src/ast_path.hpp - CzechLight/netconf-cli - Gitiles

 /*
  * Copyright (C) 2018 CESNET, https://photonics.cesnet.cz/
  * Copyright (C) 2018 FIT CVUT, https://fit.cvut.cz/
  *
  * Written by Václav Kubernát <kubervac@fit.cvut.cz>
  *
 */
 #pragma once

 #include <boost/fusion/adapted/struct/adapt_struct.hpp>
 #include <boost/fusion/include/adapt_struct.hpp>
 #include <boost/fusion/include/std_pair.hpp>
 #include <map>
 #include <variant>
 #include <vector>

 #include "ast_values.hpp"
 #include "list_instance.hpp"

 enum class Prefixes {
     Always,
     WhenNeeded
 };

 struct nodeup_ {
     bool operator==(const nodeup_&) const
     {
         return true;
     }
 };

 struct container_ {
     container_() = default;
     container_(const std::string& name);

     bool operator==(const container_& b) const;

     std::string m_name;
 };

 struct leaf_ {
     leaf_() = default;
     leaf_(const std::string& name);

     bool operator==(const leaf_& b) const;

     std::string m_name;
 };

 struct leafList_ {
     leafList_(const std::string& name);

     bool operator==(const leafList_& b) const;

     std::string m_name;
 };

 struct leafListElement_ {
     bool operator==(const leafListElement_& b) const;

     std::string m_name;
     leaf_data_ m_value;
 };

 struct listElement_ {
     listElement_() = default;
     listElement_(const std::string& listName, const ListInstance& keys);

     bool operator==(const listElement_& b) const;

     std::string m_name;
     ListInstance m_keys;
 };

 struct list_ {
     list_() = default;
     list_(const std::string& listName);

     bool operator==(const list_& b) const;

     std::string m_name;
 };

 struct rpcNode_ {
     bool operator==(const rpcNode_& other) const;

     std::string m_name;
 };

 struct actionNode_ {
     bool operator==(const actionNode_& other) const;

     std::string m_name;
 };

 struct schemaNode_ {
     boost::optional<module_> m_prefix;
     std::variant<container_, list_, nodeup_, leaf_, leafList_, rpcNode_, actionNode_> m_suffix;

     schemaNode_();
     schemaNode_(decltype(m_suffix) node);
     schemaNode_(module_ module, decltype(m_suffix) node);
     bool operator==(const schemaNode_& b) const;
 };

 struct dataNode_ {
     boost::optional<module_> m_prefix;
     std::variant<container_, listElement_, nodeup_, leaf_, leafListElement_, leafList_, list_, rpcNode_, actionNode_> m_suffix;

     dataNode_();
     dataNode_(decltype(m_suffix) node);
     dataNode_(boost::optional<module_> module, decltype(m_suffix) node);
     dataNode_(module_ module, decltype(m_suffix) node);
     bool operator==(const dataNode_& b) const;
 };

 enum class Scope {
     Absolute,
     Relative
 };

 struct schemaPath_ {
     schemaPath_();
     schemaPath_(const Scope scope, const std::vector<schemaNode_>& nodes);
     bool operator==(const schemaPath_& b) const;
     Scope m_scope = Scope::Relative;
     std::vector<schemaNode_> m_nodes;
     // @brief Pushes a new fragment. Pops a fragment if it's nodeup_
     void pushFragment(const schemaNode_& fragment);
 };

 struct dataPath_ {
     dataPath_();
     dataPath_(const Scope scope, const std::vector<dataNode_>& nodes);
     bool operator==(const dataPath_& b) const;
     Scope m_scope = Scope::Relative;
     std::vector<dataNode_> m_nodes;

     // @brief Pushes a new fragment. Pops a fragment if it's nodeup_
     void pushFragment(const dataNode_& fragment);
 };

 enum class WritableOps {
     Yes,
     No
 };

 std::string nodeToSchemaString(decltype(dataPath_::m_nodes)::value_type node);

 std::string pathToDataString(const dataPath_& path, Prefixes prefixes);
 std::string pathToSchemaString(const schemaPath_& path, Prefixes prefixes);
 std::string pathToSchemaString(const dataPath_& path, Prefixes prefixes);
 schemaNode_ dataNodeToSchemaNode(const dataNode_& node);
 schemaPath_ dataPathToSchemaPath(const dataPath_& path);
 std::string escapeListKeyString(const std::string& what);

 BOOST_FUSION_ADAPT_STRUCT(container_, m_name)
 BOOST_FUSION_ADAPT_STRUCT(listElement_, m_name, m_keys)
 BOOST_FUSION_ADAPT_STRUCT(leafListElement_, m_name, m_value)
 BOOST_FUSION_ADAPT_STRUCT(module_, m_name)
 BOOST_FUSION_ADAPT_STRUCT(dataNode_, m_prefix, m_suffix)
 BOOST_FUSION_ADAPT_STRUCT(schemaNode_, m_prefix, m_suffix)
 BOOST_FUSION_ADAPT_STRUCT(dataPath_, m_scope, m_nodes)
 BOOST_FUSION_ADAPT_STRUCT(schemaPath_, m_scope, m_nodes)
	/*
	* Copyright (C) 2018 CESNET, https://photonics.cesnet.cz/
	* Copyright (C) 2018 FIT CVUT, https://fit.cvut.cz/
	*
	* Written by Václav Kubernát <kubervac@fit.cvut.cz>
	*
	*/
	#pragma once

	#include <boost/fusion/adapted/struct/adapt_struct.hpp>
	#include <boost/fusion/include/adapt_struct.hpp>
	#include <boost/fusion/include/std_pair.hpp>
	#include <map>
	#include <variant>
	#include <vector>

	#include "ast_values.hpp"
	#include "list_instance.hpp"

	enum class Prefixes {
	Always,
	WhenNeeded
	};

	struct nodeup_ {
	bool operator==(const nodeup_&) const
	{
	return true;
	}
	};

	struct container_ {
	container_() = default;
	container_(const std::string& name);

	bool operator==(const container_& b) const;

	std::string m_name;
	};

	struct leaf_ {
	leaf_() = default;
	leaf_(const std::string& name);

	bool operator==(const leaf_& b) const;

	std::string m_name;
	};

	struct leafList_ {
	leafList_(const std::string& name);

	bool operator==(const leafList_& b) const;

	std::string m_name;
	};

	struct leafListElement_ {
	bool operator==(const leafListElement_& b) const;

	std::string m_name;
	leaf_data_ m_value;
	};

	struct listElement_ {
	listElement_() = default;
	listElement_(const std::string& listName, const ListInstance& keys);

	bool operator==(const listElement_& b) const;

	std::string m_name;
	ListInstance m_keys;
	};

	struct list_ {
	list_() = default;
	list_(const std::string& listName);

	bool operator==(const list_& b) const;

	std::string m_name;
	};

	struct rpcNode_ {
	bool operator==(const rpcNode_& other) const;

	std::string m_name;
	};

	struct actionNode_ {
	bool operator==(const actionNode_& other) const;

	std::string m_name;
	};

	struct schemaNode_ {
	boost::optional<module_> m_prefix;
	std::variant<container_, list_, nodeup_, leaf_, leafList_, rpcNode_, actionNode_> m_suffix;

	schemaNode_();
	schemaNode_(decltype(m_suffix) node);
	schemaNode_(module_ module, decltype(m_suffix) node);
	bool operator==(const schemaNode_& b) const;
	};

	struct dataNode_ {
	boost::optional<module_> m_prefix;
	std::variant<container_, listElement_, nodeup_, leaf_, leafListElement_, leafList_, list_, rpcNode_, actionNode_> m_suffix;

	dataNode_();
	dataNode_(decltype(m_suffix) node);
	dataNode_(boost::optional<module_> module, decltype(m_suffix) node);
	dataNode_(module_ module, decltype(m_suffix) node);
	bool operator==(const dataNode_& b) const;
	};

	enum class Scope {
	Absolute,
	Relative
	};

	struct schemaPath_ {
	schemaPath_();
	schemaPath_(const Scope scope, const std::vector<schemaNode_>& nodes);
	bool operator==(const schemaPath_& b) const;
	Scope m_scope = Scope::Relative;
	std::vector<schemaNode_> m_nodes;
	// @brief Pushes a new fragment. Pops a fragment if it's nodeup_
	void pushFragment(const schemaNode_& fragment);
	};

	struct dataPath_ {
	dataPath_();
	dataPath_(const Scope scope, const std::vector<dataNode_>& nodes);
	bool operator==(const dataPath_& b) const;
	Scope m_scope = Scope::Relative;
	std::vector<dataNode_> m_nodes;

	// @brief Pushes a new fragment. Pops a fragment if it's nodeup_
	void pushFragment(const dataNode_& fragment);
	};

	enum class WritableOps {
	Yes,
	No
	};

	std::string nodeToSchemaString(decltype(dataPath_::m_nodes)::value_type node);

	std::string pathToDataString(const dataPath_& path, Prefixes prefixes);
	std::string pathToSchemaString(const schemaPath_& path, Prefixes prefixes);
	std::string pathToSchemaString(const dataPath_& path, Prefixes prefixes);
	schemaNode_ dataNodeToSchemaNode(const dataNode_& node);
	schemaPath_ dataPathToSchemaPath(const dataPath_& path);
	std::string escapeListKeyString(const std::string& what);

	BOOST_FUSION_ADAPT_STRUCT(container_, m_name)
	BOOST_FUSION_ADAPT_STRUCT(listElement_, m_name, m_keys)
	BOOST_FUSION_ADAPT_STRUCT(leafListElement_, m_name, m_value)
	BOOST_FUSION_ADAPT_STRUCT(module_, m_name)
	BOOST_FUSION_ADAPT_STRUCT(dataNode_, m_prefix, m_suffix)
	BOOST_FUSION_ADAPT_STRUCT(schemaNode_, m_prefix, m_suffix)
	BOOST_FUSION_ADAPT_STRUCT(dataPath_, m_scope, m_nodes)
	BOOST_FUSION_ADAPT_STRUCT(schemaPath_, m_scope, m_nodes)