com.articulate.sigma.nlg.LanguageFormatterUnused Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of sigma-component Show documentation
Show all versions of sigma-component Show documentation
Sigma knowledge engineering system is an system for developing, viewing and debugging theories in first
order logic. It works with Knowledge Interchange Format (KIF) and is optimized for the Suggested Upper Merged
Ontology (SUMO) www.ontologyportal.org.
package com.articulate.sigma.nlg;
import com.articulate.sigma.KB;
/**
* These methods were taken from LanguageFormatter and put here because they are not currently used.
* We may decide to delete this class altogether.
*/
@Deprecated
class LanguageFormatterUnused {
/** *************************************************************
* Print out set of all format and termFormat expressions
*/
private void generateAllLanguageFormats(KB kb) {
System.out.println(";;-------------- Terms ---------------");
System.out.println(allTerms(kb));
for (int i = 1; i < 5; i++) {
System.out.println(";;-------------- Arity " + i + " Functions ---------------");
System.out.println(allFunctionsOfArity(kb,i));
System.out.println(";;-------------- Arity " + i + " Relations ---------------");
System.out.println(allRelationsOfArity(kb,i+1));
}
}
/** *************************************************************
* @return a string with termFormat expressions created for all
* the terms in the knowledge base
*/
private String allTerms(KB kb) {
StringBuilder result = new StringBuilder();
for (String term : kb.getTerms()) {
result.append("(termFormat EnglishLanguage ");
result.append(term);
result.append(" \"");
result.append(NLGUtils.prettyPrint(term));
result.append("\")\n");
}
return result.toString();
}
/** *************************************************************
*/
private String functionFormat(String term, int i) {
switch (i) {
case 1: return "the &%" + NLGUtils.prettyPrint(term) + " of %1";
case 2: return "the &%" + NLGUtils.prettyPrint(term) + " of %1 and %2";
case 3: return "the &%" + NLGUtils.prettyPrint(term) + " of %1, %2 and %3";
case 4: return "the &%" + NLGUtils.prettyPrint(term) + " of %1, %2, %3 and %4";
}
return "";
}
/** *************************************************************
* FIXME: write unit tests on this and replace string concatentation inside StringBuilder.append( ) below
* with successive appends.
*/
private String allFunctionsOfArity(KB kb, int i) {
String parent = "";
switch (i) {
case 1: parent = "UnaryFunction"; break;
case 2: parent = "BinaryFunction"; break;
case 3: parent = "TernaryFunction"; break;
case 4: parent = "QuaternaryFunction"; break;
}
if (parent.isEmpty())
return "";
StringBuilder result = new StringBuilder();
for (String term : kb.getTerms()) {
if (kb.kbCache.transInstOf(term, parent))
result.append("(format EnglishLanguage ").append(term).append(" \"").append(functionFormat(term, i)).append("\")\n");
}
return result.toString();
}
/** *************************************************************
*/
private String relationFormat(String term, int i) {
switch (i) {
case 2: return ("%2 is %n "
+ NLGUtils.getArticle(term, 1, 1, "EnglishLanguage")
+ "&%" + NLGUtils.prettyPrint(term) + " of %1");
case 3: return "%1 %n{doesn't} &%" + NLGUtils.prettyPrint(term) + " %2 for %3";
case 4: return "%1 %n{doesn't} &%" + NLGUtils.prettyPrint(term) + " %2 for %3 with %4";
case 5: return "%1 %n{doesn't} &%" + NLGUtils.prettyPrint(term) + " %2 for %3 with %4 and %5";
}
return "";
}
/** *************************************************************
*/
private String allRelationsOfArity(KB kb, int i) {
String parent = "";
switch (i) {
case 2: parent = "BinaryPredicate"; break;
case 3: parent = "TernaryPredicate"; break;
case 4: parent = "QuaternaryPredicate"; break;
case 5: parent = "QuintaryPredicate"; break;
}
if (parent.isEmpty())
return "";
StringBuilder result = new StringBuilder();
for (String term : kb.getTerms()) {
if (kb.kbCache.transInstOf(term, parent))
result.append("(format EnglishLanguage ").append(term).append(" \"").append(relationFormat(term, i)).append("\")\n");
}
return result.toString();
}
/** ***************************************************************
* For debugging ...
*/
private static void printSpaces(int depth) {
for (int i = 0 ; i <= depth ; i++)
System.out.print(" ");
System.out.print(depth + ":");
}
}