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/*
* (C) Copyright Christopher Diggins 2005
* (C) Copyright Pablo Aguilar 2005
* (C) Copyright Kevlin Henney 2001
*
* Copyright (C) 2010-2011 IOhannes m zmölnig. forum::für::umläute. IEM. zmoelnig@iem.at
* downloaded this code from http://www.codeproject.com/KB/cpp/dynamic_typing.aspx
* changed namespace/defines "cdiggins" to something "gem"
*
* Distributed under 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)
*/
#ifndef GEM_ANY_HPP
#define GEM_ANY_HPP
#include "Gem/ExportDef.h"
#ifdef _MSC_VER
# pragma warning( push )
# pragma warning( disable: 4275 )
#endif
#include <stdexcept>
#include <typeinfo>
#include <algorithm>
namespace gem
{
struct GEM_EXTERN bad_any_cast : std::bad_cast {
bad_any_cast(const std::type_info& src, const std::type_info& dest)
: from(src.name()), to(dest.name())
{ }
virtual ~bad_any_cast(void) throw()
{ }
virtual const std::string what(void) {
std::string result = std::string("bad cast(");
result+= from;
result+= std::string("->");
result+= to;
result+= std::string(")");
return result;
}
const std::string from;
const std::string to;
};
namespace any_detail {
// function pointer table
struct fxn_ptr_table {
const std::type_info& (*get_type)(void);
void (*static_delete)(void**);
void (*clone)(void* const*, void**);
void (*move)(void* const*,void**);
};
// static functions for small value-types
template<bool is_small>
struct fxns
{
template<typename T>
struct type {
static const std::type_info& get_type(void) {
return typeid(T);
}
static void static_delete(void** x) {
reinterpret_cast<T*>(x)->~T();
}
static void clone(void* const* src, void** dest) {
new(dest) T(*reinterpret_cast<T const*>(src));
}
static void move(void* const* src, void** dest) {
reinterpret_cast<T*>(dest)->~T();
*reinterpret_cast<T*>(dest) = *reinterpret_cast<T const*>(src);
}
};
};
// static functions for big value-types (bigger than a void*)
template<>
struct fxns<false>
{
template<typename T>
struct type {
static const std::type_info& get_type(void) {
return typeid(T);
}
static void static_delete(void** x) {
delete(*reinterpret_cast<T**>(x));
}
static void clone(void* const* src, void** dest) {
*dest = new T(**reinterpret_cast<T* const*>(src));
}
static void move(void* const* src, void** dest) {
(*reinterpret_cast<T**>(dest))->~T();
**reinterpret_cast<T**>(dest) = **reinterpret_cast<T* const*>(src);
}
};
};
template<typename T>
struct get_table
{
static const bool is_small = sizeof(T) <= sizeof(void*);
static fxn_ptr_table* get(void)
{
static fxn_ptr_table static_table = {
fxns<is_small>::template type<T>::get_type
, fxns<is_small>::template type<T>::static_delete
, fxns<is_small>::template type<T>::clone
, fxns<is_small>::template type<T>::move
};
return &static_table;
}
};
struct empty {
};
} // namespace any_detail
struct GEM_EXTERN any
{
// structors
template <typename T>
any(const T& x) : table(NULL), object(NULL) {
table = any_detail::get_table<T>::get();
if (sizeof(T) <= sizeof(void*)) {
new(&object) T(x);
}
else {
object = new T(x);
}
}
any(void) : table(NULL), object(NULL) {
table = any_detail::get_table<any_detail::empty>::get();
object = NULL;
}
any(const any& x) : table(NULL), object(NULL) {
table = any_detail::get_table<any_detail::empty>::get();
assign(x);
}
virtual ~any(void) {
table->static_delete(&object);
}
// assignment
any& assign(const any& x) {
// are we copying between the same type?
if (table == x.table) {
// if so, we can avoid reallocation
table->move(&x.object, &object);
}
else {
reset();
x.table->clone(&x.object, &object);
table = x.table;
}
return *this;
}
template <typename T>
any& assign(const T& x)
{
// are we copying between the same type?
any_detail::fxn_ptr_table* x_table = any_detail::get_table<T>::get();
if (table == x_table) {
// if so, we can avoid deallocating and resuse memory
if (sizeof(T) <= sizeof(void*)) {
// create copy on-top of object pointer itself
new(&object) T(x);
}
else {
// create copy on-top of old version
new(object) T(x);
}
}
else {
reset();
if (sizeof(T) <= sizeof(void*)) {
// create copy on-top of object pointer itself
new(&object) T(x);
// update table pointer
table = x_table;
}
else {
object = new T(x);
table = x_table;
}
}
return *this;
}
// assignment operator
template<typename T>
any& operator=(T const& x) {
return assign(x);
}
any& operator=(const any& x) {
return assign(x);
}
// utility functions
any& swap(any& x) {
std::swap(table, x.table);
std::swap(object, x.object);
return *this;
}
const std::type_info& get_type(void) const {
return table->get_type();
}
template<typename T>
const T& cast(void) const {
if (get_type() != typeid(T)) {
throw bad_any_cast(get_type(), typeid(T));
}
if (sizeof(T) <= sizeof(void*)) {
return *reinterpret_cast<T const*>(&object);
}
else {
return *reinterpret_cast<T const*>(object);
}
}
// implicit casting is disabled by default
#ifdef ANY_IMPLICIT_CASTING
// automatic casting operator
template<typename T>
operator T(void) const {
return cast<T>();
}
#endif // implicit casting
bool empty(void) const {
return table == any_detail::get_table<any_detail::empty>::get();
}
void reset(void)
{
if (empty()) return;
table->static_delete(&object);
table = any_detail::get_table<any_detail::empty>::get();
object = NULL;
}
// fields
any_detail::fxn_ptr_table* table;
void* object;
};
// boost::any-like casting
template<typename T>
T* any_cast(any* this_) {
if (this_->get_type() != typeid(T)) {
throw bad_any_cast(this_->get_type(), typeid(T));
}
if (sizeof(T) <= sizeof(void*)) {
return reinterpret_cast<T*>(&this_->object);
}
else {
return reinterpret_cast<T*>(this_->object);
}
}
template<typename T>
T const* any_cast(any const* this_) {
return any_cast<T>(const_cast<any*>(this_));
}
template<typename T>
T const& any_cast(any const& this_){
return *any_cast<T>(const_cast<any*>(&this_));
}
}
#ifdef _MSC_VER
# pragma warning( pop )
#endif
#endif // GEM_ANY_HPP
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