#pragma once #include #include #include #include #include #include "openvic-simulation/dataloader/NodeTools.hpp" #include "openvic-simulation/types/fixed_point/FixedPointMap.hpp" #include "openvic-simulation/utility/Getters.hpp" #include "openvic-simulation/utility/Logger.hpp" namespace OpenVic { constexpr bool valid_basic_identifier_char(char c) { return ('A' <= c && c <= 'Z') || ('a' <= c && c <= 'z') || ('0' <= c && c <= '9') || c == '_'; } constexpr bool valid_basic_identifier(std::string_view identifier) { return std::all_of(identifier.begin(), identifier.end(), valid_basic_identifier_char); } constexpr std::string_view extract_basic_identifier_prefix(std::string_view identifier) { size_t len = 0; while (len < identifier.size() && valid_basic_identifier_char(identifier[len])) { ++len; } return { identifier.data(), len }; } /* * Base class for objects with a non-empty string identifier. Uniquely named instances of a type derived from this class * can be entered into an IdentifierRegistry instance. */ class HasIdentifier { const std::string PROPERTY(identifier); protected: HasIdentifier(std::string_view new_identifier): identifier { new_identifier } { assert(!identifier.empty()); } public: HasIdentifier(HasIdentifier const&) = delete; HasIdentifier(HasIdentifier&&) = default; HasIdentifier& operator=(HasIdentifier const&) = delete; HasIdentifier& operator=(HasIdentifier&&) = delete; }; inline std::ostream& operator<<(std::ostream& stream, HasIdentifier const& obj) { return stream << obj.get_identifier(); } inline std::ostream& operator<<(std::ostream& stream, HasIdentifier const* obj) { return obj != nullptr ? stream << *obj : stream << ""; } /* * Base class for objects with associated colour information. */ template class _HasColour { const ColourT PROPERTY(colour); protected: _HasColour(ColourT new_colour, bool cannot_be_null): colour { new_colour } { assert(!cannot_be_null || !colour.is_null()); } public: _HasColour(_HasColour const&) = delete; _HasColour(_HasColour&&) = default; _HasColour& operator=(_HasColour const&) = delete; _HasColour& operator=(_HasColour&&) = delete; }; /* * Base class for objects with a unique string identifier and associated colour information. */ template class _HasIdentifierAndColour : public HasIdentifier, public _HasColour { protected: _HasIdentifierAndColour(std::string_view new_identifier, ColourT new_colour, bool cannot_be_null) : HasIdentifier { new_identifier }, _HasColour { new_colour, cannot_be_null } {} public: _HasIdentifierAndColour(_HasIdentifierAndColour const&) = delete; _HasIdentifierAndColour(_HasIdentifierAndColour&&) = default; _HasIdentifierAndColour& operator=(_HasIdentifierAndColour const&) = delete; _HasIdentifierAndColour& operator=(_HasIdentifierAndColour&&) = delete; }; using HasIdentifierAndColour = _HasIdentifierAndColour; using HasIdentifierAndAlphaColour = _HasIdentifierAndColour; /* Callbacks for trying to add duplicate keys via UniqueKeyRegistry::add_item */ static bool duplicate_fail_callback(std::string_view registry_name, std::string_view duplicate_identifier) { Logger::error( "Failure adding item to the ", registry_name, " registry - an item with the identifier \"", duplicate_identifier, "\" already exists!" ); return false; } static bool duplicate_warning_callback(std::string_view registry_name, std::string_view duplicate_identifier) { Logger::warning( "Warning adding item to the ", registry_name, " registry - an item with the identifier \"", duplicate_identifier, "\" already exists!" ); return true; } static bool duplicate_ignore_callback(std::string_view registry_name, std::string_view duplicate_identifier) { return true; } /* _GetIdentifier - takes _Type const* and returns std::string_view * _GetPointer - takes _Storage [const]& and returns T [const]* */ template class UniqueKeyRegistry { const std::string name; const bool log_lock; std::vector<_Storage> PROPERTY_REF(items); bool locked = false; string_map_t identifier_index_map; _GetIdentifier GetIdentifier; _GetPointer GetPointer; public: using value_type = _Type; using storage_type = _Storage; UniqueKeyRegistry( std::string_view new_name, bool new_log_lock = true, _GetIdentifier new_GetIdentifier = {}, _GetPointer new_GetPointer = {} ) : name { new_name }, log_lock { new_log_lock }, GetIdentifier { new_GetIdentifier }, GetPointer { new_GetPointer } {} std::string_view get_name() const { return name; } bool add_item( storage_type&& item, NodeTools::callback_t duplicate_callback = duplicate_fail_callback ) { if (locked) { Logger::error("Cannot add item to the ", name, " registry - locked!"); return false; } const std::string_view new_identifier = GetIdentifier(GetPointer(item)); if (duplicate_callback && duplicate_callback.target() == duplicate_ignore_callback) { if (has_identifier(new_identifier)) { return true; } } else { value_type const* old_item = get_item_by_identifier(new_identifier); if (old_item != nullptr) { return duplicate_callback(name, new_identifier); } } const std::pair::iterator, bool> ret = identifier_index_map.emplace(std::move(new_identifier), items.size()); items.emplace_back(std::move(item)); return ret.second && ret.first->second + 1 == items.size(); } void lock() { if (locked) { Logger::error("Failed to lock ", name, " registry - already locked!"); } else { locked = true; if (log_lock) { Logger::info("Locked ", name, " registry after registering ", size(), " items"); } } } bool is_locked() const { return locked; } void reset() { identifier_index_map.clear(); items.clear(); locked = false; } size_t size() const { return items.size(); } bool empty() const { return items.empty(); } void reserve(size_t size) { if (locked) { Logger::error("Failed to reserve space for ", size, " items in ", name, " registry - already locked!"); } else { items.reserve(size); } } #define GETTERS(CONST) \ value_type CONST* get_item_by_identifier(std::string_view identifier) CONST { \ const typename decltype(identifier_index_map)::const_iterator it = identifier_index_map.find(identifier); \ if (it != identifier_index_map.end()) { \ return GetPointer(items[it->second]); \ } \ return nullptr; \ } \ value_type CONST* get_item_by_index(size_t index) CONST { \ return index < items.size() ? GetPointer(items[index]) : nullptr; \ } \ NodeTools::callback_t expect_item_str( \ NodeTools::callback_t callback, bool warn \ ) CONST { \ return [this, callback, warn](std::string_view identifier) -> bool { \ value_type CONST* item = get_item_by_identifier(identifier); \ if (item != nullptr) { \ return callback(*item); \ } \ if (!warn) { \ Logger::error("Invalid ", name, ": ", identifier); \ return false; \ } else { \ Logger::warning("Invalid ", name, ": ", identifier); \ return true; \ } \ }; \ } \ NodeTools::node_callback_t expect_item_identifier(NodeTools::callback_t callback, bool warn) CONST { \ return NodeTools::expect_identifier(expect_item_str(callback, warn)); \ } \ NodeTools::node_callback_t expect_item_dictionary( \ NodeTools::callback_t callback \ ) CONST { \ return NodeTools::expect_dictionary([this, callback](std::string_view key, ast::NodeCPtr value) -> bool { \ return expect_item_str(std::bind(callback, std::placeholders::_1, value), false)(key); \ }); \ } #if defined(_MSC_VER) #pragma warning(push) #pragma warning(disable : 4003) #endif GETTERS() GETTERS(const) #if defined(_MSC_VER) #pragma warning(pop) #endif #undef GETTERS bool has_identifier(std::string_view identifier) const { return identifier_index_map.contains(identifier); } bool has_index(size_t index) const { return index < size(); } std::vector get_item_identifiers() const { std::vector identifiers(items.size()); for (typename decltype(identifier_index_map)::value_type const& entry : identifier_index_map) { identifiers.push_back(entry.first); } return identifiers; } NodeTools::node_callback_t expect_item_decimal_map( NodeTools::callback_t&&> callback ) const { return [this, callback](ast::NodeCPtr node) -> bool { fixed_point_map_t map; bool ret = expect_item_dictionary([&map](value_type const& key, ast::NodeCPtr value) -> bool { fixed_point_t val; const bool ret = NodeTools::expect_fixed_point(NodeTools::assign_variable_callback(val))(value); map.emplace(&key, std::move(val)); return ret; })(node); ret &= callback(std::move(map)); return ret; }; } }; /* Standard value storage */ template struct _addressof { constexpr T* operator()(T& item) const { return std::addressof(item); } constexpr T const* operator()(T const& item) const { return std::addressof(item); } }; template using ValueRegistry = UniqueKeyRegistry<_Type, _Type, _GetIdentifier, _addressof<_Type>>; /* std::unique_ptr dynamic storage */ template struct _uptr_get { constexpr T* operator()(std::unique_ptr& item) const { return item.get(); } constexpr T const* operator()(std::unique_ptr const& item) const { return item.get(); } }; template using InstanceRegistry = UniqueKeyRegistry<_Type, std::unique_ptr<_Type>, _GetIdentifier, _uptr_get<_Type>>; /* HasIdentifier versions */ template T> struct _get_identifier { constexpr std::string_view operator()(T const* item) const { return item->get_identifier(); } }; template _Type> using IdentifierRegistry = ValueRegistry<_Type, _get_identifier<_Type>>; template _Type> using IdentifierInstanceRegistry = InstanceRegistry<_Type, _get_identifier<_Type>>; /* Macros to generate declaration and constant accessor methods for a UniqueKeyRegistry member variable. */ #define IDENTIFIER_REGISTRY(name) \ IDENTIFIER_REGISTRY_CUSTOM_PLURAL(name, name##s) #define IDENTIFIER_REGISTRY_CUSTOM_PLURAL(singular, plural) \ IDENTIFIER_REGISTRY_FULL_CUSTOM(singular, plural, plural, plural, 0) #define IDENTIFIER_REGISTRY_CUSTOM_INDEX_OFFSET(name, index_offset) \ IDENTIFIER_REGISTRY_FULL_CUSTOM(name, name##s, name##s, name##s, index_offset) #define IDENTIFIER_REGISTRY_FULL_CUSTOM(singular, plural, registry, debug_name, index_offset) \ registry { #debug_name };\ public: \ void lock_##plural() { \ registry.lock(); \ } \ bool plural##_are_locked() const { \ return registry.is_locked(); \ } \ bool has_##singular##_identifier(std::string_view identifier) const { \ return registry.has_identifier(identifier); \ } \ size_t get_##singular##_count() const { \ return registry.size(); \ } \ bool plural##_empty() const { \ return registry.empty(); \ } \ std::vector get_##singular##_identifiers() const { \ return registry.get_item_identifiers(); \ } \ NodeTools::node_callback_t expect_##singular##_decimal_map( \ NodeTools::callback_t&&> callback \ ) const { \ return registry.expect_item_decimal_map(callback); \ } \ IDENTIFIER_REGISTRY_INTERNAL_SHARED(singular, plural, registry, index_offset, const) \ private: /* Macros to generate non-constant accessor methods for a UniqueKeyRegistry member variable. */ #define IDENTIFIER_REGISTRY_NON_CONST_ACCESSORS(name) \ IDENTIFIER_REGISTRY_NON_CONST_ACCESSORS_CUSTOM_PLURAL(name, name##s) #define IDENTIFIER_REGISTRY_NON_CONST_ACCESSORS_CUSTOM_PLURAL(singular, plural) \ IDENTIFIER_REGISTRY_NON_CONST_ACCESSORS_FULL_CUSTOM(singular, plural, plural, plural, 0) #define IDENTIFIER_REGISTRY_NON_CONST_ACCESSORS_CUSTOM_INDEX_OFFSET(name, index_offset) \ IDENTIFIER_REGISTRY_NON_CONST_ACCESSORS_FULL_CUSTOM(name, name##s, name##s, name##s, index_offset) #define IDENTIFIER_REGISTRY_NON_CONST_ACCESSORS_FULL_CUSTOM(singular, plural, registry, debug_name, index_offset) \ IDENTIFIER_REGISTRY_INTERNAL_SHARED(singular, plural, registry, index_offset,) #define IDENTIFIER_REGISTRY_INTERNAL_SHARED(singular, plural, registry, index_offset, const_kw) \ decltype(registry)::value_type const_kw* get_##singular##_by_identifier(std::string_view identifier) const_kw { \ return registry.get_item_by_identifier(identifier); \ } \ decltype(registry)::value_type const_kw* get_##singular##_by_index(size_t index) const_kw { \ return index >= index_offset ? registry.get_item_by_index(index - index_offset) : nullptr; \ } \ std::vector const_kw& get_##plural() const_kw { \ return registry.get_items(); \ } \ NodeTools::callback_t expect_##singular##_str( \ NodeTools::callback_t callback, bool warn = false \ ) const_kw { \ return registry.expect_item_str(callback, warn); \ } \ NodeTools::node_callback_t expect_##singular##_identifier( \ NodeTools::callback_t callback, bool warn = false \ ) const_kw { \ return registry.expect_item_identifier(callback, warn); \ } \ NodeTools::node_callback_t expect_##singular##_dictionary( \ NodeTools::callback_t callback \ ) const_kw { \ return registry.expect_item_dictionary(callback); \ } }