src/schema.cpp - 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>
  *
 */

 #include <iostream>
 #include "schema.hpp"
 #include "utils.hpp"

 InvalidNodeException::~InvalidNodeException() = default;


 std::string pathToString(const path_& path)
 {
     std::string res;
     for (const auto it : path.m_nodes)
         res = joinPaths(res, boost::apply_visitor(nodeToString(), it));
     return res;
 }

 Schema::Schema()
 {
     m_nodes.emplace("", std::unordered_map<std::string, NodeType>());
 }

 const std::unordered_map<std::string, NodeType>& Schema::children(const std::string& name) const
 {
     return m_nodes.at(name);
 }

 bool Schema::nodeExists(const std::string& location, const std::string& name) const
 {
     if (name.empty())
         return true;
     const auto& childrenRef = children(location);

     return childrenRef.find(name) != childrenRef.end();
 }

 bool Schema::isContainer(const path_& location, const std::string& name) const
 {
     std::string locationString = pathToString(location);
     if (!nodeExists(locationString, name))
         return false;

     return children(locationString).at(name).type() == typeid(yang::container);
 }

 void Schema::addContainer(const std::string& location, const std::string& name)
 {
     m_nodes.at(location).emplace(name, yang::container{});

     //create a new set of children for the new node
     std::string key = joinPaths(location, name);
     m_nodes.emplace(key, std::unordered_map<std::string, NodeType>());
 }


 bool Schema::listHasKey(const path_& location, const std::string& name, const std::string& key) const
 {
     std::string locationString = pathToString(location);
     assert(isList(location, name));

     const auto& child = children(locationString).at(name);
     const auto& list = boost::get<yang::list>(child);
     return list.m_keys.find(key) != list.m_keys.end();
 }

 const std::set<std::string>& Schema::listKeys(const path_& location, const std::string& name) const
 {
     std::string locationString = pathToString(location);
     assert(isList(location, name));

     const auto& child = children(locationString).at(name);
     const auto& list = boost::get<yang::list>(child);
     return list.m_keys;
 }

 bool Schema::isList(const path_& location, const std::string& name) const
 {
     std::string locationString = pathToString(location);
     if (!nodeExists(locationString, name))
         return false;
     const auto& child = children(locationString).at(name);
     if (child.type() != typeid(yang::list))
         return false;

     return true;
 }

 void Schema::addList(const std::string& location, const std::string& name, const std::set<std::string>& keys)
 {
     m_nodes.at(location).emplace(name, yang::list{keys});

     m_nodes.emplace(name, std::unordered_map<std::string, NodeType>());
 }
	/*
	* 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>
	*
	*/

	#include <iostream>
	#include "schema.hpp"
	#include "utils.hpp"

	InvalidNodeException::~InvalidNodeException() = default;


	std::string pathToString(const path_& path)
	{
	std::string res;
	for (const auto it : path.m_nodes)
	res = joinPaths(res, boost::apply_visitor(nodeToString(), it));
	return res;
	}

	Schema::Schema()
	{
	m_nodes.emplace("", std::unordered_map<std::string, NodeType>());
	}

	const std::unordered_map<std::string, NodeType>& Schema::children(const std::string& name) const
	{
	return m_nodes.at(name);
	}

	bool Schema::nodeExists(const std::string& location, const std::string& name) const
	{
	if (name.empty())
	return true;
	const auto& childrenRef = children(location);

	return childrenRef.find(name) != childrenRef.end();
	}

	bool Schema::isContainer(const path_& location, const std::string& name) const
	{
	std::string locationString = pathToString(location);
	if (!nodeExists(locationString, name))
	return false;

	return children(locationString).at(name).type() == typeid(yang::container);
	}

	void Schema::addContainer(const std::string& location, const std::string& name)
	{
	m_nodes.at(location).emplace(name, yang::container{});

	//create a new set of children for the new node
	std::string key = joinPaths(location, name);
	m_nodes.emplace(key, std::unordered_map<std::string, NodeType>());
	}


	bool Schema::listHasKey(const path_& location, const std::string& name, const std::string& key) const
	{
	std::string locationString = pathToString(location);
	assert(isList(location, name));

	const auto& child = children(locationString).at(name);
	const auto& list = boost::get<yang::list>(child);
	return list.m_keys.find(key) != list.m_keys.end();
	}

	const std::set<std::string>& Schema::listKeys(const path_& location, const std::string& name) const
	{
	std::string locationString = pathToString(location);
	assert(isList(location, name));

	const auto& child = children(locationString).at(name);
	const auto& list = boost::get<yang::list>(child);
	return list.m_keys;
	}

	bool Schema::isList(const path_& location, const std::string& name) const
	{
	std::string locationString = pathToString(location);
	if (!nodeExists(locationString, name))
	return false;
	const auto& child = children(locationString).at(name);
	if (child.type() != typeid(yang::list))
	return false;

	return true;
	}

	void Schema::addList(const std::string& location, const std::string& name, const std::set<std::string>& keys)
	{
	m_nodes.at(location).emplace(name, yang::list{keys});

	m_nodes.emplace(name, std::unordered_map<std::string, NodeType>());
	}