#ifndef __macrovsa_RelationalMap__
#define __macrovsa_RelationalMap__
#include "Symbol.hpp"
#include "Bundling.hpp"
namespace macrovsa {
/**
* @class RelationalMap
* @description Implements a macroscopic ersatz of a VSA relational map.
* - An relational map is created adding new symbols triples.
* - It is implemented via [Bundling](./Bundling.html) and double [Binding](./Binding.html), without using a C++ map.
* @extends Bundling
*/
class RelationalMap: public Bundling {
public:
RelationalMap() {}
RelationalMap(String name) : Bundling(name) {}
/**
* @function add
* @memberof RelationalMap
* @instance
* @description Adds a new symbolic triple to the container.
* - For convinience the symbol can be given by its name, considering that `tau = 1, sigma = 0`.
* @param {Symbol|String} subject The triple subject to add.
* @param {Belief|double} [belief] An optional belief, or `tau` value, applied on the predicate.
* @param {Symbol|String} predicate The triple predicate to add.
* @param {Symbol|String} object The triple object to add.
*/
void add(const Symbol& subject, const Symbol& predicate, const Symbol& object);
void add(String subject, const Symbol& predicate, const Symbol& object)
{
const Symbol s(subject);
add(s, predicate, object);
}
void add(const Symbol& subject, String predicate, const Symbol& object)
{
const Symbol p(predicate);
add(subject, p, object);
}
void add(const Symbol& subject, const Symbol& predicate, String object)
{
const Symbol o(object);
add(subject, predicate, o);
}
void add(String subject, String predicate, const Symbol& object)
{
const Symbol s(subject), p(predicate);
add(s, p, object);
}
void add(String subject, const Symbol& predicate, String object)
{
Symbol s(subject), o(object);
add(s, predicate, o);
}
void add(const Symbol& subject, String predicate, String object)
{
const Symbol p(predicate), o(object);
add(subject, p, o);
}
void add(String subject, String predicate, String object)
{
const Symbol s(subject), p(predicate), o(object);
add(s, p, o);
}
void add(const Symbol& subject, const Belief& belief, const Symbol& predicate, const Symbol& object)
{
add(subject, *clone(predicate, belief, symbols), object);
}
void add(String subject, const Belief& belief, const Symbol& predicate, const Symbol& object)
{
const Symbol s(subject);
add(s, *clone(predicate, belief, symbols), object);
}
void add(const Symbol& subject, const Belief& belief, String predicate, const Symbol& object)
{
const Symbol p(predicate);
add(subject, *clone(p, belief, symbols), object);
}
void add(const Symbol& subject, const Belief& belief, const Symbol& predicate, String object)
{
const Symbol o(object);
add(subject, *clone(predicate, belief, symbols), o);
}
void add(String subject, const Belief& belief, String predicate, const Symbol& object)
{
Symbol s(subject), p(predicate);
add(s, *clone(p, belief, symbols), object);
}
void add(String subject, const Belief& belief, const Symbol& predicate, String object)
{
Symbol s(subject), o(object);
add(s, *clone(predicate, belief, symbols), o);
}
void add(const Symbol& subject, const Belief& belief, String predicate, String object)
{
Symbol p(predicate), o(object);
add(subject, *clone(p, belief, symbols), o);
}
void add(String subject, const Belief& belief, String predicate, String object)
{
Symbol s(subject), p(predicate), o(object);
add(s, *clone(p, belief, symbols), o);
}
/**
* @function add
* @memberof RelationalMap
* @instance
* @description Adds all triple of a relation map in this one.
* @param {RelationMap} map The triples to append to this relation map
*/
void add(const RelationalMap& map);
/**
* @function add
* @memberof RelationalMap
* @instance
* @description Adds all triple read from a text file with N-Triples syntax.
* @param {String} filename The filename [N-Triples](https://en.wikipedia.org/wiki/N-Triples) syntax, with the triples to append to this relation map
*/
void add(String filename);
/**
* @function get
* @memberof RelationalMap
* @instance
* @description Returns an approximate value of the relational map by unbinding.
* @param {Symbol} name The symbol name.
* @return {Symbol} value A pointer to the stored value, to be deleted after use.
*/
Symbol *get(const Symbol& name) const;
/**
* @function get
* @memberof RelationalMap
* @instance
* @description Defines an iterator over the relational map symbols, used in a construct of the form:
* ```
* for(auto it = relationalMap.Bundling::get().cbegin(); it != relationalMap.Bundling::get().cend(); it++) {
* const Binding& binding_spo = dynamic_cast <const Binding&> (it->second);
* const Binding& binding_po = dynamic_cast <const Binding&> (binding_spo.x());
* const Symbol& subject = binding_spo.y(), predicate = binding_po.y(), object = binding_po.x();
* ../..
* }
* ```
* @return A `const std::map <unsigned int, Symbol& >&` reference for relational map iteration.
*/
/**
* @function asString
* @memberof RelationalMap
* @instance
* @description Returns the value as a string.
* @return {String} A string of the form `{\n\t(subject_i predicate_i object_i)_<belief> ...\n}_<belief>`, omitting belief if `tau=1, sigma=0`.
*/
virtual std::string asString() const;
/**
* @function asString
* @memberof RelationalMap
* @static
* @description Returns the value of a triple as a string.
* - For convinience the symbol can be given by its name, considering that `tau = 1, sigma = 0`.
* @param {Symbol|String} subject The triple subject to add.
* @param {Belief} [belief] An optional belief apply on the predicate.
* @param {Symbol|String} predicate The triple predicate to add.
* @param {Symbol|String} object The triple object to add.
* @return {String} A string of the form `(subject_i predicate_i object_i)_<belief>`, omitting belief if `tau=1, sigma=0`.
*/
static std::string asString(const Symbol& subject, const Symbol& predicate, const Symbol& object);
static std::string asString(String subject, const Symbol& predicate, const Symbol& object)
{
Symbol s(subject);
return asString(s, predicate, object);
}
static std::string asString(const Symbol& subject, String predicate, const Symbol& object)
{
Symbol p(predicate);
return asString(subject, p, object);
}
static std::string asString(const Symbol& subject, const Symbol& predicate, String object)
{
Symbol o(object);
return asString(subject, predicate, o);
}
static std::string asString(String subject, String predicate, const Symbol& object)
{
Symbol s(subject), p(predicate);
return asString(s, p, object);
}
static std::string asString(String subject, const Symbol& predicate, String object)
{
Symbol s(subject), o(object);
return asString(s, predicate, o);
}
static std::string asString(const Symbol& subject, String predicate, String object)
{
Symbol p(predicate), o(object);
return asString(subject, p, o);
}
static std::string asString(String subject, String predicate, String object)
{
Symbol s(subject), p(predicate), o(object);
return asString(s, p, o);
}
static std::string asString(const Symbol& subject, const Belief& belief, const Symbol& predicate, const Symbol& object)
{
Symbol p(predicate, belief);
return asString(subject, p, object);
}
static std::string asString(String subject, const Belief& belief, const Symbol& predicate, const Symbol& object)
{
Symbol s(subject), p(predicate, belief);
return asString(s, p, object);
}
static std::string asString(const Symbol& subject, const Belief& belief, String predicate, const Symbol& object)
{
Symbol p(predicate, belief);
return asString(subject, p, object);
}
static std::string asString(const Symbol& subject, const Belief& belief, const Symbol& predicate, String object)
{
Symbol p(predicate, belief), o(object);
return asString(subject, p, o);
}
static std::string asString(String subject, const Belief& belief, String predicate, const Symbol& object)
{
Symbol s(subject), p(predicate, belief);
return asString(s, p, object);
}
static std::string asString(String subject, const Belief& belief, const Symbol& predicate, String object)
{
Symbol s(subject), p(predicate, belief), o(object);
return asString(s, p, o);
}
static std::string asString(const Symbol& subject, const Belief& belief, String predicate, String object)
{
Symbol p(predicate, belief), o(object);
return asString(subject, p, o);
}
static std::string asString(String subject, const Belief& belief, String predicate, String object)
{
Symbol s(subject), p(predicate, belief), o(object);
return asString(s, p, o);
}
/**
* @function save
* @memberof RelationalMap
* @instance
* @description Saves the triples of this relation map text file in partial [Turtle](https://en.wikipedia.org/wiki/Turtle_(syntax) syntax.
* @param {String} filename The output file name.
*/
void save(String filename) const;
};
}
#endif
