将 boost::any 转换为 boost::variant 的通用函数
Generic function to convert boost::any to boost::variant
假设您有一个 boost::any
对象和一个 boost::variant
对象。
我正在寻找一个通用函数 convert
,它将模板参数 T 作为一个专门的 boost::variant
,例如boost::variant<int, std::string>
并神奇地将 boost::any
转换为给定 boost::variant
.
的可用类型之一
template<T>
T convert(const boost::any& any) {
// Some generic conversion code here or throw exception if conversion is not possible!
}
int main(int argc, char** args) {
typedef boost::variant<int, std::string> TVar;
boost::any any="Hello World";
TVar variant=convert<TVar>(any);
// variant contains "Hello World"
return 0;
}
我想知道是否可以编写这样的函数,或者由于某种原因可能无法编写?
让我们将所有代码包含在由变体类型模板化的结构中
template<class VAR>
struct ExtractorGenerator
{
using Extractor = std::function<boost::optional<VAR>(boost::any const &)>;
std::vector<Extractor> extractors;
template<class T>
static boost::optional<VAR> tryCast(boost::any const & arg);
template<class T>
void operator()(T);
};
您可以轻松编写一个函数,尝试将 boost::any 转换为该类型的变体
template<class VAR>
template<class T>
boost::optional<VAR> ExtractorGenerator<VAR>::tryCast(boost::any const & arg)
{
T const * val = boost::any_cast<T>(&arg);
return val == nullptr ? boost::none : boost::make_optional(VAR{*val});
}
现在使用 boost::mpl 您可以遍历所有变体类型,为每个变体类型生成函数
template<class VAR>
template<class T> void ExtractorGenerator<VAR>::operator()(T)
{
extractors.push_back(Extractor::tryCast<T>);
}
typedef boost::variant<int, std::string, char> MyVariant;
ExtractorGenerator<MyVariant> generator;
boost::mpl::for_each<MyVariant::types>(boost::ref(generator));
现在您只需应用所有创建的函数:
std::vector<MyVariant> extractedVals;
for (auto fun : extractor.extractors)
{
boost::optional<MyVariant> extracted = fun(val);
if (extracted)
extractedVals.push_back(extracted.get());
}
您可以为 boost::variant
中的每个类型调用 boost::any_cast
,并在第一次转换成功时停止:
#include <iostream>
#include <utility>
#include <stdexcept>
#include <sstream>
#include <boost/any.hpp>
#include <boost/variant.hpp>
#include <boost/type_index.hpp>
#include <boost/mpl/size.hpp>
#include <boost/mpl/at.hpp>
template <typename Sequence>
struct mpl_sequence_to_std_tuple
{
template <std::size_t... Is>
static auto x(std::index_sequence<Is...>) -> std::tuple<typename boost::mpl::at_c<Sequence, Is>::type...>;
using type = decltype(x(std::make_index_sequence<boost::mpl::size<Sequence>::type::value>{}));
};
struct signal_conversion_success{};
template <typename T, typename Variant>
void try_convert(const boost::any& any, Variant& var)
{
try
{
var = boost::any_cast<T>(any);
throw signal_conversion_success{};
}
catch(const boost::bad_any_cast &)
{
}
}
template <typename T, typename... Ts>
std::string parameter_pack_to_string(const std::string& separator = ", ")
{
std::stringstream ss;
ss << boost::typeindex::type_id<T>().pretty_name();
auto l = {0, (void(ss << separator << boost::typeindex::type_id<Ts>().pretty_name()),0)...};
std::ignore = l;
return ss.str();
}
template <typename Variant, typename...Ts>
void do_convert(const boost::any& any, Variant& var, std::tuple<Ts...>)
{
bool success = false;
try {
auto l = {0, (void(try_convert<Ts>(any, var)), 0)... };
std::ignore = l;
}
catch(const signal_conversion_success&)
{
success = true;
}
if (!success)
{
std::stringstream ss;
ss << "cannot convert this boost::any instance to any of the following types: ";
ss << parameter_pack_to_string<Ts...>();
throw std::invalid_argument(ss.str());
}
}
template<typename Variant>
void convert(const boost::any& any, Variant& var)
{
using Tuple = typename mpl_sequence_to_std_tuple<typename Variant::types>::type;
do_convert(any, var, Tuple{});
}
struct print_visitor : public boost::static_visitor<void>
{
template <typename T>
void operator()(T&& t) const
{
std::cout << boost::typeindex::type_id<T>().pretty_name() << ": " << std::forward<T>(t) << std::endl;
}
};
int main()
{
using Variant = boost::variant<int, std::string>;
boost::any any = std::string("Hello World");
Variant var;
convert(any, var);
boost::apply_visitor(print_visitor(), var);
}
如果none次强制转换成功,抛出异常,见下文live example.
假设您有一个 boost::any
对象和一个 boost::variant
对象。
我正在寻找一个通用函数 convert
,它将模板参数 T 作为一个专门的 boost::variant
,例如boost::variant<int, std::string>
并神奇地将 boost::any
转换为给定 boost::variant
.
template<T>
T convert(const boost::any& any) {
// Some generic conversion code here or throw exception if conversion is not possible!
}
int main(int argc, char** args) {
typedef boost::variant<int, std::string> TVar;
boost::any any="Hello World";
TVar variant=convert<TVar>(any);
// variant contains "Hello World"
return 0;
}
我想知道是否可以编写这样的函数,或者由于某种原因可能无法编写?
让我们将所有代码包含在由变体类型模板化的结构中
template<class VAR>
struct ExtractorGenerator
{
using Extractor = std::function<boost::optional<VAR>(boost::any const &)>;
std::vector<Extractor> extractors;
template<class T>
static boost::optional<VAR> tryCast(boost::any const & arg);
template<class T>
void operator()(T);
};
您可以轻松编写一个函数,尝试将 boost::any 转换为该类型的变体
template<class VAR>
template<class T>
boost::optional<VAR> ExtractorGenerator<VAR>::tryCast(boost::any const & arg)
{
T const * val = boost::any_cast<T>(&arg);
return val == nullptr ? boost::none : boost::make_optional(VAR{*val});
}
现在使用 boost::mpl 您可以遍历所有变体类型,为每个变体类型生成函数
template<class VAR>
template<class T> void ExtractorGenerator<VAR>::operator()(T)
{
extractors.push_back(Extractor::tryCast<T>);
}
typedef boost::variant<int, std::string, char> MyVariant;
ExtractorGenerator<MyVariant> generator;
boost::mpl::for_each<MyVariant::types>(boost::ref(generator));
现在您只需应用所有创建的函数:
std::vector<MyVariant> extractedVals;
for (auto fun : extractor.extractors)
{
boost::optional<MyVariant> extracted = fun(val);
if (extracted)
extractedVals.push_back(extracted.get());
}
您可以为 boost::variant
中的每个类型调用 boost::any_cast
,并在第一次转换成功时停止:
#include <iostream>
#include <utility>
#include <stdexcept>
#include <sstream>
#include <boost/any.hpp>
#include <boost/variant.hpp>
#include <boost/type_index.hpp>
#include <boost/mpl/size.hpp>
#include <boost/mpl/at.hpp>
template <typename Sequence>
struct mpl_sequence_to_std_tuple
{
template <std::size_t... Is>
static auto x(std::index_sequence<Is...>) -> std::tuple<typename boost::mpl::at_c<Sequence, Is>::type...>;
using type = decltype(x(std::make_index_sequence<boost::mpl::size<Sequence>::type::value>{}));
};
struct signal_conversion_success{};
template <typename T, typename Variant>
void try_convert(const boost::any& any, Variant& var)
{
try
{
var = boost::any_cast<T>(any);
throw signal_conversion_success{};
}
catch(const boost::bad_any_cast &)
{
}
}
template <typename T, typename... Ts>
std::string parameter_pack_to_string(const std::string& separator = ", ")
{
std::stringstream ss;
ss << boost::typeindex::type_id<T>().pretty_name();
auto l = {0, (void(ss << separator << boost::typeindex::type_id<Ts>().pretty_name()),0)...};
std::ignore = l;
return ss.str();
}
template <typename Variant, typename...Ts>
void do_convert(const boost::any& any, Variant& var, std::tuple<Ts...>)
{
bool success = false;
try {
auto l = {0, (void(try_convert<Ts>(any, var)), 0)... };
std::ignore = l;
}
catch(const signal_conversion_success&)
{
success = true;
}
if (!success)
{
std::stringstream ss;
ss << "cannot convert this boost::any instance to any of the following types: ";
ss << parameter_pack_to_string<Ts...>();
throw std::invalid_argument(ss.str());
}
}
template<typename Variant>
void convert(const boost::any& any, Variant& var)
{
using Tuple = typename mpl_sequence_to_std_tuple<typename Variant::types>::type;
do_convert(any, var, Tuple{});
}
struct print_visitor : public boost::static_visitor<void>
{
template <typename T>
void operator()(T&& t) const
{
std::cout << boost::typeindex::type_id<T>().pretty_name() << ": " << std::forward<T>(t) << std::endl;
}
};
int main()
{
using Variant = boost::variant<int, std::string>;
boost::any any = std::string("Hello World");
Variant var;
convert(any, var);
boost::apply_visitor(print_visitor(), var);
}
如果none次强制转换成功,抛出异常,见下文live example.