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sclass RuleEngine {
new LL facts; // stores code token parses
Map phrasesWordTree = wordTree();
Clusters clusters = ciClusters();
new Prolog prolog;
*(S program) {
this("", program);
}
*(S inspiration, S program) {
for (S s : tlftj(inspiration))
addFact("inspired " + quote(s));
L programLines = tlftj(program);
//pnl(program);
//print();
for (S s : programLines) {
Pair> p = parseFunctionCall(s);
if (p != null) {
//print("Function call: " + sfu(p));
S f = p.a;
L args = p.b;
if (eqic(f, "assert"))
assertFact(getSingleton(p.b));
else if (swic(f, "assert_")) {
if (eqic(f, "assert_answer"))
assertAnswer(unquote(first(args)), unquote(second(args)));
else if (eqic(f, "assert_parse"))
assertParse(args);
else
fail("Unknown assertion function: " + f);
} else if (eqic(f, "fact_question_answer_upperCaseVars"))
prolog.code(
dontPrint("if [" + toProlog(unquote(first(args))) + "] and ["
+ toProlog(unquote(second(args))) + "] then [answer is ["
+ toProlog(unquote(third(args))) + "]]"));
continue;
}
L tok = javaTok(s);
if (eqic(second(tok), "assert")) {
assertFact(join(dropFirst(3, tok)));
continue;
}
int i = indexOfSubListLL(tok, "-", "", ">");
if (i >= 0) {
L left = subList(tok, 1, i-1);
int j = indexOf(left, "+");
if (j >= 0) {
prolog.code(
print("if [" + toProlog(joinSubList(left, 0, j-1))
+ "] and [" + toProlog(joinSubList(left, j+2)) + "] then ["
+ toProlog(joinSubList(tok, i+4)) + "]"));
continue;
}
}
tok = codeTokens(tok);
if (l(tok) == 2 && isIdentifier(first(tok)) && isQuoted(second(tok)))
if (eq(first(tok), "phrase")) {
addPhrase(unquote(second(tok)));
continue;
}
if (l(tok) == 3 && eq(second(tok), "=")) {
ciClusters_add(clusters,
addPhrase(unquote(first(tok))),
addPhrase(unquote(third(tok))));
continue;
}
addFact(s);
}
}
void printStuff {
printAsciiHeading("Facts");
pnlStruct(facts);
print();
print("Clusters: " + sfu(clusters));
print("Phrases: " + sfu(phrasesWordTree));
}
L parseFact(S s) {
L tok = map toLowerIfIdentifier(javaTokWithAngleBracketsC(/*dropPunctuation*/(s)));
ret nempties(translateUsingWordTreeC(tok, phrasesWordTree));
}
void assertFact(S fact) {
if (contains(facts, parseFact(fact)))
print("OK fact: " + fact);
else
print("FAILED fact assert: " + fact);
}
void assertAnswer(S q, S a) {
Prolog p = new(prolog);
//p.showStuff = true;
p.code(dontPrint("to prolog: ", squareBracket(toProlog(q))));
L out = p.rewrite();
//print("Got " + l(out) + " statement(s)");
L lines = map nlUnparse(out);
L answers = startingWithEndingWith_drop(lines, "answer is [", "]");
if (l(answers) == 1 && eqic(first(answers), a))
print("OK answer: " + q + " -> " + a);
else {
pnl(map nlUnparse(out));
print("FAIL answer: " + q + " -> " + first(answers) + " - expected: " + a);
}
}
S addPhrase(S s) {
wordTreeAdd(phrasesWordTree, javaTokC(s), s);
ret s;
}
void addFact(S s) {
L tok = parseFact(s);
facts.add(tok);
prolog.code(dontPrint("to prolog: ", squareBracket(factToProlog(tok))));
}
void assertParse(L args) {
args = unquoteAll(args);
S s = first(args);
L parsed = parseFact(s);
L expected = dropFirst(args);
if (eq(parsed, expected))
print("OK parse: " + s + " -> " + sfu(parsed));
else
print("FAILED parse: " + s + " -> " + sfu(parsed) + " - expected: " + sfu(expected));
}
S toProlog(S s) {
L tok = parseFact(upperCaseVarsToDollarVars(s));
ret factToProlog(tok);
}
S factToProlog(L tok) {
ret joinWithSpace(map ruleEngine_tokenToProlog(tok));
}
}