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mirror of synced 2024-12-14 16:52:53 +01:00
ImHex/lib/libimhex/include/hex/api/content_registry.hpp

989 lines
38 KiB
C++

#pragma once
#include <hex.hpp>
#include <hex/helpers/concepts.hpp>
#include <pl/pattern_language.hpp>
#include <hex/api/imhex_api.hpp>
#include <hex/api/event.hpp>
#include <functional>
#include <map>
#include <span>
#include <string>
#include <string_view>
#include <thread>
#include <unordered_map>
#include <utility>
#include <vector>
#include <jthread.hpp>
#include <nlohmann/json.hpp>
using ImGuiDataType = int;
using ImGuiInputTextFlags = int;
struct ImColor;
namespace hex {
class View;
class LanguageDefinition;
namespace dp {
class Node;
}
namespace prv {
class Provider;
}
/*
The Content Registry is the heart of all features in ImHex that are in some way extendable by Plugins.
It allows you to add/register new content that will be picked up and used by the ImHex core or by other
plugins when needed.
*/
namespace ContentRegistry {
/* Settings Registry. Allows adding of new entries into the ImHex preferences window. */
namespace Settings {
namespace Widgets {
class Widget {
public:
virtual ~Widget() = default;
virtual bool draw(const std::string &name) = 0;
virtual void load(const nlohmann::json &data) = 0;
virtual nlohmann::json store() = 0;
class Interface {
public:
friend class Widget;
Interface& requiresRestart() {
this->m_requiresRestart = true;
return *this;
}
Interface& setEnabledCallback(std::function<bool()> callback) {
this->m_enabledCallback = std::move(callback);
return *this;
}
Interface& setChangedCallback(std::function<void(Widget&)> callback) {
this->m_changedCallback = std::move(callback);
return *this;
}
Interface& setTooltip(const std::string &tooltip) {
this->m_tooltip = tooltip;
return *this;
}
[[nodiscard]]
Widget& getWidget() const {
return *this->m_widget;
}
private:
explicit Interface(Widget *widget) : m_widget(widget) {}
Widget *m_widget;
bool m_requiresRestart = false;
std::function<bool()> m_enabledCallback;
std::function<void(Widget&)> m_changedCallback;
std::optional<std::string> m_tooltip;
};
[[nodiscard]]
bool doesRequireRestart() const {
return this->m_interface.m_requiresRestart;
}
[[nodiscard]]
bool isEnabled() const {
return !this->m_interface.m_enabledCallback || this->m_interface.m_enabledCallback();
}
[[nodiscard]]
const std::optional<std::string>& getTooltip() const {
return this->m_interface.m_tooltip;
}
void onChanged() {
if (this->m_interface.m_changedCallback)
this->m_interface.m_changedCallback(*this);
}
[[nodiscard]]
Interface& getInterface() {
return this->m_interface;
}
private:
Interface m_interface = Interface(this);
};
class Checkbox : public Widget {
public:
explicit Checkbox(bool defaultValue) : m_value(defaultValue) { }
bool draw(const std::string &name) override;
void load(const nlohmann::json &data) override;
nlohmann::json store() override;
[[nodiscard]] bool isChecked() const { return this->m_value; }
private:
bool m_value;
};
class SliderInteger : public Widget {
public:
SliderInteger(i32 defaultValue, i32 min, i32 max) : m_value(defaultValue), m_min(min), m_max(max) { }
bool draw(const std::string &name) override;
void load(const nlohmann::json &data) override;
nlohmann::json store() override;
[[nodiscard]] i32 getValue() const { return this->m_value; }
private:
int m_value;
i32 m_min, m_max;
};
class SliderFloat : public Widget {
public:
SliderFloat(float defaultValue, float min, float max) : m_value(defaultValue), m_min(min), m_max(max) { }
bool draw(const std::string &name) override;
void load(const nlohmann::json &data) override;
nlohmann::json store() override;
[[nodiscard]] float getValue() const { return this->m_value; }
private:
float m_value;
float m_min, m_max;
};
class ColorPicker : public Widget {
public:
explicit ColorPicker(ImColor defaultColor);
bool draw(const std::string &name) override;
void load(const nlohmann::json &data) override;
nlohmann::json store() override;
[[nodiscard]] ImColor getColor() const;
private:
std::array<float, 4> m_value;
};
class DropDown : public Widget {
public:
explicit DropDown(const std::vector<std::string> &items, const std::vector<nlohmann::json> &settingsValues, const nlohmann::json &defaultItem) : m_items(items), m_settingsValues(settingsValues), m_defaultItem(defaultItem) { }
bool draw(const std::string &name) override;
void load(const nlohmann::json &data) override;
nlohmann::json store() override;
[[nodiscard]]
const nlohmann::json& getValue() const;
private:
std::vector<std::string> m_items;
std::vector<nlohmann::json> m_settingsValues;
nlohmann::json m_defaultItem;
int m_value = -1;
};
class TextBox : public Widget {
public:
explicit TextBox(std::string defaultValue) : m_value(std::move(defaultValue)) { }
bool draw(const std::string &name) override;
void load(const nlohmann::json &data) override;
nlohmann::json store() override;
[[nodiscard]]
const std::string& getValue() const { return this->m_value; }
private:
std::string m_value;
};
class FilePicker : public Widget {
public:
bool draw(const std::string &name) override;
void load(const nlohmann::json &data) override;
nlohmann::json store() override;
[[nodiscard]]
std::fs::path getPath() const { return this->m_value; }
private:
std::string m_value;
};
}
namespace impl {
struct Entry {
std::string unlocalizedName;
std::unique_ptr<Widgets::Widget> widget;
};
struct SubCategory {
std::string unlocalizedName;
std::vector<Entry> entries;
};
struct Category {
std::string unlocalizedName;
std::string unlocalizedDescription;
std::vector<SubCategory> subCategories;
};
void load();
void store();
void clear();
std::vector<Category> &getSettings();
nlohmann::json& getSetting(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const nlohmann::json &defaultValue);
nlohmann::json &getSettingsData();
Widgets::Widget* add(const std::string &unlocalizedCategory, const std::string &unlocalizedSubCategory, const std::string &unlocalizedName, std::unique_ptr<Widgets::Widget> &&widget);
}
template<std::derived_from<Widgets::Widget> T>
Widgets::Widget::Interface& add(const std::string &unlocalizedCategory, const std::string &unlocalizedSubCategory, const std::string &unlocalizedName, auto && ... args) {
return impl::add(
unlocalizedCategory,
unlocalizedSubCategory,
unlocalizedName,
std::make_unique<T>(std::forward<decltype(args)>(args)...)
)->getInterface();
}
void setCategoryDescription(const std::string &unlocalizedCategory, const std::string &unlocalizedDescription);
nlohmann::json read(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const nlohmann::json &defaultValue);
void write(const std::string &unlocalizedCategory, const std::string &unlocalizedName, const nlohmann::json &value);
}
/* Command Palette Command Registry. Allows adding of new commands to the command palette */
namespace CommandPaletteCommands {
enum class Type : u32 {
SymbolCommand,
KeywordCommand
};
namespace impl {
struct QueryResult {
std::string name;
std::function<void(std::string)> callback;
};
using DisplayCallback = std::function<std::string(std::string)>;
using ExecuteCallback = std::function<void(std::string)>;
using QueryCallback = std::function<std::vector<QueryResult>(std::string)>;
struct Entry {
Type type;
std::string command;
std::string unlocalizedDescription;
DisplayCallback displayCallback;
ExecuteCallback executeCallback;
};
struct Handler {
Type type;
std::string command;
QueryCallback queryCallback;
DisplayCallback displayCallback;
};
std::vector<impl::Entry> &getEntries();
std::vector<impl::Handler> &getHandlers();
}
/**
* @brief Adds a new command to the command palette
* @param type The type of the command
* @param command The command to add
* @param unlocalizedDescription The description of the command
* @param displayCallback The callback that will be called when the command is displayed in the command palette
* @param executeCallback The callback that will be called when the command is executed
*/
void add(
Type type,
const std::string &command,
const std::string &unlocalizedDescription,
const impl::DisplayCallback &displayCallback,
const impl::ExecuteCallback &executeCallback = [](auto) {});
/**
* @brief Adds a new command handler to the command palette
* @param type The type of the command
* @param command The command to add
* @param unlocalizedDescription The description of the command
* @param queryCallback The callback that will be called when the command palette wants to load the name and callback items
* @param displayCallback The callback that will be called when the command is displayed in the command palette
*/
void addHandler(
Type type,
const std::string &command,
const impl::QueryCallback &queryCallback,
const impl::DisplayCallback &displayCallback);
}
/* Pattern Language Function Registry. Allows adding of new functions that may be used inside the pattern language */
namespace PatternLanguage {
namespace impl {
using VisualizerFunctionCallback = std::function<void(pl::ptrn::Pattern&, pl::ptrn::IIterable&, bool, std::span<const pl::core::Token::Literal>)>;
struct FunctionDefinition {
pl::api::Namespace ns;
std::string name;
pl::api::FunctionParameterCount parameterCount;
pl::api::FunctionCallback callback;
bool dangerous;
};
struct Visualizer {
pl::api::FunctionParameterCount parameterCount;
VisualizerFunctionCallback callback;
};
std::map<std::string, Visualizer> &getVisualizers();
std::map<std::string, Visualizer> &getInlineVisualizers();
std::map<std::string, pl::api::PragmaHandler> &getPragmas();
std::vector<impl::FunctionDefinition> &getFunctions();
}
/**
* @brief Provides access to the current provider's pattern language runtime
* @return Runtime
*/
pl::PatternLanguage& getRuntime();
/**
* @brief Provides access to the current provider's pattern language runtime's lock
* @return Lock
*/
std::mutex& getRuntimeLock();
/**
* @brief Configures the pattern language runtime using ImHex's default settings
* @param runtime The pattern language runtime to configure
* @param provider The provider to use for data access
*/
void configureRuntime(pl::PatternLanguage &runtime, prv::Provider *provider);
/**
* @brief Adds a new pragma to the pattern language
* @param name The name of the pragma
* @param handler The handler that will be called when the pragma is encountered
*/
void addPragma(const std::string &name, const pl::api::PragmaHandler &handler);
/**
* @brief Adds a new function to the pattern language
* @param ns The namespace of the function
* @param name The name of the function
* @param parameterCount The amount of parameters the function takes
* @param func The function callback
*/
void addFunction(const pl::api::Namespace &ns, const std::string &name, pl::api::FunctionParameterCount parameterCount, const pl::api::FunctionCallback &func);
/**
* @brief Adds a new dangerous function to the pattern language
* @note Dangerous functions are functions that require the user to explicitly allow them to be used
* @param ns The namespace of the function
* @param name The name of the function
* @param parameterCount The amount of parameters the function takes
* @param func The function callback
*/
void addDangerousFunction(const pl::api::Namespace &ns, const std::string &name, pl::api::FunctionParameterCount parameterCount, const pl::api::FunctionCallback &func);
/**
* @brief Adds a new visualizer to the pattern language
* @note Visualizers are extensions to the [[hex::visualize]] attribute, used to visualize data
* @param name The name of the visualizer
* @param func The function callback
* @param parameterCount The amount of parameters the function takes
*/
void addVisualizer(const std::string &name, const impl::VisualizerFunctionCallback &func, pl::api::FunctionParameterCount parameterCount);
/**
* @brief Adds a new inline visualizer to the pattern language
* @note Inline visualizers are extensions to the [[hex::inline_visualize]] attribute, used to visualize data
* @param name The name of the visualizer
* @param func The function callback
* @param parameterCount The amount of parameters the function takes
*/
void addInlineVisualizer(const std::string &name, const impl::VisualizerFunctionCallback &func, pl::api::FunctionParameterCount parameterCount);
}
/* View Registry. Allows adding of new windows */
namespace Views {
namespace impl {
void add(std::unique_ptr<View> &&view);
std::map<std::string, std::unique_ptr<View>> &getEntries();
}
/**
* @brief Adds a new view to ImHex
* @tparam T The custom view class that extends View
* @tparam Args Arguments types
* @param args Arguments passed to the constructor of the view
*/
template<std::derived_from<View> T, typename... Args>
void add(Args &&...args) {
return impl::add(std::make_unique<T>(std::forward<Args>(args)...));
}
/**
* @brief Gets a view by its unlocalized name
* @param unlocalizedName The unlocalized name of the view
* @return The view if it exists, nullptr otherwise
*/
View* getViewByName(const std::string &unlocalizedName);
}
/* Tools Registry. Allows adding new entries to the tools window */
namespace Tools {
namespace impl {
using Callback = std::function<void()>;
struct Entry {
std::string name;
Callback function;
bool detached;
};
std::vector<impl::Entry> &getEntries();
}
/**
* @brief Adds a new tool to the tools window
* @param unlocalizedName The unlocalized name of the tool
* @param function The function that will be called to draw the tool
*/
void add(const std::string &unlocalizedName, const impl::Callback &function);
}
/* Data Inspector Registry. Allows adding of new types to the data inspector */
namespace DataInspector {
enum class NumberDisplayStyle
{
Decimal,
Hexadecimal,
Octal
};
namespace impl {
using DisplayFunction = std::function<std::string()>;
using EditingFunction = std::function<std::vector<u8>(std::string, std::endian)>;
using GeneratorFunction = std::function<DisplayFunction(const std::vector<u8> &, std::endian, NumberDisplayStyle)>;
struct Entry {
std::string unlocalizedName;
size_t requiredSize;
size_t maxSize;
impl::GeneratorFunction generatorFunction;
std::optional<impl::EditingFunction> editingFunction;
};
std::vector<impl::Entry> &getEntries();
}
/**
* @brief Adds a new entry to the data inspector
* @param unlocalizedName The unlocalized name of the entry
* @param requiredSize The minimum required number of bytes available for the entry to appear
* @param displayGeneratorFunction The function that will be called to generate the display function
* @param editingFunction The function that will be called to edit the data
*/
void add(const std::string &unlocalizedName, size_t requiredSize, impl::GeneratorFunction displayGeneratorFunction, std::optional<impl::EditingFunction> editingFunction = std::nullopt);
/**
* @brief Adds a new entry to the data inspector
* @param unlocalizedName The unlocalized name of the entry
* @param requiredSize The minimum required number of bytes available for the entry to appear
* @param maxSize The maximum number of bytes to read from the data
* @param displayGeneratorFunction The function that will be called to generate the display function
* @param editingFunction The function that will be called to edit the data
*/
void add(const std::string &unlocalizedName, size_t requiredSize, size_t maxSize, impl::GeneratorFunction displayGeneratorFunction, std::optional<impl::EditingFunction> editingFunction = std::nullopt);
}
/* Data Processor Node Registry. Allows adding new processor nodes to be used in the data processor */
namespace DataProcessorNode {
namespace impl {
using CreatorFunction = std::function<std::unique_ptr<dp::Node>()>;
struct Entry {
std::string category;
std::string name;
CreatorFunction creatorFunction;
};
void add(const Entry &entry);
std::vector<impl::Entry> &getEntries();
}
/**
* @brief Adds a new node to the data processor
* @tparam T The custom node class that extends dp::Node
* @tparam Args Arguments types
* @param unlocalizedCategory The unlocalized category name of the node
* @param unlocalizedName The unlocalized name of the node
* @param args Arguments passed to the constructor of the node
*/
template<std::derived_from<dp::Node> T, typename... Args>
void add(const std::string &unlocalizedCategory, const std::string &unlocalizedName, Args &&...args) {
add(impl::Entry {
unlocalizedCategory.c_str(),
unlocalizedName.c_str(),
[=, ...args = std::forward<Args>(args)] mutable {
auto node = std::make_unique<T>(std::forward<Args>(args)...);
node->setUnlocalizedName(unlocalizedName);
return node;
}
});
}
/**
* @brief Adds a separator to the data processor right click menu
*/
void addSeparator();
}
/* Language Registry. Allows together with the LangEntry class and the _lang user defined literal to add new languages */
namespace Language {
/**
* @brief Loads localization information from json data
* @param data The language data
*/
void addLocalization(const nlohmann::json &data);
namespace impl {
std::map<std::string, std::string> &getLanguages();
std::map<std::string, std::vector<LanguageDefinition>> &getLanguageDefinitions();
}
}
/* Interface Registry. Allows adding new items to various interfaces */
namespace Interface {
namespace impl {
using DrawCallback = std::function<void()>;
using MenuCallback = std::function<void()>;
using EnabledCallback = std::function<bool()>;
using ClickCallback = std::function<void()>;
struct MainMenuItem {
std::string unlocalizedName;
};
struct MenuItem {
std::vector<std::string> unlocalizedNames;
Shortcut shortcut;
MenuCallback callback;
EnabledCallback enabledCallback;
};
struct SidebarItem {
std::string icon;
DrawCallback callback;
};
struct TitleBarButton {
std::string icon;
std::string unlocalizedTooltip;
ClickCallback callback;
};
constexpr static auto SeparatorValue = "$SEPARATOR$";
constexpr static auto SubMenuValue = "$SUBMENU$";
std::multimap<u32, impl::MainMenuItem> &getMainMenuItems();
std::multimap<u32, impl::MenuItem> &getMenuItems();
std::vector<impl::DrawCallback> &getWelcomeScreenEntries();
std::vector<impl::DrawCallback> &getFooterItems();
std::vector<impl::DrawCallback> &getToolbarItems();
std::vector<impl::SidebarItem> &getSidebarItems();
std::vector<impl::TitleBarButton> &getTitleBarButtons();
}
/**
* @brief Adds a new top-level main menu entry
* @param unlocalizedName The unlocalized name of the entry
* @param priority The priority of the entry. Lower values are displayed first
*/
void registerMainMenuItem(const std::string &unlocalizedName, u32 priority);
/**
* @brief Adds a new main menu entry
* @param unlocalizedMainMenuNames The unlocalized names of the main menu entries
* @param priority The priority of the entry. Lower values are displayed first
* @param shortcut The shortcut to use for the entry
* @param function The function to call when the entry is clicked
* @param enabledCallback The function to call to determine if the entry is enabled
* @param view The view to use for the entry. If nullptr, the shortcut will work globally
*/
void addMenuItem(const std::vector<std::string> &unlocalizedMainMenuNames, u32 priority, const Shortcut &shortcut, const impl::MenuCallback &function, const impl::EnabledCallback& enabledCallback = []{ return true; }, View *view = nullptr);
/**
* @brief Adds a new main menu sub-menu entry
* @param unlocalizedMainMenuNames The unlocalized names of the main menu entries
* @param priority The priority of the entry. Lower values are displayed first
* @param function The function to call when the entry is clicked
* @param enabledCallback The function to call to determine if the entry is enabled
* @param view The view to use for the entry. If nullptr, the shortcut will work globally
*/
void addMenuItemSubMenu(std::vector<std::string> unlocalizedMainMenuNames, u32 priority, const impl::MenuCallback &function, const impl::EnabledCallback& enabledCallback = []{ return true; });
/**
* @brief Adds a new main menu separator
* @param unlocalizedMainMenuNames The unlocalized names of the main menu entries
* @param priority The priority of the entry. Lower values are displayed first
*/
void addMenuItemSeparator(std::vector<std::string> unlocalizedMainMenuNames, u32 priority);
/**
* @brief Adds a new welcome screen entry
* @param function The function to call to draw the entry
*/
void addWelcomeScreenEntry(const impl::DrawCallback &function);
/**
* @brief Adds a new footer item
* @param function The function to call to draw the item
*/
void addFooterItem(const impl::DrawCallback &function);
/**
* @brief Adds a new toolbar item
* @param function The function to call to draw the item
*/
void addToolbarItem(const impl::DrawCallback &function);
/**
* @brief Adds a new sidebar item
* @param icon The icon to use for the item
* @param function The function to call to draw the item
*/
void addSidebarItem(const std::string &icon, const impl::DrawCallback &function);
/**
* @brief Adds a new title bar button
* @param icon The icon to use for the button
* @param unlocalizedTooltip The unlocalized tooltip to use for the button
* @param function The function to call when the button is clicked
*/
void addTitleBarButton(const std::string &icon, const std::string &unlocalizedTooltip, const impl::ClickCallback &function);
}
/* Provider Registry. Allows adding new data providers to be created from the UI */
namespace Provider {
namespace impl {
void addProviderName(const std::string &unlocalizedName);
std::vector<std::string> &getEntries();
}
/**
* @brief Adds a new provider to the list of providers
* @tparam T The provider type that extends hex::prv::Provider
* @param addToList Whether to display the provider in the Other Providers list in the welcome screen and File menu
*/
template<std::derived_from<hex::prv::Provider> T>
void add(bool addToList = true) {
auto typeName = T().getTypeName();
(void)EventManager::subscribe<RequestCreateProvider>([expectedName = typeName](const std::string &name, bool skipLoadInterface, bool selectProvider, hex::prv::Provider **provider) {
if (name != expectedName) return;
prv::Provider *newProvider = new T();
hex::ImHexApi::Provider::add(newProvider, skipLoadInterface, selectProvider);
if (provider != nullptr)
*provider = newProvider;
});
if (addToList)
impl::addProviderName(typeName);
}
}
/* Data Formatter Registry. Allows adding formatters that are used in the Copy-As menu for example */
namespace DataFormatter {
namespace impl {
using Callback = std::function<std::string(prv::Provider *provider, u64 address, size_t size)>;
struct Entry {
std::string unlocalizedName;
Callback callback;
};
std::vector<impl::Entry> &getEntries();
}
/**
* @brief Adds a new data formatter
* @param unlocalizedName The unlocalized name of the formatter
* @param callback The function to call to format the data
*/
void add(const std::string &unlocalizedName, const impl::Callback &callback);
}
/* File Handler Registry. Allows adding handlers for opening files specific file types */
namespace FileHandler {
namespace impl {
using Callback = std::function<bool(std::fs::path)>;
struct Entry {
std::vector<std::string> extensions;
Callback callback;
};
std::vector<impl::Entry> &getEntries();
}
/**
* @brief Adds a new file handler
* @param extensions The file extensions to handle
* @param callback The function to call to handle the file
*/
void add(const std::vector<std::string> &extensions, const impl::Callback &callback);
}
/* Hex Editor Registry. Allows adding new functionality to the hex editor */
namespace HexEditor {
class DataVisualizer {
public:
DataVisualizer(std::string unlocalizedName, u16 bytesPerCell, u16 maxCharsPerCell)
: m_unlocalizedName(std::move(unlocalizedName)),
m_bytesPerCell(bytesPerCell),
m_maxCharsPerCell(maxCharsPerCell) { }
virtual ~DataVisualizer() = default;
virtual void draw(u64 address, const u8 *data, size_t size, bool upperCase) = 0;
virtual bool drawEditing(u64 address, u8 *data, size_t size, bool upperCase, bool startedEditing) = 0;
[[nodiscard]] u16 getBytesPerCell() const { return this->m_bytesPerCell; }
[[nodiscard]] u16 getMaxCharsPerCell() const { return this->m_maxCharsPerCell; }
[[nodiscard]] const std::string& getUnlocalizedName() const { return this->m_unlocalizedName; }
protected:
const static int TextInputFlags;
bool drawDefaultScalarEditingTextBox(u64 address, const char *format, ImGuiDataType dataType, u8 *data, ImGuiInputTextFlags flags) const;
bool drawDefaultTextEditingTextBox(u64 address, std::string &data, ImGuiInputTextFlags flags) const;
private:
std::string m_unlocalizedName;
u16 m_bytesPerCell;
u16 m_maxCharsPerCell;
};
namespace impl {
void addDataVisualizer(std::shared_ptr<DataVisualizer> &&visualizer);
std::vector<std::shared_ptr<DataVisualizer>> &getVisualizers();
}
/**
* @brief Adds a new cell data visualizer
* @tparam T The data visualizer type that extends hex::DataVisualizer
* @param unlocalizedName The unlocalized name of the data visualizer
* @param args The arguments to pass to the constructor of the data visualizer
*/
template<std::derived_from<DataVisualizer> T, typename... Args>
void addDataVisualizer(Args &&...args) {
return impl::addDataVisualizer(std::make_shared<T>(std::forward<Args>(args)...));
}
/**
* @brief Gets a data visualizer by its unlocalized name
* @param unlocalizedName Unlocalized name of the data visualizer
* @return The data visualizer, or nullptr if it doesn't exist
*/
std::shared_ptr<DataVisualizer> getVisualizerByName(const std::string &unlocalizedName);
}
/* Hash Registry. Allows adding new hashes to the Hash view */
namespace Hashes {
class Hash {
public:
explicit Hash(std::string unlocalizedName) : m_unlocalizedName(std::move(unlocalizedName)) {}
virtual ~Hash() = default;
class Function {
public:
using Callback = std::function<std::vector<u8>(const Region&, prv::Provider *)>;
Function(Hash *type, std::string name, Callback callback)
: m_type(type), m_name(std::move(name)), m_callback(std::move(callback)) {
}
[[nodiscard]] Hash *getType() { return this->m_type; }
[[nodiscard]] const Hash *getType() const { return this->m_type; }
[[nodiscard]] const std::string &getName() const { return this->m_name; }
const std::vector<u8>& get(const Region& region, prv::Provider *provider) {
if (this->m_cache.empty()) {
this->m_cache = this->m_callback(region, provider);
}
return this->m_cache;
}
void reset() {
this->m_cache.clear();
}
private:
Hash *m_type;
std::string m_name;
Callback m_callback;
std::vector<u8> m_cache;
};
virtual void draw() { }
[[nodiscard]] virtual Function create(std::string name) = 0;
[[nodiscard]] virtual nlohmann::json store() const = 0;
virtual void load(const nlohmann::json &json) = 0;
[[nodiscard]] const std::string &getUnlocalizedName() const {
return this->m_unlocalizedName;
}
protected:
[[nodiscard]] Function create(const std::string &name, const Function::Callback &callback) {
return { this, name, callback };
}
private:
std::string m_unlocalizedName;
};
namespace impl {
std::vector<std::unique_ptr<Hash>> &getHashes();
void add(std::unique_ptr<Hash> &&hash);
}
/**
* @brief Adds a new hash
* @tparam T The hash type that extends hex::Hash
* @param args The arguments to pass to the constructor of the hash
*/
template<typename T, typename ... Args>
void add(Args && ... args) {
impl::add(std::make_unique<T>(std::forward<Args>(args)...));
}
}
namespace BackgroundServices {
namespace impl {
using Callback = std::function<void()>;
struct Service {
std::string name;
std::jthread thread;
};
std::vector<Service> &getServices();
void stopServices();
}
void registerService(const std::string &unlocalizedName, const impl::Callback &callback);
}
namespace CommunicationInterface {
namespace impl {
using NetworkCallback = std::function<nlohmann::json(const nlohmann::json &)>;
std::map<std::string, NetworkCallback> &getNetworkEndpoints();
}
void registerNetworkEndpoint(const std::string &endpoint, const impl::NetworkCallback &callback);
}
}
}