This commit is contained in:
sha512sum 2024-10-18 15:03:19 +00:00
parent cfd566d52a
commit 21d5b22f6b
4 changed files with 277 additions and 3 deletions

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@ -2,6 +2,7 @@
#include <libxml++/libxml++.h>
#include <spdlog/spdlog.h>
#include <larra/serialization/error.hpp>
#include <nameof.hpp>
#include <string>
#include <utempl/utils.hpp>
@ -96,7 +97,8 @@ template <typename T>
struct Serialization : SerializationBase<T> {
[[nodiscard]] static constexpr auto Parse(xmlpp::Element* element) -> T {
if(!Serialization::StartCheck(element)) {
throw std::runtime_error("StartCheck failed");
throw serialization::SerializationError{
std::format("[{}: {}] serialization error: [ StartCheck failed ]", Serialization::kDefaultName, nameof::nameof_full_type<T>())};
}
return T::Parse(element);
}

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@ -0,0 +1,175 @@
#pragma once
#include <libxml++/libxml++.h>
#include <boost/pfr.hpp>
#include <larra/serialization.hpp>
#include <larra/serialization/error.hpp>
#include <utempl/constexpr_string.hpp>
#include <utempl/tuple.hpp>
#include <utempl/utils.hpp>
#include <variant>
namespace larra::xmpp::serialization {
template <typename T>
struct Tag {};
template <typename T>
inline constexpr auto kSerializationConfig = std::monostate{};
template <typename T>
inline constexpr auto kDeserializationConfig = kSerializationConfig<T>;
template <typename T>
constexpr auto Parse(xmlpp::Element* element, Tag<T> = {}) -> T
requires(!std::same_as<std::decay_t<decltype(kDeserializationConfig<T>)>, std::monostate>);
template <typename T>
constexpr auto Parse(xmlpp::Element* element, Tag<T> = {}) -> T;
struct AttributeConfig {};
template <typename T>
struct MetaInfo {
static constexpr std::size_t kSize = boost::pfr::tuple_size_v<T>;
template <std::size_t I>
using TupleElement = boost::pfr::tuple_element_t<I, T>;
template <std::size_t I>
static constexpr std::string_view kFieldName = boost::pfr::get_name<I, T>();
template <typename Self, std::size_t I>
static constexpr auto Get(Self&& self) -> decltype(auto) {
return boost::pfr::get<I>(std::forward<Self>(self));
}
};
template <typename MainT, std::size_t Element>
struct FieldInfo {
using Main = MainT;
using Info = MetaInfo<Main>;
static inline const std::string kName = [] {
if constexpr(requires { Info::template TupleElement<Element>::kDefaultName; }) {
return Info::template TupleElement<Element>::kDefaultName;
} else {
return static_cast<std::string>(Info::template kFieldName<Element>);
}
}();
};
template <typename T>
struct Config {
std::optional<T> defaultValue;
};
template <>
struct Config<std::string> {
std::optional<std::string_view> defaultValue;
};
namespace impl {
template <typename T, typename V>
struct Config : V {
using V::V;
constexpr auto Base() const -> const V& {
return static_cast<const V&>(*this);
}
using type = T;
};
} // namespace impl
template <typename T>
struct ElementConfig {
using type = impl::Config<T, std::variant<AttributeConfig, Config<T>>>;
};
template <typename T, auto& Config, typename Info>
struct ElementSerializer {
static constexpr auto Parse(xmlpp::Element* element) {
auto node = element->get_first_child(Info::kName);
if(!node) {
throw ElementSerializationError(
std::format("[{}: {}] serialization error: [ Not found ]", Info::kName, nameof::nameof_full_type<T>()));
}
auto elementNode = dynamic_cast<xmlpp::Element*>(node);
if(!node) {
throw ElementSerializationError(
std::format("[{}: {}] serialization error: [ Invalid node ]", Info::kName, nameof::nameof_full_type<T>()));
}
try {
return ::larra::xmpp::serialization::Parse(elementNode, Tag<T>{});
} catch(const SerializationError& error) {
throw ElementSerializationError(
std::format("[{}: {}] serialization error: [ {} ]", Info::kName, nameof::nameof_full_type<T>(), error.what()));
}
}
};
namespace impl {
template <typename T>
consteval auto FindElement(std::string_view field, utempl::TypeList<T> = {}) {
auto fields = boost::pfr::names_as_array<T>();
return std::ranges::find(fields, field) - fields.begin();
}
template <auto& Config, typename Info>
auto ParseField(xmlpp::Element* main) {
using Type = std::decay_t<decltype(Config)>::type;
if constexpr(std::holds_alternative<AttributeConfig>(Config.Base())) {
xmlpp::Attribute* node = main->get_attribute(Info::kName);
if(!node) {
throw AttributeSerializationError(std::format("Attribute [{}] serialization error", Info::kName));
}
return node->get_value();
} else {
return ElementSerializer<Type, Config, Info>::Parse(main);
}
}
} // namespace impl
template <typename T>
struct SerializationConfig {
decltype([] {
return [](auto... is) -> utempl::Tuple<typename ElementConfig<boost::pfr::tuple_element_t<*is, T>>::type...> {
std::unreachable();
} | utempl::kSeq<boost::pfr::tuple_size_v<T>>;
}()) tuple{};
template <std::size_t I, typename Self> // NOLINTNEXTLINE
consteval auto With(this Self&& self, ElementConfig<boost::pfr::tuple_element_t<I, T>>::type config) -> SerializationConfig {
auto tuple = std::forward_like<Self>(self.tuple);
Get<I>(tuple) = std::move(config);
return {std::move(tuple)};
}
template <utempl::ConstexprString Name, typename Self>
constexpr auto With(this Self&& self, ElementConfig<boost::pfr::tuple_element_t<impl::FindElement<T>(Name), T>>::type config)
-> SerializationConfig {
return std::forward<Self>(self).template With<impl::FindElement<T>(Name)>(std::move(config));
}
};
template <typename T>
constexpr auto Parse(xmlpp::Element* element, Tag<T>) -> T {
return Serialization<T>::Parse(element);
}
template <typename T>
constexpr auto Parse(xmlpp::Element* element, Tag<T>) -> T
requires(!std::same_as<std::decay_t<decltype(kDeserializationConfig<T>)>, std::monostate>)
{
static constexpr SerializationConfig config = kSerializationConfig<T>;
constexpr auto tuple = utempl::Map(config.tuple, [](auto& ref) {
return &ref;
});
return utempl::Unpack(utempl::PackConstexprWrapper<utempl::Enumerate(tuple)>(), [&](auto... configs) {
try {
return T{impl::ParseField<*((*configs).second), FieldInfo<T, (*configs).first>>(element)...};
} catch(const SerializationError& error) {
throw ElementSerializationError(std::format("[{}] serialization error: [ {} ]", nameof::nameof_full_type<T>(), error.what()));
}
});
}
} // namespace larra::xmpp::serialization

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@ -0,0 +1,18 @@
#pragma once
#include <stdexcept>
namespace larra::xmpp::serialization {
struct SerializationError : std::runtime_error {
using std::runtime_error::runtime_error;
};
struct AttributeSerializationError : SerializationError {
using SerializationError::SerializationError;
};
struct ElementSerializationError : SerializationError {
using SerializationError::SerializationError;
};
} // namespace larra::xmpp::serialization

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@ -1,8 +1,12 @@
#include <gtest/gtest.h>
#include <larra/serialization.hpp>
#include <larra/serialization/auto.hpp>
#include <larra/serialization/error.hpp>
#include <larra/stream_error.hpp>
using namespace std::literals;
namespace larra::xmpp {
TEST(Parse, Variant) {
@ -21,8 +25,83 @@ TEST(Serialize, Variant) {
auto node = doc.create_root_node("stream:error");
S::Serialize(node, data);
EXPECT_EQ(doc.write_to_string(),
std::string_view{"<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<stream:error><unsupported-stanza-type "
"xmlns=\"urn:ietf:params:xml:ns:xmpp-streams\"/></stream:error>\n"});
"<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<stream:error><unsupported-stanza-type "
"xmlns=\"urn:ietf:params:xml:ns:xmpp-streams\"/></stream:error>\n"sv);
}
namespace tests::serialization {
struct SomeStruct {
static constexpr auto kDefaultName = "some";
std::string value;
[[nodiscard]] static auto Parse(xmlpp::Element* element) -> SomeStruct;
};
struct SomeStruct2 {
static constexpr auto kDefaultName = "some2";
SomeStruct value;
[[nodiscard]] static auto Parse(xmlpp::Element* element) -> SomeStruct2;
};
struct SomeStruct3 {
static constexpr auto kDefaultName = "some3";
int value;
[[nodiscard]] static auto Parse(xmlpp::Element* element) -> SomeStruct3;
};
struct SomeStruct4 {
static constexpr auto kDefaultName = "some4";
SomeStruct3 value;
[[nodiscard]] static auto Parse(xmlpp::Element* element) -> SomeStruct4;
};
} // namespace tests::serialization
namespace serialization {
template <>
constexpr auto kSerializationConfig<tests::serialization::SomeStruct> = SerializationConfig<tests::serialization::SomeStruct>{};
template <>
constexpr auto kSerializationConfig<tests::serialization::SomeStruct2> =
SerializationConfig<tests::serialization::SomeStruct2>{}.With<"value">(serialization::Config<tests::serialization::SomeStruct>{});
template <>
constexpr auto kSerializationConfig<tests::serialization::SomeStruct4> =
SerializationConfig<tests::serialization::SomeStruct4>{}.With<"value">(serialization::Config<tests::serialization::SomeStruct3>{});
} // namespace serialization
auto tests::serialization::SomeStruct::Parse(xmlpp::Element* element) -> SomeStruct {
return ::larra::xmpp::serialization::Parse<tests::serialization::SomeStruct>(element);
}
auto tests::serialization::SomeStruct2::Parse(xmlpp::Element* element) -> SomeStruct2 {
return ::larra::xmpp::serialization::Parse<tests::serialization::SomeStruct2>(element);
}
auto tests::serialization::SomeStruct3::Parse(xmlpp::Element*) -> SomeStruct3 {
return {.value = 42}; // NOLINT
}
auto tests::serialization::SomeStruct4::Parse(xmlpp::Element* element) -> SomeStruct4 {
return ::larra::xmpp::serialization::Parse<tests::serialization::SomeStruct4>(element);
}
TEST(Parse, Auto) {
xmlpp::Document doc;
auto node = doc.create_root_node("some2");
node = node->add_child_element("some");
node->set_attribute("value", "Hello");
auto a = Serialization<tests::serialization::SomeStruct>::Parse(node);
EXPECT_EQ(a.value, "Hello"sv);
auto b = Serialization<tests::serialization::SomeStruct2>::Parse(doc.get_root_node());
EXPECT_EQ(b.value.value, "Hello"sv);
EXPECT_THROW(std::ignore = tests::serialization::SomeStruct2::Parse(node), serialization::SerializationError);
auto node2 = node->add_child_element("some4");
node2->add_child_element("some3");
auto c = Serialization<tests::serialization::SomeStruct4>::Parse(node2);
EXPECT_EQ(c.value.value, 42);
}
} // namespace larra::xmpp