_TYPE_NOT_VERSIONABLE_T1(_arg0, ...) \
namespace internal { \
template <_arg0> \
struct Version<const __VA_ARGS__> { \
enum { kValue = 0 }; \
}; \
} // internal
// Decline non-versionable template declaration to 2 template arguments.
// Syntax is:
// OZZ_IO_TYPE_NOT_VERSIONABLE_T2(typename _T1, typename _T2, Foo<_T1, _T2>).
#define OZZ_IO_TYPE_NOT_VERSIONABLE_T2(_arg0, _arg1, ...) \
namespace internal { \
template <_arg0, _arg1> \
struct Version<const __VA_ARGS__> { \
enum { kValue = 0 }; \
}; \
} // internal
// Decline non-versionable template declaration to 3 template arguments.
// Syntax is:
// OZZ_IO_TYPE_NOT_VERSIONABLE_T3(
// typename _T1, typename _T2, typename _T3, Foo<_T1, _T2, _T3>).
#define OZZ_IO_TYPE_NOT_VERSIONABLE_T3(_arg0, _arg1, _arg2, ...) \
namespace internal { \
template <_arg0, _arg1, _arg2> \
struct Version<const __VA_ARGS__> { \
enum { kValue = 0 }; \
}; \
} // internal
// Decline non-versionable template declaration to 4 template arguments.
// Syntax is:
// OZZ_IO_TYPE_NOT_VERSIONABLE_T4(
// typename _T1, typename _T2, typename _T3, typename _T4,
// Foo<_T1, _T2, _T3, _T4>).
#define OZZ_IO_TYPE_NOT_VERSIONABLE_T4(_arg0, _arg1, _arg2, _arg3, ...) \
namespace internal { \
template <_arg0, _arg1, _arg2, _arg3> \
struct Version<const __VA_ARGS__> { \
enum { kValue = 0 }; \
}; \
} // internal
// Declares the tag of a template _type.
// A tag is a c-string that can be used to check the type (through its tag) of
// the next object to be read from an archive. If no tag is defined, then no
// check is performed.
// This macro must be used inside namespace ozz::io.
// OZZ_IO_TYPE_TAG("Foo", Foo).
#define OZZ_IO_TYPE_TAG(_tag, _type) \
namespace internal { \
template <> \
struct Tag<const _type> { \
/* Length includes null terminated character to detect partial */ \
/* tag mapping.*/ \
enum { kTagLength = OZZ_ARRAY_SIZE(_tag) }; \
static const char* Get() { return _tag; } \
}; \
} // internal
namespace internal {
// Definition of version specializable template struct.
// There's no default implementation in order to force user to define it, which
// in turn forces those who want to serialize an object to include the file that
// defines it's version. This helps with detecting issues at compile time.
template <typename _Ty>
struct Version;
// Defines default tag value, which is disabled.
template <typename _Ty>
struct Tag {
enum { kTagLength = 0 };
};
} // namespace internal
} // namespace io
} // namespace ozz
#endif // OZZ_OZZ_BASE_IO_ARCHIVE_TRAITS_H_