mirror of
https://github.com/borgesdan/xn65
synced 2024-12-29 21:54:47 +01:00
126 lines
4.7 KiB
C++
126 lines
4.7 KiB
C++
#ifndef XNA_CONTENT_TYPEREADER_HPP
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#define XNA_CONTENT_TYPEREADER_HPP
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#include "../csharp/type.hpp"
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#include "../default.hpp"
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#include <algorithm>
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#include <map>
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#include <any>
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namespace xna {
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//-------------------------------------------------------//
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// ContentTypeReader //
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//-------------------------------------------------------//
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//Worker for reading a specific managed type from a binary format.
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class ContentTypeReader {
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public:
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virtual Int TypeVersion() { return 0; }
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virtual bool CanDeserializeIntoExistingObject() { return false; }
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//Retrieves and caches nested type readers. Called by the framework at creation time.
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virtual void Initialize(sptr<ContentTypeReaderManager> const& manager) {}
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//Gets the type handled by this reader component.
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sptr<Type> TargetType() { return _targetType; }
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//Reads a strongly typed object from the current stream.
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virtual std::any Read(ContentReader& input, std::any& existingInstance) = 0;
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protected:
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ContentTypeReader(sptr<Type> const& targetType) : _targetType(targetType)
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{
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}
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public:
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//Let's admit that the target is primarily of type value, if not it must be manually set to false
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bool TargetIsValueType{ true };
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private:
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sptr<Type> _targetType = nullptr;
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};
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//Worker for reading a specific managed type from a binary format.
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//Derive from this class to add new data types to the content pipeline system.
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template <class T>
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class ContentTypeReaderT : public ContentTypeReader {
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public:
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//For some reason ListReader<T> needs a default constructor
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ContentTypeReaderT() : ContentTypeReader(typeof<T>()) {}
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protected:
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ContentTypeReaderT(sptr<Type> const& targetType) : ContentTypeReader(targetType) {}
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public:
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//Reads a strongly typed object from the current stream.
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std::any Read(ContentReader& input, std::any& existingInstance) override {
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if (existingInstance.has_value() && !(existingInstance.type() == typeid(T)))
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throw std::runtime_error("ContentTypeReader<T>::Read: bad xbn, wrong type.");
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auto existingInstance1 = XnaHelper::ReturnDefaultOrNull<T>();
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auto obj = Read(input, existingInstance1);
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return obj;
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}
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//Reads a strongly typed object from the current stream.
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virtual T Read(ContentReader& input, T& existingInstance) = 0;
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};
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//-------------------------------------------------------//
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// ContentTypeReaderActivador //
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//-------------------------------------------------------//
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class ContentTypeReaderActivador {
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public:
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using Activador = sptr<ContentTypeReader>(*)();
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static sptr<ContentTypeReader> CreateInstance(sptr<Type> const& type);
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static void SetActivador(sptr<Type> const& type, Activador activador);
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private:
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inline static auto activators = std::map<size_t, Activador>();
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ContentTypeReaderActivador();
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ContentTypeReaderActivador(ContentTypeReaderActivador&&);
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ContentTypeReaderActivador(ContentTypeReaderActivador&);
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};
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using PContentTypeReader = sptr<ContentTypeReader>;
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using PType = sptr<Type>;
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//-------------------------------------------------------//
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// ContentTypeReaderManager //
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//-------------------------------------------------------//
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//A manager that constructs and keeps track of type reader objects.
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class ContentTypeReaderManager {
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public:
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static std::vector<PContentTypeReader> ReadTypeManifest(Int typeCount, sptr<ContentReader>& contentReader);
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//Looks up a reader for the specified type.
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static sptr<ContentTypeReader> GetTypeReader(sptr<Type> const& targetType);
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inline static bool ContainsTypeReader(sptr<Type> const& targetType) {
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return ContentTypeReaderManager::targetTypeToReader.contains(targetType);
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}
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private:
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ContentTypeReaderManager(sptr<ContentReader>& contentReader);
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static sptr<ContentTypeReader> GetTypeReader(String const& readerTypeName, sptr<ContentReader>& contentReader, std::vector<PContentTypeReader>& newTypeReaders);
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static bool InstantiateTypeReader(String const& readerTypeName, sptr<ContentReader>& contentReader, sptr<ContentTypeReader>& reader);
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static void AddTypeReader(String const& readerTypeName, sptr<ContentReader>& contentReader, sptr<ContentTypeReader>& reader);
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static void RollbackAddReaders(std::vector<sptr<ContentTypeReader>>& newTypeReaders);
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static void RollbackAddReader(std::map<String, PContentTypeReader>& dictionary, sptr<ContentTypeReader>& reader);
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static void RollbackAddReader(std::map<PType, PContentTypeReader>& dictionary, sptr<ContentTypeReader>& reader);
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private:
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sptr<ContentReader> contentReader = nullptr;
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inline static auto nameToReader = std::map<String, PContentTypeReader>();
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inline static auto targetTypeToReader = std::map<PType, PContentTypeReader>();
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inline static auto readerTypeToReader = std::map<PType, PContentTypeReader>();
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static void initMaps();
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};
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}
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#endif |