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#ifndef __AMF3__H__
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#define __AMF3__H__
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#include "dCommonVars.h"
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#include "Logger.h"
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#include "Game.h"
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#include <unordered_map>
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#include <vector>
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enum class eAmf : uint8_t {
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Undefined = 0x00, // An undefined AMF Value
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Null = 0x01, // A null AMF value
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False = 0x02, // A false AMF value
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True = 0x03, // A true AMF value
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Integer = 0x04, // An integer AMF value
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Double = 0x05, // A double AMF value
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String = 0x06, // A string AMF value
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XMLDoc = 0x07, // Unused in the live client and cannot be serialized without modification. An XML Doc AMF value
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Date = 0x08, // Unused in the live client and cannot be serialized without modification. A date AMF value
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Array = 0x09, // An array AMF value
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Object = 0x0A, // Unused in the live client and cannot be serialized without modification. An object AMF value
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XML = 0x0B, // Unused in the live client and cannot be serialized without modification. An XML AMF value
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ByteArray = 0x0C, // Unused in the live client and cannot be serialized without modification. A byte array AMF value
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VectorInt = 0x0D, // Unused in the live client and cannot be serialized without modification. An integer vector AMF value
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VectorUInt = 0x0E, // Unused in the live client and cannot be serialized without modification. An unsigned integer AMF value
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VectorDouble = 0x0F, // Unused in the live client and cannot be serialized without modification. A double vector AMF value
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VectorObject = 0x10, // Unused in the live client and cannot be serialized without modification. An object vector AMF value
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Dictionary = 0x11 // Unused in the live client and cannot be serialized without modification. A dictionary AMF value
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};
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class AMFBaseValue {
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public:
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[[nodiscard]] constexpr virtual eAmf GetValueType() const noexcept { return eAmf::Undefined; }
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constexpr AMFBaseValue() noexcept = default;
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constexpr virtual ~AMFBaseValue() noexcept = default;
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};
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// AMFValue template class instantiations
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template <typename ValueType>
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class AMFValue : public AMFBaseValue {
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public:
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AMFValue() = default;
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AMFValue(const ValueType value) : m_Data{ value } {}
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virtual ~AMFValue() override = default;
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[[nodiscard]] constexpr eAmf GetValueType() const noexcept override;
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[[nodiscard]] const ValueType& GetValue() const { return m_Data; }
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void SetValue(const ValueType value) { m_Data = value; }
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protected:
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ValueType m_Data;
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};
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// Explicit template class instantiations
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template class AMFValue<std::nullptr_t>;
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template class AMFValue<bool>;
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template class AMFValue<int32_t>;
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template class AMFValue<uint32_t>;
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template class AMFValue<std::string>;
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template class AMFValue<double>;
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// AMFValue template class member function instantiations
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template <> [[nodiscard]] constexpr eAmf AMFValue<std::nullptr_t>::GetValueType() const noexcept { return eAmf::Null; }
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template <> [[nodiscard]] constexpr eAmf AMFValue<bool>::GetValueType() const noexcept { return m_Data ? eAmf::True : eAmf::False; }
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template <> [[nodiscard]] constexpr eAmf AMFValue<int32_t>::GetValueType() const noexcept { return eAmf::Integer; }
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template <> [[nodiscard]] constexpr eAmf AMFValue<uint32_t>::GetValueType() const noexcept { return eAmf::Integer; }
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template <> [[nodiscard]] constexpr eAmf AMFValue<std::string>::GetValueType() const noexcept { return eAmf::String; }
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template <> [[nodiscard]] constexpr eAmf AMFValue<double>::GetValueType() const noexcept { return eAmf::Double; }
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template <typename ValueType>
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[[nodiscard]] constexpr eAmf AMFValue<ValueType>::GetValueType() const noexcept { return eAmf::Undefined; }
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// As a string this is much easier to write and read from a BitStream.
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template <>
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class AMFValue<const char*> : public AMFBaseValue {
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public:
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AMFValue() = default;
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AMFValue(const char* value) { m_Data = value; }
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virtual ~AMFValue() override = default;
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[[nodiscard]] constexpr eAmf GetValueType() const noexcept override { return eAmf::String; }
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[[nodiscard]] const std::string& GetValue() const { return m_Data; }
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void SetValue(const std::string& value) { m_Data = value; }
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protected:
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std::string m_Data;
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};
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using AMFNullValue = AMFValue<std::nullptr_t>;
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using AMFBoolValue = AMFValue<bool>;
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using AMFIntValue = AMFValue<int32_t>;
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using AMFStringValue = AMFValue<std::string>;
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using AMFDoubleValue = AMFValue<double>;
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/**
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* The AMFArrayValue object holds 2 types of lists:
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* An associative list where a key maps to a value
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* A Dense list where elements are stored back to back
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*
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* Objects that are Registered are owned by this object
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* and are not to be deleted by a caller.
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*/
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class AMFArrayValue : public AMFBaseValue {
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using AMFAssociative =
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std::unordered_map<std::string, std::unique_ptr<AMFBaseValue>, GeneralUtils::transparent_string_hash, std::equal_to<>>;
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using AMFDense = std::vector<std::unique_ptr<AMFBaseValue>>;
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public:
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[[nodiscard]] constexpr eAmf GetValueType() const noexcept override { return eAmf::Array; }
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/**
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* Returns the Associative portion of the object
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*/
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[[nodiscard]] inline const AMFAssociative& GetAssociative() const noexcept { return m_Associative; }
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/**
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* Returns the dense portion of the object
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*/
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[[nodiscard]] inline const AMFDense& GetDense() const noexcept { return m_Dense; }
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/**
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* Inserts an AMFValue into the associative portion with the given key.
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* If a duplicate is attempted to be inserted, it is ignored and the
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* first value with that key is kept in the map.
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*
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* These objects are not to be deleted by the caller as they are owned by
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* the AMFArray object which manages its own memory.
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*
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* @param key The key to associate with the value
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* @param value The value to insert
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*
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* @return The inserted element if the type matched,
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* or nullptr if a key existed and was not the same type
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*/
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template <typename ValueType>
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[[maybe_unused]] std::pair<AMFValue<ValueType>*, bool> Insert(const std::string_view key, const ValueType value) {
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const auto element = m_Associative.find(key);
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AMFValue<ValueType>* val = nullptr;
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bool found = true;
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if (element == m_Associative.cend()) {
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auto newVal = std::make_unique<AMFValue<ValueType>>(value);
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val = newVal.get();
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m_Associative.emplace(key, std::move(newVal));
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} else {
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val = dynamic_cast<AMFValue<ValueType>*>(element->second.get());
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found = false;
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}
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return std::make_pair(val, found);
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}
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// Associates an array with a string key
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[[maybe_unused]] std::pair<AMFBaseValue*, bool> Insert(const std::string_view key) {
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const auto element = m_Associative.find(key);
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AMFArrayValue* val = nullptr;
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bool found = true;
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if (element == m_Associative.cend()) {
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auto newVal = std::make_unique<AMFArrayValue>();
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val = newVal.get();
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m_Associative.emplace(key, std::move(newVal));
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} else {
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val = dynamic_cast<AMFArrayValue*>(element->second.get());
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found = false;
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}
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return std::make_pair(val, found);
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}
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// Associates an array with an integer key
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[[maybe_unused]] std::pair<AMFBaseValue*, bool> Insert(const size_t index) {
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bool inserted = false;
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if (index >= m_Dense.size()) {
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m_Dense.resize(index + 1);
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m_Dense.at(index) = std::make_unique<AMFArrayValue>();
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inserted = true;
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}
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return std::make_pair(dynamic_cast<AMFArrayValue*>(m_Dense.at(index).get()), inserted);
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}
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/**
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* @brief Inserts an AMFValue into the AMFArray key'd by index.
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* Attempting to insert the same key to the same value twice overwrites
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* the previous value with the new one.
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*
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* @param index The index to associate with the value
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* @param value The value to insert
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* @return The inserted element, or nullptr if the type did not match
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* what was at the index.
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*/
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template <typename ValueType>
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[[maybe_unused]] std::pair<AMFValue<ValueType>*, bool> Insert(const size_t index, const ValueType value) {
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bool inserted = false;
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if (index >= m_Dense.size()) {
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m_Dense.resize(index + 1);
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m_Dense.at(index) = std::make_unique<AMFValue<ValueType>>(value);
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inserted = true;
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}
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return std::make_pair(dynamic_cast<AMFValue<ValueType>*>(m_Dense.at(index).get()), inserted);
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}
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/**
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* Inserts an AMFValue into the associative portion with the given key.
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* If a duplicate is attempted to be inserted, it replaces the original
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*
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* The inserted element is now owned by this object and is not to be deleted
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*
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* @param key The key to associate with the value
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* @param value The value to insert
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*/
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void Insert(const std::string_view key, std::unique_ptr<AMFBaseValue> value) {
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const auto element = m_Associative.find(key);
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if (element != m_Associative.cend() && element->second) {
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element->second = std::move(value);
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} else {
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m_Associative.emplace(key, std::move(value));
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}
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}
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/**
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* Inserts an AMFValue into the associative portion with the given index.
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* If a duplicate is attempted to be inserted, it replaces the original
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*
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* The inserted element is now owned by this object and is not to be deleted
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*
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* @param key The key to associate with the value
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* @param value The value to insert
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*/
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void Insert(const size_t index, std::unique_ptr<AMFBaseValue> value) {
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if (index >= m_Dense.size()) {
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m_Dense.resize(index + 1);
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}
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m_Dense.at(index) = std::move(value);
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}
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/**
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* Pushes an AMFValue into the back of the dense portion.
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*
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* These objects are not to be deleted by the caller as they are owned by
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* the AMFArray object which manages its own memory.
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*
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* @param value The value to insert
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*
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* @return The inserted pointer, or nullptr should the key already be in use.
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*/
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template <typename ValueType>
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[[maybe_unused]] inline AMFValue<ValueType>* Push(const ValueType value) {
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return Insert(m_Dense.size(), value).first;
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}
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/**
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* Removes the key from the associative portion
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*
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* The pointer removed is now no longer managed by this container
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*
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* @param key The key to remove from the associative portion
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*/
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void Remove(const std::string& key, const bool deleteValue = true) {
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const AMFAssociative::const_iterator it = m_Associative.find(key);
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if (it != m_Associative.cend()) {
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if (deleteValue) m_Associative.erase(it);
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}
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}
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/**
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* Pops the last element in the dense portion, deleting it in the process.
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*/
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void Remove(const size_t index) {
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2024-02-25 05:03:59 +00:00
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if (!m_Dense.empty() && index < m_Dense.size()) {
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const auto itr = m_Dense.cbegin() + index;
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m_Dense.erase(itr);
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2023-05-13 22:22:00 +00:00
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}
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}
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void Pop() {
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2024-02-25 05:03:59 +00:00
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if (!m_Dense.empty()) Remove(m_Dense.size() - 1);
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2023-05-13 22:22:00 +00:00
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}
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2024-11-19 02:45:24 +00:00
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[[nodiscard]] AMFArrayValue* GetArray(const std::string_view key) const {
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2024-02-25 05:03:59 +00:00
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const AMFAssociative::const_iterator it = m_Associative.find(key);
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2024-11-19 02:45:24 +00:00
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return it != m_Associative.cend() ? dynamic_cast<AMFArrayValue*>(it->second.get()) : nullptr;
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2024-02-10 19:44:40 +00:00
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}
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2023-05-13 22:22:00 +00:00
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2024-02-18 06:38:26 +00:00
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[[nodiscard]] AMFArrayValue* GetArray(const size_t index) const {
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2024-11-19 02:45:24 +00:00
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return index < m_Dense.size() ? dynamic_cast<AMFArrayValue*>(m_Dense.at(index).get()) : nullptr;
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2024-02-10 19:44:40 +00:00
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}
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2023-05-13 22:22:00 +00:00
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2024-11-19 02:45:24 +00:00
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[[maybe_unused]] inline AMFArrayValue* InsertArray(const std::string_view key) {
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2023-05-13 22:22:00 +00:00
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return static_cast<AMFArrayValue*>(Insert(key).first);
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2024-02-10 19:44:40 +00:00
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}
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2023-05-13 22:22:00 +00:00
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2024-02-10 19:44:40 +00:00
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[[maybe_unused]] inline AMFArrayValue* InsertArray(const size_t index) {
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2023-05-13 22:22:00 +00:00
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return static_cast<AMFArrayValue*>(Insert(index).first);
|
2024-02-10 19:44:40 +00:00
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}
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2023-05-13 22:22:00 +00:00
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2024-02-10 19:44:40 +00:00
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[[maybe_unused]] inline AMFArrayValue* PushArray() {
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2024-02-25 05:03:59 +00:00
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return static_cast<AMFArrayValue*>(Insert(m_Dense.size()).first);
|
2024-02-10 19:44:40 +00:00
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}
|
2023-05-13 22:22:00 +00:00
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/**
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* Gets an AMFValue by the key from the associative portion and converts it
|
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* to the AmfValue template type. If the key did not exist, it is inserted.
|
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*
|
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* @tparam The target object type
|
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* @param key The key to lookup
|
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*
|
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* @return The AMFValue
|
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|
*/
|
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|
template <typename AmfType>
|
2024-11-19 02:45:24 +00:00
|
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|
[[nodiscard]] AMFValue<AmfType>* Get(const std::string_view key) const {
|
2024-02-25 05:03:59 +00:00
|
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|
const AMFAssociative::const_iterator it = m_Associative.find(key);
|
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|
|
return it != m_Associative.cend() ?
|
2024-11-19 02:45:24 +00:00
|
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dynamic_cast<AMFValue<AmfType>*>(it->second.get()) :
|
2023-05-13 22:22:00 +00:00
|
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|
nullptr;
|
2024-02-10 19:44:40 +00:00
|
|
|
}
|
2023-05-13 22:22:00 +00:00
|
|
|
|
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|
|
// Get from the array but dont cast it
|
2024-11-19 02:45:24 +00:00
|
|
|
[[nodiscard]] AMFBaseValue* Get(const std::string_view key) const {
|
2024-02-25 05:03:59 +00:00
|
|
|
const AMFAssociative::const_iterator it = m_Associative.find(key);
|
2024-11-19 02:45:24 +00:00
|
|
|
return it != m_Associative.cend() ? it->second.get() : nullptr;
|
2024-02-10 19:44:40 +00:00
|
|
|
}
|
2023-05-13 22:22:00 +00:00
|
|
|
|
|
|
|
/**
|
|
|
|
* @brief Get an AMFValue object at a position in the dense portion.
|
|
|
|
* Gets an AMFValue by the index from the dense portion and converts it
|
|
|
|
* to the AmfValue template type. If the index did not exist, it is inserted.
|
|
|
|
*
|
|
|
|
* @tparam The target object type
|
|
|
|
* @param index The index to get
|
|
|
|
* @return The casted object, or nullptr.
|
|
|
|
*/
|
|
|
|
template <typename AmfType>
|
2024-02-10 19:44:40 +00:00
|
|
|
[[nodiscard]] AMFValue<AmfType>* Get(const size_t index) const {
|
2024-02-25 05:03:59 +00:00
|
|
|
return index < m_Dense.size() ?
|
2024-11-19 02:45:24 +00:00
|
|
|
dynamic_cast<AMFValue<AmfType>*>(m_Dense.at(index).get()) :
|
2023-05-13 22:22:00 +00:00
|
|
|
nullptr;
|
2024-02-10 19:44:40 +00:00
|
|
|
}
|
2023-05-13 22:22:00 +00:00
|
|
|
|
|
|
|
// Get from the dense but dont cast it
|
2024-02-10 19:44:40 +00:00
|
|
|
[[nodiscard]] AMFBaseValue* Get(const size_t index) const {
|
2024-11-19 02:45:24 +00:00
|
|
|
return index < m_Dense.size() ? m_Dense.at(index).get() : nullptr;
|
2024-02-10 19:44:40 +00:00
|
|
|
}
|
|
|
|
|
2023-05-13 22:22:00 +00:00
|
|
|
private:
|
|
|
|
/**
|
|
|
|
* The associative portion. These values are key'd with strings to an AMFValue.
|
|
|
|
*/
|
2024-02-25 05:03:59 +00:00
|
|
|
AMFAssociative m_Associative;
|
2023-05-13 22:22:00 +00:00
|
|
|
|
|
|
|
/**
|
|
|
|
* The dense portion. These AMFValue's are stored one after
|
|
|
|
* another with the most recent addition being at the back.
|
|
|
|
*/
|
2024-02-25 05:03:59 +00:00
|
|
|
AMFDense m_Dense;
|
2023-05-13 22:22:00 +00:00
|
|
|
};
|
|
|
|
|
|
|
|
#endif //!__AMF3__H__
|