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#pragma once
#include <vector>
#include "openvic-simulation/dataloader/NodeTools.hpp"
#include "openvic-simulation/types/fixed_point/FixedPointMap.hpp"
#include "openvic-simulation/types/HasIdentifier.hpp"
#include "openvic-simulation/utility/Getters.hpp"
#include "openvic-simulation/utility/Logger.hpp"
namespace OpenVic {
/* 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 constexpr bool duplicate_ignore_callback(std::string_view registry_name, std::string_view duplicate_identifier) {
return true;
}
/* Registry Value Info - the type that is being registered, and a unique identifier string getter. */
template<typename ValueInfo>
concept RegistryValueInfo = requires(
typename ValueInfo::internal_value_type& item, typename ValueInfo::internal_value_type const& const_item
) {
{ ValueInfo::get_identifier(item) } -> std::same_as<std::string_view>;
{ ValueInfo::get_external_value(item) } -> std::same_as<typename ValueInfo::external_value_type&>;
{ ValueInfo::get_external_value(const_item) } -> std::same_as<typename ValueInfo::external_value_type const&>;
};
template<HasGetIdentifier Value>
struct RegistryValueInfoHasGetIdentifier {
using internal_value_type = Value;
using external_value_type = Value;
static constexpr std::string_view get_identifier(internal_value_type const& item) {
return item.get_identifier();
}
static constexpr external_value_type& get_external_value(internal_value_type& item) {
return item;
}
static constexpr external_value_type const& get_external_value(internal_value_type const& item) {
return item;
}
};
template<RegistryValueInfo ValueInfo>
struct RegistryValueInfoPointer {
using internal_value_type = typename ValueInfo::internal_value_type*;
using external_value_type = typename ValueInfo::external_value_type;
static constexpr std::string_view get_identifier(internal_value_type const& item) {
return ValueInfo::get_identifier(*item);
}
static constexpr external_value_type& get_external_value(internal_value_type& item) {
return ValueInfo::get_external_value(*item);
}
static constexpr external_value_type const& get_external_value(internal_value_type const& item) {
return ValueInfo::get_external_value(*item);
}
};
/* Registry Item Info - how individual elements of the registered type are stored, and type from item getters. */
template<template<typename> typename ItemInfo, typename Value>
concept RegistryItemInfo = requires(
typename ItemInfo<Value>::item_type& item, typename ItemInfo<Value>::item_type const& const_item
) {
{ ItemInfo<Value>::get_value(item) } -> std::same_as<Value&>;
{ ItemInfo<Value>::get_value(const_item) } -> std::same_as<Value const&>;
};
template<typename Value>
struct RegistryItemInfoValue {
using item_type = Value;
static constexpr Value& get_value(item_type& item) {
return item;
}
static constexpr Value const& get_value(item_type const& item) {
return item;
}
};
template<typename Value>
struct RegistryItemInfoInstance {
using item_type = std::unique_ptr<Value>;
static constexpr Value& get_value(item_type& item) {
return *item.get();
}
static constexpr Value const& get_value(item_type const& item) {
return *item.get();
}
};
/* Registry Storage Info - how items are stored and indexed, and item-index conversion functions. */
template<template<typename> typename StorageInfo, typename Item>
concept RegistryStorageInfo =
std::same_as<typename StorageInfo<Item>::storage_type::value_type, Item> &&
requires(
typename StorageInfo<Item>::storage_type& items, typename StorageInfo<Item>::storage_type const& const_items,
typename StorageInfo<Item>::index_type index
) {
{ StorageInfo<Item>::get_back_index(items) } -> std::same_as<typename StorageInfo<Item>::index_type>;
{ StorageInfo<Item>::get_item_from_index(items, index) } -> std::same_as<Item&>;
{ StorageInfo<Item>::get_item_from_index(const_items, index) } -> std::same_as<Item const&>;
};
template<typename Item>
struct RegistryStorageInfoVector {
using storage_type = std::vector<Item>;
using index_type = std::size_t;
static constexpr index_type get_back_index(storage_type& items) {
return items.size() - 1;
}
static constexpr Item& get_item_from_index(storage_type& items, index_type index) {
return items[index];
}
static constexpr Item const& get_item_from_index(storage_type const& items, index_type index) {
return items[index];
}
};
template<typename Item>
struct RegistryStorageInfoDeque {
using storage_type = std::deque<Item>;
using index_type = Item*;
static constexpr index_type get_back_index(storage_type& items) {
return std::addressof(items.back());
}
static constexpr Item& get_item_from_index(storage_type& items, index_type index) {
return *index;
}
static constexpr Item const& get_item_from_index(storage_type const& items, index_type index) {
return *index;
}
};
template<
RegistryValueInfo ValueInfo, /* The type that is being registered and that has unique string identifiers */
template<typename> typename _ItemInfo, /* How the type is being stored, usually either by value or std::unique_ptr */
template<typename> typename _StorageInfo = RegistryStorageInfoVector, /* How items are stored, including indexing type */
StringMapCase Case = StringMapCaseSensitive /* Identifier map parameters */
>
requires(
RegistryItemInfo<_ItemInfo, typename ValueInfo::internal_value_type> &&
RegistryStorageInfo<_StorageInfo, typename _ItemInfo<typename ValueInfo::internal_value_type>::item_type>
)
class UniqueKeyRegistry {
public:
using internal_value_type = typename ValueInfo::internal_value_type;
using external_value_type = typename ValueInfo::external_value_type;
using ItemInfo = _ItemInfo<internal_value_type>;
using item_type = typename ItemInfo::item_type;
private:
using StorageInfo = _StorageInfo<item_type>;
using index_type = typename StorageInfo::index_type;
using identifier_index_map_t = template_string_map_t<index_type, Case>;
public:
using storage_type = typename StorageInfo::storage_type;
static constexpr bool storage_type_reservable = Reservable<storage_type>;
private:
std::string PROPERTY(name);
const bool log_lock;
storage_type PROPERTY_REF(items);
bool PROPERTY_CUSTOM_PREFIX(locked, is);
identifier_index_map_t identifier_index_map;
public:
constexpr UniqueKeyRegistry(std::string_view new_name, bool new_log_lock = true)
: name { new_name }, log_lock { new_log_lock }, locked { false } {}
constexpr bool add_item(
item_type&& item, NodeTools::Callback<std::string_view, std::string_view> auto duplicate_callback
) {
if (locked) {
Logger::error("Cannot add item to the ", name, " registry - locked!");
return false;
}
const std::string_view new_identifier = ValueInfo::get_identifier(ItemInfo::get_value(item));
external_value_type const* old_item = get_item_by_identifier(new_identifier);
if (old_item != nullptr) {
return duplicate_callback(name, new_identifier);
}
items.emplace_back(std::move(item));
const index_type index = StorageInfo::get_back_index(items);
/* Get item's identifier via index rather than using new_identifier, as it may have been invalidated item's move. */
identifier_index_map.emplace(
ValueInfo::get_identifier(ItemInfo::get_value(StorageInfo::get_item_from_index(items, index))),
StorageInfo::get_back_index(items)
);
return true;
}
constexpr bool add_item(item_type&& item) {
return add_item(std::move(item), duplicate_fail_callback);
}
constexpr 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");
}
}
}
constexpr void reset() {
identifier_index_map.clear();
items.clear();
locked = false;
}
constexpr std::size_t size() const {
return items.size();
}
constexpr bool empty() const {
return items.empty();
}
constexpr void reserve(std::size_t size) {
if constexpr (storage_type_reservable) {
if (locked) {
Logger::error("Failed to reserve space for ", size, " items in ", name, " registry - already locked!");
} else {
items.reserve(size);
identifier_index_map.reserve(size);
}
} else {
Logger::error("Cannot reserve space for ", size, " ", name, " - storage_type not reservable!");
}
}
constexpr void reserve_more(std::size_t size) {
OpenVic::reserve_more(*this, size);
}
static constexpr NodeTools::KeyValueCallback auto key_value_invalid_callback(std::string_view name) {
return [name](std::string_view key, ast::NodeCPtr) {
Logger::error("Invalid ", name, ": ", key);
return false;
};
}
#define GETTERS(CONST) \
constexpr external_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 std::addressof( \
ValueInfo::get_external_value(ItemInfo::get_value(StorageInfo::get_item_from_index(items, it->second))) \
); \
} \
return nullptr; \
} \
template<std::derived_from<external_value_type> T> \
requires requires(external_value_type const& value) { \
{ value.get_type() } -> std::same_as<std::string_view>; \
{ T::get_type_static() } -> std::same_as<std::string_view>; \
} \
constexpr T CONST* get_cast_item_by_identifier(std::string_view identifier) CONST { \
external_value_type CONST* item = get_item_by_identifier(identifier); \
if (item != nullptr) { \
if (item->get_type() == T::get_type_static()) { \
return reinterpret_cast<T CONST*>(item); \
} \
Logger::error( \
"Invalid type for item \"", identifier, "\": ", item->get_type(), " (expected ", T::get_type_static(), ")" \
); \
} \
return nullptr; \
} \
constexpr external_value_type CONST* get_item_by_index(std::size_t index) CONST { \
if (index < items.size()) { \
return std::addressof(ValueInfo::get_external_value(ItemInfo::get_value(items[index]))); \
} else { \
return nullptr; \
} \
} \
constexpr NodeTools::Callback<std::string_view> auto expect_item_str( \
NodeTools::Callback<external_value_type CONST&> auto callback, bool allow_empty, bool warn \
) CONST { \
return [this, callback, allow_empty, warn](std::string_view identifier) -> bool { \
if (identifier.empty()) { \
if (allow_empty) { \
return true; \
} else { \
Logger::warn_or_error(warn, "Invalid ", name, " identifier: empty!"); \
return warn; \
} \
} \
external_value_type CONST* item = get_item_by_identifier(identifier); \
if (item != nullptr) { \
return callback(*item); \
} \
Logger::warn_or_error(warn, "Invalid ", name, " identifier: ", identifier); \
return warn; \
}; \
} \
constexpr NodeTools::NodeCallback auto expect_item_identifier( \
NodeTools::Callback<external_value_type CONST&> auto callback, bool warn \
) CONST { \
return NodeTools::expect_identifier(expect_item_str(callback, false, warn)); \
} \
constexpr NodeTools::NodeCallback auto expect_item_string( \
NodeTools::Callback<external_value_type CONST&> auto callback, bool allow_empty, bool warn \
) CONST { \
return NodeTools::expect_string(expect_item_str(callback, allow_empty, warn), allow_empty); \
} \
constexpr NodeTools::NodeCallback auto expect_item_identifier_or_string( \
NodeTools::Callback<external_value_type CONST&> auto callback, bool allow_empty, bool warn \
) CONST { \
return NodeTools::expect_identifier_or_string(expect_item_str(callback, allow_empty, warn), allow_empty); \
} \
constexpr NodeTools::NodeCallback auto expect_item_assign_and_default( \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return NodeTools::expect_assign( \
[this, default_callback, callback](std::string_view key, ast::NodeCPtr value) -> bool { \
external_value_type CONST* item = get_item_by_identifier(key); \
if (item != nullptr) { \
return callback(*item, value); \
} else { \
return default_callback(key, value); \
} \
} \
); \
} \
constexpr NodeTools::NodeCallback auto expect_item_assign( \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return expect_item_assign_and_default(key_value_invalid_callback(name), callback); \
} \
constexpr NodeTools::NodeCallback auto expect_item_dictionary_and_length_and_default( \
NodeTools::LengthCallback auto length_callback, \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return NodeTools::expect_list_and_length( \
length_callback, expect_item_assign_and_default(default_callback, callback) \
); \
} \
constexpr NodeTools::NodeCallback auto expect_item_dictionary_and_length( \
NodeTools::LengthCallback auto length_callback, \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return expect_item_dictionary_and_length_and_default( \
length_callback, \
key_value_invalid_callback(name), \
callback \
); \
} \
constexpr NodeTools::NodeCallback auto expect_item_dictionary_and_default( \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return expect_item_dictionary_and_length_and_default( \
NodeTools::default_length_callback, \
default_callback, \
callback \
); \
} \
constexpr NodeTools::NodeCallback auto expect_item_dictionary( \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return expect_item_dictionary_and_length_and_default( \
NodeTools::default_length_callback, \
key_value_invalid_callback(name), \
callback \
); \
} \
constexpr NodeTools::NodeCallback auto expect_item_dictionary_reserve_length_and_default( \
Reservable auto& reservable, \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return expect_item_dictionary_and_length_and_default( \
NodeTools::reserve_length_callback(reservable), \
default_callback, \
callback \
); \
} \
constexpr NodeTools::NodeCallback auto expect_item_dictionary_reserve_length( \
Reservable auto& reservable, \
NodeTools::Callback<external_value_type CONST&, ast::NodeCPtr> auto callback \
) CONST { \
return expect_item_dictionary_and_length_and_default( \
NodeTools::reserve_length_callback(reservable), \
key_value_invalid_callback(name), \
callback \
); \
}
#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
constexpr bool has_identifier(std::string_view identifier) const {
return identifier_index_map.contains(identifier);
}
constexpr bool has_index(std::size_t index) const {
return index < size();
}
std::vector<std::string_view> get_item_identifiers() const {
std::vector<std::string_view> identifiers;
identifiers.reserve(items.size());
for (typename identifier_index_map_t::value_type const& entry : identifier_index_map) {
identifiers.push_back(entry.first);
}
return identifiers;
}
/* Parses a dictionary with item keys and decimal number values (in the form of fixed point values),
* with the resulting map move-returned via `callback`. The values can be transformed by providing
* a fixed point to fixed point function fixed_point_functor, which will be applied to ever parsed value. */
template<NodeTools::FunctorConvertible<fixed_point_t, fixed_point_t> FixedPointFunctor = std::identity>
constexpr NodeTools::NodeCallback auto expect_item_decimal_map(
NodeTools::Callback<fixed_point_map_t<external_value_type const*>&&> auto callback,
FixedPointFunctor fixed_point_functor = {}
) const {
return [this, callback, fixed_point_functor](ast::NodeCPtr node) -> bool {
fixed_point_map_t<external_value_type const*> map;
bool ret = expect_item_dictionary(
[&map, fixed_point_functor](external_value_type const& key, ast::NodeCPtr value) -> bool {
return NodeTools::expect_fixed_point(
[&map, fixed_point_functor, &key](fixed_point_t val) -> bool {
map.emplace(&key, fixed_point_functor(val));
return true;
}
)(value);
}
)(node);
ret &= callback(std::move(map));
return ret;
};
}
};
/* Item Specialisations */
template<
RegistryValueInfo ValueInfo, template<typename> typename StorageInfo = RegistryStorageInfoVector,
StringMapCase Case = StringMapCaseSensitive
>
requires
RegistryStorageInfo<StorageInfo, typename RegistryItemInfoValue<typename ValueInfo::internal_value_type>::item_type>
using ValueRegistry = UniqueKeyRegistry<ValueInfo, RegistryItemInfoValue, StorageInfo, Case>;
template<
RegistryValueInfo ValueInfo, template<typename> typename StorageInfo = RegistryStorageInfoVector,
StringMapCase Case = StringMapCaseSensitive
>
requires
RegistryStorageInfo<StorageInfo, typename RegistryItemInfoInstance<typename ValueInfo::internal_value_type>::item_type>
using InstanceRegistry = UniqueKeyRegistry<ValueInfo, RegistryItemInfoInstance, StorageInfo, Case>;
/* HasGetIdentifier Specialisations */
template<
HasGetIdentifier Value, template<typename> typename StorageInfo = RegistryStorageInfoVector,
StringMapCase Case = StringMapCaseSensitive
>
using IdentifierRegistry = ValueRegistry<RegistryValueInfoHasGetIdentifier<Value>, StorageInfo, Case>;
template<
HasGetIdentifier Value, template<typename> typename StorageInfo = RegistryStorageInfoVector,
StringMapCase Case = StringMapCaseSensitive
>
using IdentifierPointerRegistry =
ValueRegistry<RegistryValueInfoPointer<RegistryValueInfoHasGetIdentifier<Value>>, StorageInfo, Case>;
template<
HasGetIdentifier Value, template<typename> typename StorageInfo = RegistryStorageInfoVector,
StringMapCase Case = StringMapCaseSensitive
>
using IdentifierInstanceRegistry = InstanceRegistry<RegistryValueInfoHasGetIdentifier<Value>, StorageInfo, Case>;
/* Case-Insensitive HasGetIdentifier Specialisations */
template<HasGetIdentifier Value, template<typename> typename StorageInfo = RegistryStorageInfoVector>
using CaseInsensitiveIdentifierRegistry = IdentifierRegistry<Value, StorageInfo, StringMapCaseInsensitive>;
template<HasGetIdentifier Value, template<typename> typename StorageInfo = RegistryStorageInfoVector>
using CaseInsensitiveIdentifierPointerRegistry = IdentifierPointerRegistry<Value, StorageInfo, StringMapCaseInsensitive>;
template<HasGetIdentifier Value, template<typename> typename StorageInfo = RegistryStorageInfoVector>
using CaseInsensitiveIdentifierInstanceRegistry = IdentifierInstanceRegistry<Value, StorageInfo, StringMapCaseInsensitive>;
/* 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: \
constexpr void lock_##plural() { \
registry.lock(); \
} \
constexpr bool plural##_are_locked() const { \
return registry.is_locked(); \
} \
template<typename = void> \
constexpr void reserve_##plural(size_t size) requires(decltype(registry)::storage_type_reservable) { \
registry.reserve(size); \
} \
template<typename = void> \
constexpr void reserve_more_##plural(size_t size) requires(decltype(registry)::storage_type_reservable) { \
registry.reserve_more(size); \
} \
constexpr bool has_##singular##_identifier(std::string_view identifier) const { \
return registry.has_identifier(identifier); \
} \
constexpr std::size_t get_##singular##_count() const { \
return registry.size(); \
} \
constexpr bool plural##_empty() const { \
return registry.empty(); \
} \
std::vector<std::string_view> get_##singular##_identifiers() const { \
return registry.get_item_identifiers(); \
} \
template<NodeTools::FunctorConvertible<fixed_point_t, fixed_point_t> FixedPointFunctor = std::identity> \
constexpr NodeTools::NodeCallback auto expect_##singular##_decimal_map( \
NodeTools::Callback<fixed_point_map_t<decltype(registry)::external_value_type const*>&&> auto callback, \
FixedPointFunctor fixed_point_functor = {} \
) const { \
return registry.expect_item_decimal_map(callback, fixed_point_functor); \
} \
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) \
constexpr decltype(registry)::external_value_type const_kw* get_##singular##_by_identifier(std::string_view identifier) const_kw { \
return registry.get_item_by_identifier(identifier); \
} \
template<std::derived_from<decltype(registry)::external_value_type> T> \
constexpr T const_kw* get_cast_##singular##_by_identifier(std::string_view identifier) const_kw { \
return registry.get_cast_item_by_identifier<T>(identifier); \
} \
constexpr decltype(registry)::external_value_type const_kw* get_##singular##_by_index(std::size_t index) const_kw { \
return index >= index_offset ? registry.get_item_by_index(index - index_offset) : nullptr; \
} \
constexpr decltype(registry)::storage_type const_kw& get_##plural() const_kw { \
return registry.get_items(); \
} \
constexpr NodeTools::Callback<std::string_view> auto expect_##singular##_str( \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&> auto callback, bool allow_empty = false, \
bool warn = false \
) const_kw { \
return registry.expect_item_str(callback, allow_empty, warn); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_identifier( \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&> auto callback, bool warn = false \
) const_kw { \
return registry.expect_item_identifier(callback, warn); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_string( \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&> auto callback, bool allow_empty = false, \
bool warn = false \
) const_kw { \
return registry.expect_item_string(callback, allow_empty, warn); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_identifier_or_string( \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&> auto callback, bool allow_empty = false, \
bool warn = false \
) const_kw { \
return registry.expect_item_identifier_or_string(callback, allow_empty, warn); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_assign_and_default( \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&, ast::NodeCPtr> auto callback \
) const_kw { \
return registry.expect_item_assign_and_default(default_callback, callback); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_assign( \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&, ast::NodeCPtr> auto callback \
) const_kw { \
return registry.expect_item_assign(callback); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_dictionary_and_length_and_default( \
NodeTools::LengthCallback auto length_callback, \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&, ast::NodeCPtr> auto callback \
) const_kw { \
return registry.expect_item_dictionary_and_length_and_default(length_callback, default_callback, callback); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_dictionary_and_default( \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&, ast::NodeCPtr> auto callback \
) const_kw { \
return registry.expect_item_dictionary_and_default(default_callback, callback); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_dictionary( \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&, ast::NodeCPtr> auto callback \
) const_kw { \
return registry.expect_item_dictionary(callback); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_dictionary_reserve_length_and_default( \
Reservable auto& reservable, \
NodeTools::KeyValueCallback auto default_callback, \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&, ast::NodeCPtr> auto callback \
) const_kw { \
return registry.expect_item_dictionary_reserve_length_and_default(reservable, default_callback, callback); \
} \
constexpr NodeTools::NodeCallback auto expect_##singular##_dictionary_reserve_length( \
Reservable auto& reservable, \
NodeTools::Callback<decltype(registry)::external_value_type const_kw&, ast::NodeCPtr> auto callback \
) const_kw { \
return registry.expect_item_dictionary_reserve_length(reservable, callback); \
}
}
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