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@@ -28,183 +28,170 @@
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#define COMMON_EVENT_VALUE
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#include <boost/serialization/serialization.hpp>
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-#include <boost/serialization/array.hpp>
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-#include <cassert>
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-#include <cstring>
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-#include <functional>
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-#include <map>
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-#include <numeric>
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+#include <any>
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+#include <memory>
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+#include <sstream>
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#include <string>
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-#include <typeinfo>
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+#include <type_traits>
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+#include <valarray>
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#include <vector>
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namespace artis::common::event {
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+template<typename T>
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+struct HasToString {
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+ template<typename U, std::string (U::*)() const>
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+ struct SFINAE {
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+ };
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+
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+ template<typename U>
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+ static char Test(SFINAE<U, &U::to_string> *);
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+
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+ template<typename U>
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+ static int Test(...);
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+
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+ static const bool Has = sizeof(Test<T>(0)) == sizeof(char);
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+};
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+
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class Value {
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-public:
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- Value()
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- : _content(nullptr), _size(0), _type_id(0) {}
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- template<typename T>
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- Value(const T &value) { assign(&value, sizeof(T), typeid(T).hash_code()); }
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+ class Base {
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+ public:
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+ virtual ~Base() = default;
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- template<typename T>
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- Value(const T *value, size_t size) { assign(value, sizeof(T) * size, typeid(T *).hash_code()); }
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+ virtual bool operator==(const Base &other) const = 0;
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- template<typename T>
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- Value(const std::vector<T> &value) {
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- const T *v = value.data();
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+ virtual std::string to_string() const = 0;
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- assign(v, sizeof(T) * value.size(), typeid(T *).hash_code());
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- }
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+ virtual const std::type_info &type() const noexcept = 0;
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+ };
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- Value(const std::vector<bool> &value) {
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- size_t size = sizeof(bool) * value.size();
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+ template<typename T>
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+ class Data : public Base, public std::any {
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+ public:
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+ template<typename U = T, std::enable_if_t<not std::is_same_v<U, std::string>, bool> = true>
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+ Data(const U &value) : std::any(value) {}
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- _content = new char[size];
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- for (size_t i = 0; i < value.size(); ++i) {
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- _content[i] = value[i];
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- }
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- _size = size;
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- _type_id = typeid(bool *).hash_code();
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- }
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+ Data(const std::string &value) : std::any(value) {}
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- Value(void *content, size_t size) { assign(content, size, typeid(void *).hash_code()); }
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+ Data(const std::valarray<T> &value) : std::any(value) {}
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- Value(const char *value, unsigned int size) { assign(value, size * sizeof(char), typeid(char *).hash_code()); }
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+ Data(const std::vector<T> &value) : std::any(value) {}
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- Value(const Value &value) {
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- if (value._content != nullptr) {
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- assign(value._content, value._size, value._type_id);
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- } else {
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- _content = nullptr;
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- _size = 0;
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- _type_id = 0;
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+ bool operator==(const Base &other) const override {
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+ return type() == other.type() and
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+ std::any_cast<const T &>(*this) == std::any_cast<const T &>(*dynamic_cast<const Data<T> *>(&other));
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}
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- }
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- Value(Value &&value) : _content(value._content), _size(value._size), _type_id(value._type_id) {
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- value._content = nullptr;
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- value._size = 0;
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- value._type_id = 0;
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- }
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+ template<typename U>
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+ void operator()(U &value) const {
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+ value = std::any_cast<const U &>(*this);
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+ }
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- virtual ~Value() {
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- delete[] _content;
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- }
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+ std::string to_string() const override {
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+ std::stringstream ss;
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+
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+ if constexpr (HasToString<T>::Has) {
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+ if (type() == typeid(std::vector<T>)) {
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+ const std::vector<T> &values = std::any_cast<const std::vector<T> &>(*this);
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+
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+ for (const auto &e: values) {
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+ ss << std::boolalpha << e.to_string() << " ";
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+ }
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+ } else {
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+ ss << std::any_cast<const T &>(*this).to_string();
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+ }
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+ } else {
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+ if (type() == typeid(std::string)) {
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+ ss << std::any_cast<const std::string &>(*this);
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+ } else if (type() == typeid(std::valarray<T>)) {
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+ const std::valarray<T> &values = std::any_cast<const std::valarray<T> &>(*this);
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+
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+ for (const auto &e: values) {
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+ ss << std::boolalpha << e << " ";
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+ }
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+ } else if (type() == typeid(std::vector<T>)) {
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+ const std::vector<T> &values = std::any_cast<const std::vector<T> &>(*this);
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+
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+ for (const auto &e: values) {
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+ ss << std::boolalpha << e << " ";
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+ }
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+ } else {
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+ ss << std::boolalpha << std::any_cast<const T &>(*this);
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+ }
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+ }
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+ return ss.str();
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+ }
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- bool is_null() const { return _content == nullptr; }
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+ const std::type_info &type() const noexcept override { return std::any::type(); }
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- template<typename Z>
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- bool is_type() const { return _type_id == typeid(Z).hash_code(); }
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+ private:
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+ using _type = T;
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+ };
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- bool operator==(const Value &other) const {
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- return _type_id == other._type_id and _size == other._size
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- and std::memcmp(_content, other._content, _size) == 0;
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- }
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-
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- template<typename T>
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- void operator()(T &value) const {
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+public:
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+ Value() : _data(nullptr) {}
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- assert(_type_id == typeid(T).hash_code());
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+ Value(const Value& value) : _data(value._data) {}
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- value = *(T *) (_content);
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- }
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+ template<typename T, std::enable_if_t<not HasToString<T>::Has, bool> = true>
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+ Value(const T &value) : _data(new Data<T>(value)) {}
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template<typename T>
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- void operator()(T *&value) const {
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+ Value(const std::vector<T> &value) : _data(new Data<T>(value)) {}
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- assert(_type_id == typeid(T *).hash_code());
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+ template<typename T, std::enable_if_t<HasToString<T>::Has, bool> = true>
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+ Value(const T &value) : _data(new Data<T>(value)) {}
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- value = (T *) (_content);
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- }
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+ template<typename T, size_t size, std::enable_if_t<std::is_same<T, char>::value, bool> = true>
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+ Value(const T (&value)[size]) : _data(new Data<T>(std::string(value, size))) {}
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template<typename T>
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- void operator()(std::vector<T> &value) const {
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- assert(_type_id == typeid(T *).hash_code());
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+ Value(const T *value, size_t size) : _data(new Data<T>(std::valarray<T>(value, size))) {}
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- size_t size = _size / sizeof(T);
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+ bool is_null() const { return _data.get() == nullptr; }
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- for (size_t i = 0; i < size; ++i) {
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- value.push_back(((T *) (_content))[i]);
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- }
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- }
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+ template<typename Z>
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+ bool is_type() const { return _data->type() == typeid(Z); }
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- Value &operator=(const Value &value) {
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- delete[] _content;
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- if (value._content != nullptr) {
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- assign(value._content, value._size, value._type_id);
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- } else {
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- _content = nullptr;
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- _size = 0;
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- _type_id = 0;
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- }
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+ Value& operator=(const Value &other) {
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+ _data = other._data;
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return *this;
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}
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- Value &operator=(Value &&value) {
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- delete[] _content;
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- _content = value._content;
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- value._content = nullptr;
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- _size = value._size;
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- value._size = 0;
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- _type_id = value._type_id;
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- value._type_id = 0;
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- return *this;
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+ bool operator==(const Value &other) const {
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+ return _data->operator==(*other._data);
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}
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- template<typename Z>
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- size_t size() const {
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+ template<typename T>
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+ void operator()(T &value) const {
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+ dynamic_cast<Data<T> *>(_data.get())->operator()(value);
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+ }
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- assert(is_type<Z *>());
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+ template<typename T>
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+ void operator()(std::vector<T> &value) const {
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+ dynamic_cast<Data<T> *>(_data.get())->operator()(value);
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+ }
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- return _size / sizeof(Z);
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+ template<typename T>
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+ void operator()(std::valarray<T> &value) const {
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+ dynamic_cast<Data<T> *>(_data.get())->operator()(value);
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}
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std::string to_string() const {
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- if (is_null()) {
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- return "<null>";
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- }
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-
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- auto it = convert.find(_type_id);
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-
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- if (it != convert.cend()) {
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- return it->second(*this);
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- }
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- return "<unstringify>";
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+ return _data->to_string();
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}
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private:
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- typedef std::map<unsigned long, std::function<std::string(const artis::common::event::Value &)>> ConvertFunctions;
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-
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- static const ConvertFunctions convert;
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-
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- void assign(const void *content, size_t size, size_t type_id) {
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- _content = new char[size];
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- std::memcpy(_content, content, size);
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- _size = size;
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- _type_id = type_id;
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- }
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-
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friend class boost::serialization::access;
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template<typename Archive>
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void serialize(Archive &ar, const unsigned int version) {
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- (void) version;
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-
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- ar & _size;
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- if (Archive::is_loading::value) {
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- assert(_content == nullptr);
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- _content = new char[_size];
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- }
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- ar & boost::serialization::make_array<char>(_content, _size);
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- ar & _type_id;
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+ // TODO
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}
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- char *_content = nullptr;
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- size_t _size = 0;
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- size_t _type_id = 0;
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+ std::shared_ptr<Base> _data;
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};
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std::ostream& operator<<(std::ostream& o, const artis::common::event::Value& value);
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