Green-Sky/tomato
Green-Sky/tomato
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refactoring, add to mainscreen

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Green Sky 2024-02-13 12:30:29 +01:00
parent 98ab974515
commit e67d7d37b5
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11 changed files with 214 additions and 117 deletions
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7
src/CMakeLists.txt
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@ -2,6 +2,11 @@ cmake_minimum_required(VERSION 3.9 FATAL_ERROR)
add_library(fragment_store add_library(fragment_store
./fragment_store/fragment_store_i.hpp ./fragment_store/fragment_store_i.hpp
./fragment_store/types.hpp
./fragment_store/meta_components.hpp
./fragment_store/meta_components_id.inl
./fragment_store/serializer.hpp
./fragment_store/serializer.cpp
./fragment_store/fragment_store.hpp ./fragment_store/fragment_store.hpp
./fragment_store/fragment_store.cpp ./fragment_store/fragment_store.cpp
) )
@ -106,6 +111,8 @@ target_link_libraries(tomato PUBLIC
solanaceae_tox_contacts solanaceae_tox_contacts
solanaceae_tox_messages solanaceae_tox_messages
fragment_store
SDL3::SDL3 SDL3::SDL3
imgui imgui

59
src/fragment_store/fragment_store.cpp
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@ -51,7 +51,7 @@ FragmentStore::FragmentStore(
registerSerializers(); registerSerializers();
} }
entt::basic_handle<entt::basic_registry<FragmentID>> FragmentStore::fragmentHandle(FragmentID fid) { FragmentStore::FragmentHandle FragmentStore::fragmentHandle(FragmentID fid) {
return {_reg, fid}; return {_reg, fid};
} }
@ -107,7 +107,7 @@ FragmentID FragmentStore::newFragmentMemoryOwned(
const auto new_frag = _reg.create(); const auto new_frag = _reg.create();
_reg.emplace<Components::ID>(new_frag, id); _reg.emplace<FragComp::ID>(new_frag, id);
// TODO: memory comp // TODO: memory comp
_reg.emplace<std::unique_ptr<std::vector<uint8_t>>>(new_frag) = std::move(new_data); _reg.emplace<std::unique_ptr<std::vector<uint8_t>>>(new_frag) = std::move(new_data);
@ -149,12 +149,12 @@ FragmentID FragmentStore::newFragmentFile(
const auto new_frag = _reg.create(); const auto new_frag = _reg.create();
_reg.emplace<Components::ID>(new_frag, id); _reg.emplace<FragComp::ID>(new_frag, id);
// file (info) comp // file (info) comp
_reg.emplace<Components::Ephemeral::FilePath>(new_frag, fragment_file_path.generic_u8string()); _reg.emplace<FragComp::Ephemeral::FilePath>(new_frag, fragment_file_path.generic_u8string());
_reg.emplace<Components::Ephemeral::MetaFileType>(new_frag, mft); _reg.emplace<FragComp::Ephemeral::MetaFileType>(new_frag, mft);
// meta needs to be synced to file // meta needs to be synced to file
std::function<write_to_storage_fetch_data_cb> empty_data_cb = [](const uint8_t*, uint64_t) -> uint64_t { return 0; }; std::function<write_to_storage_fetch_data_cb> empty_data_cb = [](const uint8_t*, uint64_t) -> uint64_t { return 0; };
@ -177,7 +177,7 @@ FragmentID FragmentStore::getFragmentByID(
) { ) {
// TODO: accelerate // TODO: accelerate
// maybe keep it sorted and binary search? hash table lookup? // maybe keep it sorted and binary search? hash table lookup?
for (const auto& [frag, id_comp] : _reg.view<Components::ID>().each()) { for (const auto& [frag, id_comp] : _reg.view<FragComp::ID>().each()) {
if (id == id_comp.v) { if (id == id_comp.v) {
return frag; return frag;
} }
@ -206,7 +206,7 @@ bool FragmentStore::syncToStorage(FragmentID fid, std::function<write_to_storage
return false; return false;
} }
if (!_reg.all_of<Components::Ephemeral::FilePath>(fid)) { if (!_reg.all_of<FragComp::Ephemeral::FilePath>(fid)) {
// not a file fragment? // not a file fragment?
return false; return false;
} }
@ -214,20 +214,20 @@ bool FragmentStore::syncToStorage(FragmentID fid, std::function<write_to_storage
// split object storage // split object storage
MetaFileType meta_type = MetaFileType::TEXT_JSON; // TODO: better defaults MetaFileType meta_type = MetaFileType::TEXT_JSON; // TODO: better defaults
if (_reg.all_of<Components::Ephemeral::MetaFileType>(fid)) { if (_reg.all_of<FragComp::Ephemeral::MetaFileType>(fid)) {
meta_type = _reg.get<Components::Ephemeral::MetaFileType>(fid).type; meta_type = _reg.get<FragComp::Ephemeral::MetaFileType>(fid).type;
} }
Encryption meta_enc = Encryption::NONE; // TODO: better defaults Encryption meta_enc = Encryption::NONE; // TODO: better defaults
Compression meta_comp = Compression::NONE; // TODO: better defaults Compression meta_comp = Compression::NONE; // TODO: better defaults
if (meta_type != MetaFileType::TEXT_JSON) { if (meta_type != MetaFileType::TEXT_JSON) {
if (_reg.all_of<Components::Ephemeral::MetaEncryptionType>(fid)) { if (_reg.all_of<FragComp::Ephemeral::MetaEncryptionType>(fid)) {
meta_enc = _reg.get<Components::Ephemeral::MetaEncryptionType>(fid).enc; meta_enc = _reg.get<FragComp::Ephemeral::MetaEncryptionType>(fid).enc;
} }
if (_reg.all_of<Components::Ephemeral::MetaCompressionType>(fid)) { if (_reg.all_of<FragComp::Ephemeral::MetaCompressionType>(fid)) {
meta_comp = _reg.get<Components::Ephemeral::MetaCompressionType>(fid).comp; meta_comp = _reg.get<FragComp::Ephemeral::MetaCompressionType>(fid).comp;
} }
} else { } else {
// we cant have encryption or compression // we cant have encryption or compression
@ -236,15 +236,15 @@ bool FragmentStore::syncToStorage(FragmentID fid, std::function<write_to_storage
// TODO: forcing for testing // TODO: forcing for testing
//if (_reg.all_of<Components::Ephemeral::MetaEncryptionType>(fid)) { //if (_reg.all_of<Components::Ephemeral::MetaEncryptionType>(fid)) {
_reg.emplace_or_replace<Components::Ephemeral::MetaEncryptionType>(fid, Encryption::NONE); _reg.emplace_or_replace<FragComp::Ephemeral::MetaEncryptionType>(fid, Encryption::NONE);
//} //}
//if (_reg.all_of<Components::Ephemeral::MetaCompressionType>(fid)) { //if (_reg.all_of<Components::Ephemeral::MetaCompressionType>(fid)) {
_reg.emplace_or_replace<Components::Ephemeral::MetaCompressionType>(fid, Compression::NONE); _reg.emplace_or_replace<FragComp::Ephemeral::MetaCompressionType>(fid, Compression::NONE);
//} //}
} }
std::ofstream meta_file{ std::ofstream meta_file{
_reg.get<Components::Ephemeral::FilePath>(fid).path + ".meta" + metaFileTypeSuffix(meta_type), _reg.get<FragComp::Ephemeral::FilePath>(fid).path + ".meta" + metaFileTypeSuffix(meta_type),
std::ios::out | std::ios::trunc | std::ios::binary // always binary, also for text std::ios::out | std::ios::trunc | std::ios::binary // always binary, also for text
}; };
@ -253,7 +253,7 @@ bool FragmentStore::syncToStorage(FragmentID fid, std::function<write_to_storage
} }
std::ofstream data_file{ std::ofstream data_file{
_reg.get<Components::Ephemeral::FilePath>(fid).path, _reg.get<FragComp::Ephemeral::FilePath>(fid).path,
std::ios::out | std::ios::trunc | std::ios::binary // always binary, also for text std::ios::out | std::ios::trunc | std::ios::binary // always binary, also for text
}; };
@ -320,19 +320,32 @@ bool FragmentStore::syncToStorage(FragmentID fid, std::function<write_to_storage
// TODO: use temp files and move to old location // TODO: use temp files and move to old location
if (_reg.all_of<Components::Ephemeral::DirtyTag>(fid)) { if (_reg.all_of<FragComp::Ephemeral::DirtyTag>(fid)) {
_reg.remove<Components::Ephemeral::DirtyTag>(fid); _reg.remove<FragComp::Ephemeral::DirtyTag>(fid);
} }
return true; return true;
} }
bool FragmentStore::syncToStorage(FragmentID fid, const uint8_t* data, const uint64_t data_size) {
std::function<FragmentStore::write_to_storage_fetch_data_cb> fn_cb = [read = 0ull, data, data_size](uint8_t* request_buffer, uint64_t buffer_size) mutable -> uint64_t {
uint64_t i = 0;
for (; i+read < data_size && i < buffer_size; i++) {
request_buffer[i] = data[i+read];
}
read += i;
return i;
};
return syncToStorage(fid, fn_cb);
}
static bool serl_json_data_enc_type(void* comp, nlohmann::json& out) { static bool serl_json_data_enc_type(void* comp, nlohmann::json& out) {
if (comp == nullptr) { if (comp == nullptr) {
return false; return false;
} }
auto& r_comp = *reinterpret_cast<Components::DataEncryptionType*>(comp); auto& r_comp = *reinterpret_cast<FragComp::DataEncryptionType*>(comp);
out = static_cast<std::underlying_type_t<Encryption>>(r_comp.enc); out = static_cast<std::underlying_type_t<Encryption>>(r_comp.enc);
@ -344,7 +357,7 @@ static bool serl_json_data_comp_type(void* comp, nlohmann::json& out) {
return false; return false;
} }
auto& r_comp = *reinterpret_cast<Components::DataCompressionType*>(comp); auto& r_comp = *reinterpret_cast<FragComp::DataCompressionType*>(comp);
out = static_cast<std::underlying_type_t<Compression>>(r_comp.comp); out = static_cast<std::underlying_type_t<Compression>>(r_comp.comp);
@ -352,8 +365,8 @@ static bool serl_json_data_comp_type(void* comp, nlohmann::json& out) {
} }
void FragmentStore::registerSerializers(void) { void FragmentStore::registerSerializers(void) {
_sc.registerSerializerJson<Components::DataEncryptionType>(serl_json_data_enc_type); _sc.registerSerializerJson<FragComp::DataEncryptionType>(serl_json_data_enc_type);
_sc.registerSerializerJson<Components::DataCompressionType>(serl_json_data_comp_type); _sc.registerSerializerJson<FragComp::DataCompressionType>(serl_json_data_comp_type);
std::cout << "registered serl text json cbs:\n"; std::cout << "registered serl text json cbs:\n";
for (const auto& [type_id, _] : _sc._serl_json) { for (const auto& [type_id, _] : _sc._serl_json) {

103
src/fragment_store/fragment_store.hpp
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@ -2,101 +2,24 @@
#include "./fragment_store_i.hpp" #include "./fragment_store_i.hpp"
#include <entt/core/fwd.hpp> #include "./types.hpp"
#include "./meta_components.hpp"
#include "./serializer.hpp"
#include <entt/core/type_info.hpp> #include <entt/core/type_info.hpp>
#include <entt/entity/registry.hpp> #include <entt/entity/registry.hpp>
#include <entt/container/dense_map.hpp>
#include <nlohmann/json_fwd.hpp> #include <nlohmann/json_fwd.hpp>
#include <utility>
#include <vector> #include <vector>
#include <array> #include <array>
#include <cstdint> #include <cstdint>
#include <random> #include <random>
enum class Encryption : uint8_t {
NONE = 0x00,
};
enum class Compression : uint8_t {
NONE = 0x00,
};
enum class MetaFileType : uint8_t {
TEXT_JSON,
//BINARY_ARB,
BINARY_MSGPACK,
};
namespace Components {
// TODO: is this special and should this be saved to meta or not (its already in the file name on disk)
struct ID {
std::vector<uint8_t> v;
};
struct DataEncryptionType {
Encryption enc {Encryption::NONE};
};
struct DataCompressionType {
Compression comp {Compression::NONE};
};
// meta that is not written to (meta-)file
namespace Ephemeral {
// excluded from file meta
struct FilePath {
// contains store path, if any
std::string path;
};
// TODO: seperate into remote and local?
// (remote meaning eg. the file on disk was changed by another program)
struct DirtyTag {};
// type as comp
struct MetaFileType {
::MetaFileType type {::MetaFileType::TEXT_JSON};
};
struct MetaEncryptionType {
Encryption enc {Encryption::NONE};
};
struct MetaCompressionType {
Compression comp {Compression::NONE};
};
} // Ephemeral
} // Components
struct SerializerCallbacks {
// nlohmann
// json/msgpack
using serialize_json_fn = bool(*)(void* comp, nlohmann::json& out);
entt::dense_map<entt::id_type, serialize_json_fn> _serl_json;
using deserialize_json_fn = bool(*)(void* comp, const nlohmann::json& in);
entt::dense_map<entt::id_type, deserialize_json_fn> _deserl_json;
void registerSerializerJson(serialize_json_fn fn, const entt::type_info& type_info) {
_serl_json[type_info.hash()] = fn;
}
template<typename CompType>
void registerSerializerJson(serialize_json_fn fn, const entt::type_info& type_info = entt::type_id<CompType>()) { registerSerializerJson(fn, type_info); }
void registerDeSerializerJson(deserialize_json_fn fn, const entt::type_info& type_info) {
_deserl_json[type_info.hash()] = fn;
}
template<typename CompType>
void registerDeSerializerJson(deserialize_json_fn fn, const entt::type_info& type_info = entt::type_id<CompType>()) { registerDeSerializerJson(fn, type_info); }
};
struct FragmentStore : public FragmentStoreI { struct FragmentStore : public FragmentStoreI {
using FragmentHandle = entt::basic_handle<entt::basic_registry<FragmentID>>;
entt::basic_registry<FragmentID> _reg; entt::basic_registry<FragmentID> _reg;
std::minstd_rand _rng{std::random_device{}()}; std::minstd_rand _rng{std::random_device{}()};
@ -113,10 +36,11 @@ struct FragmentStore : public FragmentStoreI {
FragmentStore(std::array<uint8_t, 8> session_uuid_namespace); FragmentStore(std::array<uint8_t, 8> session_uuid_namespace);
// HACK: get access to the reg // HACK: get access to the reg
entt::basic_handle<entt::basic_registry<FragmentID>> fragmentHandle(FragmentID fid); FragmentHandle fragmentHandle(FragmentID fid);
// TODO: make the frags ref counted // TODO: make the frags ref counted
// TODO: check for exising
std::vector<uint8_t> generateNewUID(std::array<uint8_t, 8>& uuid_namespace); std::vector<uint8_t> generateNewUID(std::array<uint8_t, 8>& uuid_namespace);
std::vector<uint8_t> generateNewUID(void); std::vector<uint8_t> generateNewUID(void);
@ -154,21 +78,20 @@ struct FragmentStore : public FragmentStoreI {
); );
// remove fragment? // remove fragment?
// unload?
// syncs fragment to file // ========== sync fragment to storage ==========
using write_to_storage_fetch_data_cb = uint64_t(uint8_t* request_buffer, uint64_t buffer_size); using write_to_storage_fetch_data_cb = uint64_t(uint8_t* request_buffer, uint64_t buffer_size);
// calls data_cb with a buffer to be filled in, cb returns actual count of data. if returned < max, its the last buffer. // calls data_cb with a buffer to be filled in, cb returns actual count of data. if returned < max, its the last buffer.
bool syncToStorage(FragmentID fid, std::function<write_to_storage_fetch_data_cb>& data_cb); bool syncToStorage(FragmentID fid, std::function<write_to_storage_fetch_data_cb>& data_cb);
bool syncToStorage(FragmentID fid, const uint8_t* data, const uint64_t data_size);
// unload frags?
// if frags are file backed, we can close the file if not needed
// fragment discovery? // fragment discovery?
private: private:
void registerSerializers(void); // internal comps void registerSerializers(void); // internal comps
// internal actual backends // internal actual backends
// TODO: seperate out
bool syncToMemory(FragmentID fid, std::function<write_to_storage_fetch_data_cb>& data_cb); bool syncToMemory(FragmentID fid, std::function<write_to_storage_fetch_data_cb>& data_cb);
bool syncToFile(FragmentID fid, std::function<write_to_storage_fetch_data_cb>& data_cb); bool syncToFile(FragmentID fid, std::function<write_to_storage_fetch_data_cb>& data_cb);
}; };

60
src/fragment_store/meta_components.hpp Normal file
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@ -0,0 +1,60 @@
#pragma once
#include "./types.hpp"
#include <vector>
#include <string>
#include <cstdint>
namespace Fragment::Components {
// TODO: is this special and should this be saved to meta or not (its already in the file name on disk)
struct ID {
std::vector<uint8_t> v;
};
struct DataEncryptionType {
Encryption enc {Encryption::NONE};
};
struct DataCompressionType {
Compression comp {Compression::NONE};
};
// meta that is not written to (meta-)file
namespace Ephemeral {
// excluded from file meta
struct FilePath {
// contains store path, if any
std::string path;
};
// TODO: seperate into remote and local?
// (remote meaning eg. the file on disk was changed by another program)
struct DirtyTag {};
// type as comp
struct MetaFileType {
::MetaFileType type {::MetaFileType::TEXT_JSON};
};
struct MetaEncryptionType {
Encryption enc {Encryption::NONE};
};
struct MetaCompressionType {
Compression comp {Compression::NONE};
};
} // Ephemeral
} // Components
// shortened to save bytes (until I find a way to save by ID in msgpack)
namespace FragComp = Fragment::Components;
#include "./meta_components_id.inl"

26
src/fragment_store/meta_components_id.inl Normal file
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@ -0,0 +1,26 @@
#pragma once
#include "./meta_components.hpp"
#include <entt/core/type_info.hpp>
// TODO: move more central
#define DEFINE_COMP_ID(x) \
template<> \
constexpr entt::id_type entt::type_hash<x>::value() noexcept { \
using namespace entt::literals; \
return #x##_hs; \
} \
template<> \
constexpr std::string_view entt::type_name<x>::value() noexcept { \
return #x; \
}
// cross compiler stable ids
DEFINE_COMP_ID(FragComp::DataEncryptionType)
DEFINE_COMP_ID(FragComp::DataCompressionType)
#undef DEFINE_COMP_ID

10
src/fragment_store/serializer.cpp Normal file
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@ -0,0 +1,10 @@
#include "./serializer.hpp"
void SerializerCallbacks::registerSerializerJson(serialize_json_fn fn, const entt::type_info& type_info) {
_serl_json[type_info.hash()] = fn;
}
void SerializerCallbacks::registerDeSerializerJson(deserialize_json_fn fn, const entt::type_info& type_info) {
_deserl_json[type_info.hash()] = fn;
}

25
src/fragment_store/serializer.hpp Normal file
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@ -0,0 +1,25 @@
#pragma once
#include <entt/core/type_info.hpp>
#include <entt/container/dense_map.hpp>
#include <nlohmann/json_fwd.hpp>
struct SerializerCallbacks {
// nlohmann
// json/msgpack
using serialize_json_fn = bool(*)(void* comp, nlohmann::json& out);
entt::dense_map<entt::id_type, serialize_json_fn> _serl_json;
using deserialize_json_fn = bool(*)(void* comp, const nlohmann::json& in);
entt::dense_map<entt::id_type, deserialize_json_fn> _deserl_json;
void registerSerializerJson(serialize_json_fn fn, const entt::type_info& type_info);
template<typename CompType>
void registerSerializerJson(serialize_json_fn fn, const entt::type_info& type_info = entt::type_id<CompType>()) { registerSerializerJson(fn, type_info); }
void registerDeSerializerJson(deserialize_json_fn fn, const entt::type_info& type_info);
template<typename CompType>
void registerDeSerializerJson(deserialize_json_fn fn, const entt::type_info& type_info = entt::type_id<CompType>()) { registerDeSerializerJson(fn, type_info); }
};

17
src/fragment_store/test_fragstore.cpp
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@ -43,8 +43,8 @@ int main(void) {
{ {
auto frag0h = fs.fragmentHandle(frag0); auto frag0h = fs.fragmentHandle(frag0);
frag0h.emplace_or_replace<Components::DataCompressionType>(); frag0h.emplace_or_replace<FragComp::DataCompressionType>();
frag0h.emplace_or_replace<Components::DataEncryptionType>(); frag0h.emplace_or_replace<FragComp::DataEncryptionType>();
frag0h.emplace_or_replace<Components::MessagesTimestampRange>(); frag0h.emplace_or_replace<Components::MessagesTimestampRange>();
std::function<FragmentStore::write_to_storage_fetch_data_cb> fn_cb = [read = 0ul](uint8_t* request_buffer, uint64_t buffer_size) mutable -> uint64_t { std::function<FragmentStore::write_to_storage_fetch_data_cb> fn_cb = [read = 0ul](uint8_t* request_buffer, uint64_t buffer_size) mutable -> uint64_t {
@ -62,8 +62,8 @@ int main(void) {
{ {
auto frag1h = fs.fragmentHandle(frag1); auto frag1h = fs.fragmentHandle(frag1);
frag1h.emplace_or_replace<Components::DataCompressionType>(); frag1h.emplace_or_replace<FragComp::DataCompressionType>();
frag1h.emplace_or_replace<Components::DataEncryptionType>(); frag1h.emplace_or_replace<FragComp::DataEncryptionType>();
std::function<FragmentStore::write_to_storage_fetch_data_cb> fn_cb = [read = 0ul](uint8_t* request_buffer, uint64_t buffer_size) mutable -> uint64_t { std::function<FragmentStore::write_to_storage_fetch_data_cb> fn_cb = [read = 0ul](uint8_t* request_buffer, uint64_t buffer_size) mutable -> uint64_t {
static constexpr std::string_view text = "This is some random data"; static constexpr std::string_view text = "This is some random data";
@ -78,6 +78,15 @@ int main(void) {
fs.syncToStorage(frag1, fn_cb); fs.syncToStorage(frag1, fn_cb);
} }
{
auto frag2h = fs.fragmentHandle(frag2);
frag2h.emplace_or_replace<FragComp::DataCompressionType>();
frag2h.emplace_or_replace<FragComp::DataEncryptionType>();
static constexpr std::string_view text = "This is more random data";
fs.syncToStorage(frag2, reinterpret_cast<const uint8_t*>(text.data()), text.size());
}
return 0; return 0;
} }

16
src/fragment_store/types.hpp Normal file
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@ -0,0 +1,16 @@
#pragma once
#include <cstdint>
enum class Encryption : uint8_t {
NONE = 0x00,
};
enum class Compression : uint8_t {
NONE = 0x00,
};
enum class MetaFileType : uint8_t {
TEXT_JSON,
//BINARY_ARB,
BINARY_MSGPACK,
};

5
src/main_screen.cpp
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@ -1,4 +1,5 @@
#include "./main_screen.hpp" #include "./main_screen.hpp"
#include "fragment_store/fragment_store.hpp"
#include <solanaceae/contact/components.hpp> #include <solanaceae/contact/components.hpp>
@ -49,6 +50,10 @@ MainScreen::MainScreen(SDL_Renderer* renderer_, std::string save_path, std::stri
std::cout << "own address: " << tc.toxSelfGetAddressStr() << "\n"; std::cout << "own address: " << tc.toxSelfGetAddressStr() << "\n";
{ // setup plugin instances { // setup plugin instances
// TODO: make interface useful
g_provideInstance<FragmentStoreI>("FragmentStoreI", "host", &fs);
g_provideInstance<FragmentStore>("FragmentStore", "host", &fs);
g_provideInstance<ConfigModelI>("ConfigModelI", "host", &conf); g_provideInstance<ConfigModelI>("ConfigModelI", "host", &conf);
g_provideInstance<Contact3Registry>("Contact3Registry", "1", "host", &cr); g_provideInstance<Contact3Registry>("Contact3Registry", "1", "host", &cr);
g_provideInstance<RegistryMessageModel>("RegistryMessageModel", "host", &rmm); g_provideInstance<RegistryMessageModel>("RegistryMessageModel", "host", &rmm);

3
src/main_screen.hpp
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@ -2,6 +2,7 @@
#include "./screen.hpp" #include "./screen.hpp"
#include "./fragment_store/fragment_store.hpp"
#include <solanaceae/util/simple_config_model.hpp> #include <solanaceae/util/simple_config_model.hpp>
#include <solanaceae/contact/contact_model3.hpp> #include <solanaceae/contact/contact_model3.hpp>
#include <solanaceae/message3/registry_message_model.hpp> #include <solanaceae/message3/registry_message_model.hpp>
@ -43,6 +44,8 @@ extern "C" {
struct MainScreen final : public Screen { struct MainScreen final : public Screen {
SDL_Renderer* renderer; SDL_Renderer* renderer;
FragmentStore fs;
SimpleConfigModel conf; SimpleConfigModel conf;
Contact3Registry cr; Contact3Registry cr;
RegistryMessageModel rmm; RegistryMessageModel rmm;