CI: Added configuring clang for tidy checks

Merge pull request 'Automatic serialization/deserialization code generation' (#1 ) from feature_serialization into main
Reviewed-on: http://ivt5wiimhwpo56td6eodn2n3fduug3bglqvqewbk2jnyl4hcimea.b32.i2p/git/git/Larra/larra/pulls/1
2024-11-08 15:38:02 +00:00 · 2024-11-08 13:45:23 +00:00 · 2024-11-08 12:50:17 +00:00
6 changed files with 476 additions and 27 deletions
--- a/.devcontainer/Dockerfile
+++ b/.devcontainer/Dockerfile
@ -10,7 +10,7 @@ FROM archlinux@sha256:a10e51dd0694d6c4142754e9d06cbce7baf91ace8031a30df37064d109
 RUN pacman -Syyu --noconfirm \
    && pacman -Syyu --noconfirm git less vim sudo python-pip wget which pkgconf \
    && pacman -Syyu --noconfirm cmake make gcc ninja meson shellcheck \
-    && pacman -Syyu --noconfirm gtk4 gtkmm-4.0 boost spdlog fmt libxml++-5.0
+    && pacman -Syyu --noconfirm gtk4 gtkmm-4.0 boost spdlog fmt libxml++-5.0 gtest
 # Create a non-root user 'dev'
 RUN useradd -ms /bin/bash dev \
@ -38,6 +38,7 @@ ADD https://github.com/llvm/llvm-project/releases/download/llvmorg-${LLVM_VER}/L
 # Create the LLVM directory and extract only binaries into it
 RUN sudo mkdir -p /home/LLVM-${LLVM_VER}
 RUN sudo tar -xJf /home/artifacts/LLVM-${LLVM_VER}-Linux-X64.tar.xz -C /home/LLVM-${LLVM_VER} --strip-components=1 \
    LLVM-${LLVM_VER}-Linux-X64/bin/clangd                   \
    LLVM-${LLVM_VER}-Linux-X64/bin/clang-19                 \
    LLVM-${LLVM_VER}-Linux-X64/bin/clang                    \
    LLVM-${LLVM_VER}-Linux-X64/bin/clang++                  \
--- a/.forgejo/workflows/pr_check.yaml
+++ b/.forgejo/workflows/pr_check.yaml
@ -120,6 +120,8 @@ jobs:
          echo "No clang-format violations detected!"
      - name: GCC build
        id: gcc_build
        continue-on-error: true
        run: |
          mkdir -p ${{ github.workspace }}/build_gcc
          cmake -Wno-dev \
@ -129,32 +131,56 @@ jobs:
            -B ${{ github.workspace }}/build_gcc \
            -GNinja -DCMAKE_BUILD_TYPE=Release   \
            -DENABLE_EXAMPLES=ON                 \
-            -DENABLE_TESTS=ON
+            -DENABLE_TESTS=ON                    \
            -DCMAKE_CXX_FLAGS="-ftemplate-backtrace-limit=0"
          cmake --build ${{ github.workspace }}/build_gcc --parallel `nproc`
      - name: GCC unit tests
        id: gcc_unit_tests
        continue-on-error: true
        run: |
          cd ${{ github.workspace }}/build_gcc
          ./larra_xmpp_tests
      - name: Clang build (only configuring)
        id: clang_build
        continue-on-error: true
        run: |
          export LLVM_VER=19.1.1
          export PATH="/home/LLVM-${LLVM_VER}/bin:${PATH}"
          mkdir -p ${{ github.workspace }}/build_clang
          cmake -Wno-dev                           \
            -DCMAKE_C_COMPILER=clang               \
            -DCMAKE_CXX_COMPILER=clang++           \
            -S ${{ github.workspace }}             \
            -B ${{ github.workspace }}/build_clang \
            -GNinja -DCMAKE_BUILD_TYPE=Release     \
            -DENABLE_EXAMPLES=ON                   \
            -DENABLE_TESTS=ON                      \
            -DCMAKE_CXX_FLAGS="-stdlib=libc++ -I/home/LLVM-${LLVM_VER}/include/c++/v1 -fno-modules"
          echo "::group::compile_commands.json content"
          cat ${{ github.workspace }}/build_clang/compile_commands.json
          echo "::endgroup::"
          sed -i 's|@.*\.modmap||' ${{ github.workspace }}/build_clang/compile_commands.json
      - name: Check clang-tidy
        id: clang_tidy
        continue-on-error: true
        run: |
          export LLVM_VER=19.1.1
          export PATH="/home/LLVM-${LLVM_VER}/bin:${PATH}"
          cd ${{ github.workspace }}
          sed -i 's|/usr/sbin/g++|/home/LLVM-19.1.1/bin/clang++ -stdlib=libc++ -I/home/LLVM-${LLVM_VER}/include/c++/v1|' build_gcc/compile_commands.json
          sed -i 's|-fdeps-format=p1689r5||' build_gcc/compile_commands.json
          sed -i 's|-fmodules-ts||' build_gcc/compile_commands.json
          sed -i 's|-fmodule-mapper=.*\.modmap||' build_gcc/compile_commands.json
          wget https://raw.githubusercontent.com/llvm/llvm-project/refs/heads/main/clang-tools-extra/clang-tidy/tool/run-clang-tidy.py
          python run-clang-tidy.py                           \
            -warnings-as-errors=*                            \
            -use-color                                       \
            -exclude-header-filter .*build.*                 \
            -header-filter .hpp                              \
-            -p ${{ github.workspace }}/build_gcc/            \
+            -p ${{ github.workspace }}/build_clang/          \
            -config-file ${{ github.workspace }}/.clang-tidy \
            \
            ${{ github.workspace }}/examples \
@ -163,22 +189,9 @@ jobs:
          echo "No clang-tidy violations detected!"
-      #- name: Clang build with -fsanitize=address
+      - name: Check on failures
-      #  run: |
+        if: steps.gcc_build.outcome != 'success' || steps.gcc_unit_tests.outcome != 'success' || steps.clang_build.outcome != 'success' || steps.clang_tidy.outcome != 'success'
-      #    export LLVM_VER=19.1.1
+        run: exit 1
      #    export PATH="/home/LLVM-${LLVM_VER}/bin:${PATH}"
      #    mkdir -p ${{ github.workspace }}/build_clang
      #    cmake -Wno-dev                           \
      #      -DCMAKE_C_COMPILER=clang               \
      #      -DCMAKE_CXX_COMPILER=clang++           \
      #      -S ${{ github.workspace }}             \
      #      -B ${{ github.workspace }}/build_clang \
      #      -GNinja -DCMAKE_BUILD_TYPE=Release     \
      #      -DENABLE_EXAMPLES=ON                   \
      #      -DENABLE_TESTS=ON                      \
      #      -DCMAKE_CXX_FLAGS="-stdlib=libc++ -I/home/LLVM-${LLVM_VER}/include/c++/v1 -fno-omit-frame-pointer -g -fsanitize=address,undefined,leak,function,nullability,vptr" \
      #      -DCMAKE_EXE_LINKER_FLAGS="-L/home/LLVM-${LLVM_VER}/lib/ -Wl,-rpath,/home/LLVM-${LLVM_VER}/lib -lc++ -lc++abi -lm -lc -lgcc_s -lgcc -fno-omit-frame-pointer -g  -fsanitize=address,undefined,leak,function,nullability,vptr"
      #    cmake --build ${{ github.workspace }}/build_clang --parallel `nproc`
      #- name: Clang unit tests with -fsanitize=address
      #  run: |
--- a/library/include/larra/serialization.hpp
+++ b/library/include/larra/serialization.hpp
@ -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::ParsingError{
          std::format("[{}: {}] parsing error: [ StartCheck failed ]", Serialization::kDefaultName, nameof::nameof_full_type<T>())};
    }
    return T::Parse(element);
  }
--- a/library/include/larra/serialization/auto.hpp
+++ b/library/include/larra/serialization/auto.hpp
@ -0,0 +1,270 @@
 #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;
 template <typename T>
 constexpr auto Serialize(xmlpp::Element* node, const T& element) -> void
  requires(!std::same_as<std::decay_t<decltype(kSerializationConfig<T>)>, std::monostate>);
 template <typename T>
 constexpr auto Serialize(xmlpp::Element* node, const T& element) -> void;
 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;
 };
 // GCC workaround: operator==
 struct AttributeConfig {
  auto operator==(const AttributeConfig&) const -> bool = default;
  template <typename T>
  constexpr auto operator==(const Config<T>&) const -> bool {
    return false;
  }
  template <typename T>
  friend constexpr auto operator==(const Config<T>&, const AttributeConfig&) -> bool {
    return false;
  }
 };
 template <typename T>
 constexpr auto operator==(const Config<T>&, const Config<T>&) -> bool {
  return false;
 }
 template <>
 struct Config<std::string> {
  std::optional<std::string_view> defaultValue;
 };
 namespace impl {
 template <typename T>
 concept HasParse = requires(xmlpp::Element* e) {
  { T::Parse(e) } -> std::same_as<T>;
 };
 template <typename T, typename V>
 struct Config : V {
  using V::V;
  constexpr Config()
    requires HasParse<T>
      : V(::larra::xmpp::serialization::Config<T>{}) {
  }
  constexpr Config()
    requires(!HasParse<T>)
      : V(AttributeConfig{}) {
  }
  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 ElementParsingError(std::format("[{}: {}] parsing error: [ Not found ]", Info::kName, nameof::nameof_full_type<T>()));
    }
    auto elementNode = dynamic_cast<xmlpp::Element*>(node);
    if(!node) {
      throw ElementParsingError(std::format("[{}: {}] parsing error: [ Invalid node ]", Info::kName, nameof::nameof_full_type<T>()));
    }
    try {
      return ::larra::xmpp::serialization::Parse(elementNode, Tag<T>{});
    } catch(const std::exception& error) {
      throw ElementParsingError(std::format("[{}: {}] parsing error: [ {} ]", Info::kName, nameof::nameof_full_type<T>(), error.what()));
    }
  }
  static constexpr auto Serialize(xmlpp::Element* node, const T& element) {
    auto created = node->add_child_element(Info::kName);
    if(!node) {
      throw ElementSerializaionError(
          std::format("[{}: {}] serialization error: [ node creation failed ]", Info::kName, nameof::nameof_full_type<T>()));
    }
    try {
      ::larra::xmpp::serialization::Serialize(created, element);
    } catch(const std::exception& err) {
      throw ElementSerializaionError(
          std::format("[{}: {}] serialization error: [ {} ]", Info::kName, nameof::nameof_full_type<T>(), err.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) -> std::decay_t<decltype(Config)>::type {
  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 AttributeParsingError(std::format("Attribute [{}: {}] parsing error", Info::kName, nameof::nameof_full_type<Type>()));
    }
    if constexpr(requires(std::string_view view) { Type::Parse(view); }) {
      return Type::Parse(node->get_value());
    } else {
      return node->get_value();
    }
  } else {
    return ElementSerializer<Type, Config, Info>::Parse(main);
  }
 }
 template <auto& Config, typename Info, typename T>
 auto SerializeField(xmlpp::Element* main, const T& obj) {
  if constexpr(std::holds_alternative<AttributeConfig>(Config.Base())) {
    auto node = main->set_attribute(Info::kName, [&] -> decltype(auto) {
      if constexpr(requires {
                     { ToString(obj) } -> std::convertible_to<const std::string&>;
                   }) {
        return ToString(obj);
      } else {
        return obj;
      }
    }());
    if(!node) {
      throw AttributeSerializationError(
          std::format("[{}: {}] parsing error: [ node creation failed ]", Info::kName, nameof::nameof_full_type<T>()));
    }
  } else {
    ElementSerializer<T, Config, Info>::Serialize(main, obj);
  }
 }
 }  // namespace impl
 template <typename T>
 struct SerializationConfig {
  decltype([] {
    return [](auto... is) {
      return utempl::Tuple<typename ElementConfig<boost::pfr::tuple_element_t<*is, T>>::type...>{};
    } | 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 = kDeserializationConfig<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 ParsingError& error) {
      throw ElementParsingError(std::format("[{}] parsing error: [ {} ]", nameof::nameof_full_type<T>(), error.what()));
    }
  });
 }
 template <typename T>
 constexpr auto Serialize(xmlpp::Element* node, const T& element) -> void
  requires(!std::same_as<std::decay_t<decltype(kSerializationConfig<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 {
      (impl::SerializeField<*((*configs).second), FieldInfo<T, (*configs).first>>(node, boost::pfr::get<(*configs).first>(element)), ...);
    } catch(const ParsingError& error) {
      throw ElementParsingError(std::format("[{}] parsing error: [ {} ]", nameof::nameof_full_type<T>(), error.what()));
    }
  });
 }
 template <typename T>
 constexpr auto Serialize(xmlpp::Element* node, const T& element) -> void {
  Serialization<T>::Serialize(node, element);
 }
 }  // namespace larra::xmpp::serialization
--- a/library/include/larra/serialization/error.hpp
+++ b/library/include/larra/serialization/error.hpp
@ -0,0 +1,30 @@
 #pragma once
 #include <stdexcept>
 namespace larra::xmpp::serialization {
 struct ParsingError : std::runtime_error {
  using std::runtime_error::runtime_error;
 };
 struct AttributeParsingError : ParsingError {
  using ParsingError::ParsingError;
 };
 struct ElementParsingError : ParsingError {
  using ParsingError::ParsingError;
 };
 struct SerializationError : std::runtime_error {
  using std::runtime_error::runtime_error;
 };
 struct AttributeSerializationError : SerializationError {
  using SerializationError::SerializationError;
 };
 struct ElementSerializaionError : SerializationError {
  using SerializationError::SerializationError;
 };
 }  // namespace larra::xmpp::serialization
--- a/tests/serialization.cpp
+++ b/tests/serialization.cpp
@ -1,8 +1,13 @@
 #include <gtest/gtest.h>
 #include <larra/jid.hpp>
 #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 +26,136 @@ 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 "
+            "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<stream:error><unsupported-stanza-type "
-                             "xmlns=\"urn:ietf:params:xml:ns:xmpp-streams\"/></stream:error>\n"});
+            "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;
  friend auto operator<<(xmlpp::Element* element, const SomeStruct& self);
 };
 struct SomeStruct2 {
  static constexpr auto kDefaultName = "some2";
  SomeStruct value;
  [[nodiscard]] static auto Parse(xmlpp::Element* element) -> SomeStruct2;
  friend auto operator<<(xmlpp::Element* element, const SomeStruct2& self);
 };
 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;
 };
 struct SomeStruct5 {
  static constexpr auto kDefaultName = "some5";
  BareJid value;
  [[nodiscard]] static auto Parse(xmlpp::Element* element) -> SomeStruct5;
  friend auto operator<<(xmlpp::Element* element, const SomeStruct5& self);
 };
 }  // 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>{};
 template <>
 constexpr auto kSerializationConfig<tests::serialization::SomeStruct4> = SerializationConfig<tests::serialization::SomeStruct4>{};
 template <>
 constexpr auto kSerializationConfig<tests::serialization::SomeStruct5> = SerializationConfig<tests::serialization::SomeStruct5>{};
 }  // namespace serialization
 namespace tests::serialization {
 auto SomeStruct::Parse(xmlpp::Element* element) -> SomeStruct {
  return ::larra::xmpp::serialization::Parse<tests::serialization::SomeStruct>(element);
 }
 auto SomeStruct2::Parse(xmlpp::Element* element) -> SomeStruct2 {
  return ::larra::xmpp::serialization::Parse<tests::serialization::SomeStruct2>(element);
 }
 auto SomeStruct3::Parse(xmlpp::Element*) -> SomeStruct3 {
  return {.value = 42};  // NOLINT
 }
 auto SomeStruct4::Parse(xmlpp::Element* element) -> SomeStruct4 {
  return ::larra::xmpp::serialization::Parse<tests::serialization::SomeStruct4>(element);
 }
 auto SomeStruct5::Parse(xmlpp::Element* element) -> SomeStruct5 {
  return ::larra::xmpp::serialization::Parse<tests::serialization::SomeStruct5>(element);
 }
 auto operator<<(xmlpp::Element* element, const SomeStruct& self) {
  ::larra::xmpp::serialization::Serialize(element, self);
 }
 auto operator<<(xmlpp::Element* element, const SomeStruct2& self) {
  ::larra::xmpp::serialization::Serialize(element, self);
 }
 auto operator<<(xmlpp::Element* element, const SomeStruct5& self) {
  ::larra::xmpp::serialization::Serialize(element, self);
 }
 }  // namespace tests::serialization
 TEST(AutoParse, Basic) {
  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::ParsingError);
  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);
 }
 TEST(AutoParse, Attribute) {
  xmlpp::Document doc;
  auto node = doc.create_root_node("some5");
  node->set_attribute("value", "user@server.i2p");
  auto a = Serialization<tests::serialization::SomeStruct5>::Parse(node);
  EXPECT_EQ(a.value.server, "server.i2p"sv);
  EXPECT_EQ(a.value.username, "user"sv);
 }
 TEST(AutoSerialize, Basic) {
  xmlpp::Document doc;
  auto node = doc.create_root_node("some2");
  node << tests::serialization::SomeStruct2{.value = {.value = "testData"}};
  EXPECT_EQ(doc.write_to_string(), "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<some2><some value=\"testData\"/></some2>\n");
 }
 TEST(AutoSerialize, Attribute) {
  xmlpp::Document doc;
  auto node = doc.create_root_node("some5");
  node << tests::serialization::SomeStruct5{.value = {.username = "user", .server = "server.i2p"}};
  EXPECT_EQ(doc.write_to_string(), "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<some5 value=\"user@server.i2p\"/>\n");
 }
 }  // namespace larra::xmpp
Author	SHA1	Message	Date
Ivan-lis	d1dc6f8e24	CI: Added configuring clang for tidy checks All checks were successful PR Check / on-push-commit-check (push) Successful in 14m12s Details	2024-11-08 15:38:02 +00:00
sha512sum	0d471b579a	Merge pull request 'Automatic serialization/deserialization code generation' (#1 ) from feature_serialization into main All checks were successful PR Check / on-push-commit-check (push) Successful in 13m4s Details Reviewed-on: http://ivt5wiimhwpo56td6eodn2n3fduug3bglqvqewbk2jnyl4hcimea.b32.i2p/git/git/Larra/larra/pulls/1	2024-11-08 13:45:23 +00:00
sha512sum	2c0111f9d7	Add automatic serialization/deserialization generation All checks were successful PR Check / on-push-commit-check (push) Successful in 13m11s Details	2024-11-08 12:50:17 +00:00