src/grammars.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 "ast_commands.hpp"
 #include "ast_handlers.hpp"


 x3::rule<keyValue_class, keyValue_> const keyValue = "keyValue";
 x3::rule<node_identifier_class, std::string> const node_identifier = "node_identifier";
 x3::rule<module_identifier_class, std::string> const module_identifier = "module_identifier";
 x3::rule<listPrefix_class, std::string> const listPrefix = "listPrefix";
 x3::rule<listSuffix_class, std::vector<keyValue_>> const listSuffix = "listSuffix";
 x3::rule<listElement_class, listElement_> const listElement = "listElement";
 x3::rule<nodeup_class, nodeup_> const nodeup = "nodeup";
 x3::rule<container_class, container_> const container = "container";
 x3::rule<leaf_class, leaf_> const leaf = "leaf";
 x3::rule<module_class, module_> const module = "module";
 x3::rule<node_class, node_> const node = "node";
 x3::rule<absoluteStart_class, Scope> const absoluteStart = "absoluteStart";
 x3::rule<path_class, path_> const path = "path";
 x3::rule<leaf_path_class, path_> const leafPath = "leafPath";

 x3::rule<leaf_data_class, leaf_data_> const leaf_data = "leaf_data";
 x3::rule<leaf_data_enum_class, enum_> const leaf_data_enum = "leaf_data_enum";
 x3::rule<leaf_data_decimal_class, double> const leaf_data_decimal = "leaf_data_decimal";
 x3::rule<leaf_data_bool_class, bool> const leaf_data_bool = "leaf_data_bool";
 x3::rule<leaf_data_int_class, int32_t> const leaf_data_int = "leaf_data_int";
 x3::rule<leaf_data_uint_class, uint32_t> const leaf_data_uint = "leaf_data_uint";
 x3::rule<leaf_data_string_class, std::string> const leaf_data_string = "leaf_data_string";

 x3::rule<ls_class, ls_> const ls = "ls";
 x3::rule<cd_class, cd_> const cd = "cd";
 x3::rule<set_class, set_> const set = "set";
 x3::rule<create_class, create_> const create = "create";
 x3::rule<delete_class, delete_> const delete_rule = "delete_rule";
 x3::rule<command_class, command_> const command = "command";

 #if __clang__
 #pragma GCC diagnostic push
 #pragma GCC diagnostic ignored "-Woverloaded-shift-op-parentheses"
 #endif

 auto const keyValue_def =
         lexeme[+alnum > '=' > +alnum];

 auto const module_identifier_def =
         lexeme[
                 ((alpha | char_("_")) >> *(alnum | char_("_") | char_("-") | char_(".")))
         ];

 auto const node_identifier_def =
         lexeme[
                 ((alpha | char_("_")) >> *(alnum | char_("_") | char_("-") | char_(".")))
         ];

 auto const listPrefix_def =
         node_identifier >> '[';

 // even though we don't allow no keys to be supplied, the star allows me to check which keys are missing
 auto const listSuffix_def =
         *keyValue > ']';

 auto const listElement_def =
         listPrefix > listSuffix;

 auto const nodeup_def =
         lit("..") > x3::attr(nodeup_());

 auto const container_def =
         node_identifier;

 auto const module_def =
         module_identifier >> x3::no_skip[':'] >> !x3::no_skip[space];

 auto const leaf_def =
         node_identifier;

 // leaf cannot be in the middle of a path, however, I need the grammar's attribute to be a vector of variants
 auto const node_def =
         -(module) >> x3::expect[container | listElement | nodeup | leaf];

 auto const absoluteStart_def =
         x3::omit['/'] >> x3::attr(Scope::Absolute);

 // I have to insert an empty vector to the first alternative, otherwise they won't have the same attribute
 auto const path_def =
         absoluteStart >> x3::attr(decltype(path_::m_nodes)()) >> x3::eoi |
         -(absoluteStart) >> node % '/';

 auto const leafPath_def =
         path;

 auto const leaf_data_enum_def =
         +char_;
 auto const leaf_data_decimal_def =
         double_;

 struct bool_symbol_table : x3::symbols<bool> {
     bool_symbol_table()
     {
         add
             ("true", true)
             ("false", false);
     }
 } const bool_rule;

 auto const leaf_data_bool_def =
         bool_rule;
 auto const leaf_data_int_def =
         int_;
 auto const leaf_data_uint_def =
         uint_;
 auto const leaf_data_string_def =
         *char_;

 auto const leaf_data_def =
 x3::expect[
         leaf_data_enum |
         leaf_data_decimal |
         leaf_data_bool |
         leaf_data_int |
         leaf_data_uint |
         leaf_data_string];

 auto const space_separator =
         x3::omit[x3::no_skip[space]];

 auto const ls_def =
         lit("ls") >> -path;

 auto const cd_def =
         lit("cd") >> space_separator > path;

 auto const create_def =
         lit("create") >> space_separator > path;

 auto const delete_rule_def =
         lit("delete") >> space_separator > path;

 auto const set_def =
         lit("set") >> space_separator > leafPath > leaf_data;

 auto const command_def =
         x3::expect[cd | create | delete_rule | set | ls] >> x3::eoi;

 #if __clang__
 #pragma GCC diagnostic pop
 #endif

 BOOST_SPIRIT_DEFINE(keyValue)
 BOOST_SPIRIT_DEFINE(node_identifier)
 BOOST_SPIRIT_DEFINE(module_identifier)
 BOOST_SPIRIT_DEFINE(listPrefix)
 BOOST_SPIRIT_DEFINE(listSuffix)
 BOOST_SPIRIT_DEFINE(listElement)
 BOOST_SPIRIT_DEFINE(nodeup)
 BOOST_SPIRIT_DEFINE(container)
 BOOST_SPIRIT_DEFINE(leaf)
 BOOST_SPIRIT_DEFINE(leafPath)
 BOOST_SPIRIT_DEFINE(node)
 BOOST_SPIRIT_DEFINE(absoluteStart)
 BOOST_SPIRIT_DEFINE(path)
 BOOST_SPIRIT_DEFINE(module)
 BOOST_SPIRIT_DEFINE(leaf_data)
 BOOST_SPIRIT_DEFINE(leaf_data_enum)
 BOOST_SPIRIT_DEFINE(leaf_data_decimal)
 BOOST_SPIRIT_DEFINE(leaf_data_bool)
 BOOST_SPIRIT_DEFINE(leaf_data_int)
 BOOST_SPIRIT_DEFINE(leaf_data_uint)
 BOOST_SPIRIT_DEFINE(leaf_data_string)
 BOOST_SPIRIT_DEFINE(set)
 BOOST_SPIRIT_DEFINE(ls)
 BOOST_SPIRIT_DEFINE(cd)
 BOOST_SPIRIT_DEFINE(create)
 BOOST_SPIRIT_DEFINE(delete_rule)
 BOOST_SPIRIT_DEFINE(command)
	/*
	* 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 "ast_commands.hpp"
	#include "ast_handlers.hpp"


	x3::rule<keyValue_class, keyValue_> const keyValue = "keyValue";
	x3::rule<node_identifier_class, std::string> const node_identifier = "node_identifier";
	x3::rule<module_identifier_class, std::string> const module_identifier = "module_identifier";
	x3::rule<listPrefix_class, std::string> const listPrefix = "listPrefix";
	x3::rule<listSuffix_class, std::vector<keyValue_>> const listSuffix = "listSuffix";
	x3::rule<listElement_class, listElement_> const listElement = "listElement";
	x3::rule<nodeup_class, nodeup_> const nodeup = "nodeup";
	x3::rule<container_class, container_> const container = "container";
	x3::rule<leaf_class, leaf_> const leaf = "leaf";
	x3::rule<module_class, module_> const module = "module";
	x3::rule<node_class, node_> const node = "node";
	x3::rule<absoluteStart_class, Scope> const absoluteStart = "absoluteStart";
	x3::rule<path_class, path_> const path = "path";
	x3::rule<leaf_path_class, path_> const leafPath = "leafPath";

	x3::rule<leaf_data_class, leaf_data_> const leaf_data = "leaf_data";
	x3::rule<leaf_data_enum_class, enum_> const leaf_data_enum = "leaf_data_enum";
	x3::rule<leaf_data_decimal_class, double> const leaf_data_decimal = "leaf_data_decimal";
	x3::rule<leaf_data_bool_class, bool> const leaf_data_bool = "leaf_data_bool";
	x3::rule<leaf_data_int_class, int32_t> const leaf_data_int = "leaf_data_int";
	x3::rule<leaf_data_uint_class, uint32_t> const leaf_data_uint = "leaf_data_uint";
	x3::rule<leaf_data_string_class, std::string> const leaf_data_string = "leaf_data_string";

	x3::rule<ls_class, ls_> const ls = "ls";
	x3::rule<cd_class, cd_> const cd = "cd";
	x3::rule<set_class, set_> const set = "set";
	x3::rule<create_class, create_> const create = "create";
	x3::rule<delete_class, delete_> const delete_rule = "delete_rule";
	x3::rule<command_class, command_> const command = "command";

	#if __clang__
	#pragma GCC diagnostic push
	#pragma GCC diagnostic ignored "-Woverloaded-shift-op-parentheses"
	#endif

	auto const keyValue_def =
	lexeme[+alnum > '=' > +alnum];

	auto const module_identifier_def =
	lexeme[
	((alpha \| char_("_")) >> *(alnum \| char_("_") \| char_("-") \| char_(".")))
	];

	auto const node_identifier_def =
	lexeme[
	((alpha \| char_("_")) >> *(alnum \| char_("_") \| char_("-") \| char_(".")))
	];

	auto const listPrefix_def =
	node_identifier >> '[';

	// even though we don't allow no keys to be supplied, the star allows me to check which keys are missing
	auto const listSuffix_def =
	*keyValue > ']';

	auto const listElement_def =
	listPrefix > listSuffix;

	auto const nodeup_def =
	lit("..") > x3::attr(nodeup_());

	auto const container_def =
	node_identifier;

	auto const module_def =
	module_identifier >> x3::no_skip[':'] >> !x3::no_skip[space];

	auto const leaf_def =
	node_identifier;

	// leaf cannot be in the middle of a path, however, I need the grammar's attribute to be a vector of variants
	auto const node_def =
	-(module) >> x3::expect[container \| listElement \| nodeup \| leaf];

	auto const absoluteStart_def =
	x3::omit['/'] >> x3::attr(Scope::Absolute);

	// I have to insert an empty vector to the first alternative, otherwise they won't have the same attribute
	auto const path_def =
	absoluteStart >> x3::attr(decltype(path_::m_nodes)()) >> x3::eoi \|
	-(absoluteStart) >> node % '/';

	auto const leafPath_def =
	path;

	auto const leaf_data_enum_def =
	+char_;
	auto const leaf_data_decimal_def =
	double_;

	struct bool_symbol_table : x3::symbols<bool> {
	bool_symbol_table()
	{
	add
	("true", true)
	("false", false);
	}
	} const bool_rule;

	auto const leaf_data_bool_def =
	bool_rule;
	auto const leaf_data_int_def =
	int_;
	auto const leaf_data_uint_def =
	uint_;
	auto const leaf_data_string_def =
	*char_;

	auto const leaf_data_def =
	x3::expect[
	leaf_data_enum \|
	leaf_data_decimal \|
	leaf_data_bool \|
	leaf_data_int \|
	leaf_data_uint \|
	leaf_data_string];

	auto const space_separator =
	x3::omit[x3::no_skip[space]];

	auto const ls_def =
	lit("ls") >> -path;

	auto const cd_def =
	lit("cd") >> space_separator > path;

	auto const create_def =
	lit("create") >> space_separator > path;

	auto const delete_rule_def =
	lit("delete") >> space_separator > path;

	auto const set_def =
	lit("set") >> space_separator > leafPath > leaf_data;

	auto const command_def =
	x3::expect[cd \| create \| delete_rule \| set \| ls] >> x3::eoi;

	#if __clang__
	#pragma GCC diagnostic pop
	#endif

	BOOST_SPIRIT_DEFINE(keyValue)
	BOOST_SPIRIT_DEFINE(node_identifier)
	BOOST_SPIRIT_DEFINE(module_identifier)
	BOOST_SPIRIT_DEFINE(listPrefix)
	BOOST_SPIRIT_DEFINE(listSuffix)
	BOOST_SPIRIT_DEFINE(listElement)
	BOOST_SPIRIT_DEFINE(nodeup)
	BOOST_SPIRIT_DEFINE(container)
	BOOST_SPIRIT_DEFINE(leaf)
	BOOST_SPIRIT_DEFINE(leafPath)
	BOOST_SPIRIT_DEFINE(node)
	BOOST_SPIRIT_DEFINE(absoluteStart)
	BOOST_SPIRIT_DEFINE(path)
	BOOST_SPIRIT_DEFINE(module)
	BOOST_SPIRIT_DEFINE(leaf_data)
	BOOST_SPIRIT_DEFINE(leaf_data_enum)
	BOOST_SPIRIT_DEFINE(leaf_data_decimal)
	BOOST_SPIRIT_DEFINE(leaf_data_bool)
	BOOST_SPIRIT_DEFINE(leaf_data_int)
	BOOST_SPIRIT_DEFINE(leaf_data_uint)
	BOOST_SPIRIT_DEFINE(leaf_data_string)
	BOOST_SPIRIT_DEFINE(set)
	BOOST_SPIRIT_DEFINE(ls)
	BOOST_SPIRIT_DEFINE(cd)
	BOOST_SPIRIT_DEFINE(create)
	BOOST_SPIRIT_DEFINE(delete_rule)
	BOOST_SPIRIT_DEFINE(command)