Example 6 with Integer
use of org.jpl7.Integer in project packages-jpl by SWI-Prolog.
the class Term method getTerm.
/**
* create and return a org.jpl7.Term representation of the given Prolog term
*
* @param vars_to_Vars
* A Map from Prolog variables to org.jpl7.Variable instances
* @param term
* The Prolog term (in a term_t holder) to convert
* @return The converted Term subclass instance.
*/
protected static Term getTerm(Map<term_t, Variable> vars_to_Vars, term_t term) {
StringHolder hString;
IntHolder hInt;
Int64Holder hInt64;
ObjectHolder hObject;
switch(Prolog.term_type(term)) {
case // 1
Prolog.VARIABLE:
for (Iterator<term_t> i = vars_to_Vars.keySet().iterator(); i.hasNext(); ) {
// a previously seen Prolog
term_t varX = (term_t) i.next();
// variable
if (Prolog.compare(varX, term) == 0) {
// return the
return (Term) vars_to_Vars.get(varX);
// associated JPL
// Variable
}
}
// otherwise, the Prolog variable in term has not been seen before
// allocate a new (sequentially
Variable Var = new Variable();
// named) Variable to represent it
// this should become redundant...
Var.term_ = term;
// use Hashtable(var,null), but only
vars_to_Vars.put(term, Var);
// need set(var)
return Var;
case // 2
Prolog.ATOM:
hString = new StringHolder();
// ignore return val; assume
Prolog.get_atom_chars(term, hString);
// success...
return new Atom(hString.value, "text");
case // 5
Prolog.STRING:
hString = new StringHolder();
// ignore return val; assume
Prolog.get_string_chars(term, hString);
// success...
return new Atom(hString.value, "string");
case // 3
Prolog.INTEGER:
hInt64 = new Int64Holder();
if (Prolog.get_integer(term, hInt64)) {
// Java long...
return new org.jpl7.Integer(hInt64.value);
} else {
hString = new StringHolder();
if (Prolog.get_integer_big(term, hString)) {
// System.out.println("bigint = " + hString.value);
return new org.jpl7.Integer(new java.math.BigInteger(hString.value));
} else {
// arbitrary
return new org.jpl7.Integer(-3);
}
}
case // 4
Prolog.FLOAT:
DoubleHolder hFloatValue = new DoubleHolder();
// assume it succeeds...
Prolog.get_float(term, hFloatValue);
return new org.jpl7.Float(hFloatValue.value);
// 6
case Prolog.COMPOUND:
case // 9
Prolog.LIST_PAIR:
hString = new StringHolder();
hInt = new IntHolder();
// assume it succeeds
Prolog.get_name_arity(term, hString, hInt);
Term[] args = new Term[hInt.value];
// term_t term1 = Prolog.new_term_refs(hArity.value);
for (int i = 1; i <= hInt.value; i++) {
term_t termi = Prolog.new_term_ref();
Prolog.get_arg(i, term, termi);
args[i - 1] = Term.getTerm(vars_to_Vars, termi);
}
return new Compound(hString.value, args);
case // 7
Prolog.LIST_NIL:
return JPL.LIST_NIL;
case // 8
Prolog.BLOB:
hObject = new ObjectHolder();
if (Prolog.get_jref_object(term, hObject)) {
if (hObject.value == null) {
return JPL.JNULL;
} else {
return new JRef(hObject.value);
}
} else {
throw new JPLException("unsupported blob type passed from Prolog");
}
default:
// should never happen
throw new JPLException("unknown term type=" + Prolog.term_type(term));
}
}
Also used :
DoubleHolder(org.jpl7.fli.DoubleHolder)
Int64Holder(org.jpl7.fli.Int64Holder)
BigInteger(java.math.BigInteger)
ObjectHolder(org.jpl7.fli.ObjectHolder)
StringHolder(org.jpl7.fli.StringHolder)
org.jpl7.fli.term_t(org.jpl7.fli.term_t)
IntHolder(org.jpl7.fli.IntHolder)
BigInteger(java.math.BigInteger)
Example 7 with Integer
use of org.jpl7.Integer in project packages-jpl by SWI-Prolog.
the class Family method run.
public void run() {
Map<String, Term> solution;
Variable X = new Variable("X");
// --------------------------------------------------
Query q2 = new Query("child_of", new Term[] { new Atom("joe"), new Atom("ralf") });
System.err.println("child_of(joe,ralf) is " + (q2.hasSolution() ? "provable" : "not provable"));
new Query("sleep", new Term[] { new org.jpl7.Integer(delay) }).hasSolution();
// --------------------------------------------------
Query q3 = new Query("descendent_of", new Term[] { new Atom("steve"), new Atom("ralf") });
System.err.println("descendent_of(steve,ralf) is " + (q3.hasSolution() ? "provable" : "not provable"));
new Query("sleep", new Term[] { new org.jpl7.Integer(delay) }).hasSolution();
// --------------------------------------------------
Query q4 = new Query("descendent_of", new Term[] { X, new Atom("ralf") });
solution = q4.oneSolution();
System.err.println("first solution of descendent_of(X, ralf)");
System.err.println("X = " + solution.get(X.name));
new Query("sleep", new Term[] { new org.jpl7.Integer(delay) }).hasSolution();
// --------------------------------------------------
Map<String, Term>[] solutions = q4.allSolutions();
System.err.println("all solutions of descendent_of(X, ralf)");
for (int i = 0; i < solutions.length; i++) {
System.err.println("X = " + solutions[i].get(X.name));
}
new Query("sleep", new Term[] { new org.jpl7.Integer(delay) }).hasSolution();
// --------------------------------------------------
System.err.println("each solution of descendent_of(X, ralf)");
while (q4.hasMoreSolutions()) {
solution = q4.nextSolution();
System.err.println("X = " + solution.get(X.name));
}
new Query("sleep", new Term[] { new org.jpl7.Integer(delay) }).hasSolution();
// --------------------------------------------------
Variable Y = new Variable("Y");
Query q5 = new Query("descendent_of", new Term[] { X, Y });
System.err.println(id + ": each solution of descendent_of(X, Y)");
while (q5.hasMoreSolutions()) {
solution = q5.nextSolution();
System.err.println(id + ": X = " + solution.get(X.name) + ", Y = " + solution.get(Y.name));
new Query("sleep", new Term[] { new org.jpl7.Integer(delay) }).hasSolution();
}
}Example 8 with Integer
use of org.jpl7.Integer in project packages-jpl by SWI-Prolog.
the class TestJUnit method testBigInteger2.
public void testBigInteger2() {
BigInteger b = new BigInteger("12345678901234567890123456789");
// too big for a long
Term i = new Integer(b);
Term g = new Compound("is", new Term[] { new Variable("X"), i });
Term x = Query.oneSolution(g).get("X");
assertTrue("X is an org.jpl7.Integer", x.isInteger());
assertTrue("X is a big org.jpl7.Integer", x.isBigInteger());
assertTrue("X's value is as expected", x.bigValue().equals(b));
}
Also used :
Integer(org.jpl7.Integer)
BigInteger(java.math.BigInteger)
Variable(org.jpl7.Variable)
BigInteger(java.math.BigInteger)
Compound(org.jpl7.Compound)
Term(org.jpl7.Term)
Example 9 with Integer
use of org.jpl7.Integer in project packages-jpl by SWI-Prolog.
the class TestJUnit method testJRef2.
public void testJRef2() {
int i = 76543;
Integer I = new Integer(i);
Query q = new Query("jpl_call(?,intValue,[],I2)", JPL.newJRef(I));
Term I2 = q.oneSolution().get("I2");
assertTrue(I2.isInteger() && I2.intValue() == i);
}
Also used :
Integer(org.jpl7.Integer)
BigInteger(java.math.BigInteger)
Query(org.jpl7.Query)
Term(org.jpl7.Term)
Example 10 with Integer
use of org.jpl7.Integer in project packages-jpl by SWI-Prolog.
the class TestJUnit method testWouter1.
public void testWouter1() {
// Wouter says this fails under OS X Mavericks
// 10.9 x86-64
// too big for an int
long n = 7381783232223l;
Compound term = new Compound("is", new Term[] { new Variable("X"), new org.jpl7.Integer(n) });
Map<String, Term>[] solutions = new Query(term).allSolutions();
assertEquals(1, solutions.length);
Map<String, Term> solution = solutions[0];
assertTrue(solution.containsKey("X"));
Object result = solution.get("X");
assertTrue(result instanceof org.jpl7.Integer);
assertEquals(n, ((org.jpl7.Integer) result).longValue());
}Aggregations
Integer (org.jpl7.Integer)9
Term (org.jpl7.Term)9
BigInteger (java.math.BigInteger)8
Query (org.jpl7.Query)8
Variable (org.jpl7.Variable)5
Compound (org.jpl7.Compound)4
Map (java.util.Map)3
Atom (org.jpl7.Atom)1
DoubleHolder (org.jpl7.fli.DoubleHolder)1
Int64Holder (org.jpl7.fli.Int64Holder)1
IntHolder (org.jpl7.fli.IntHolder)1
ObjectHolder (org.jpl7.fli.ObjectHolder)1
StringHolder (org.jpl7.fli.StringHolder)1
org.jpl7.fli.term_t (org.jpl7.fli.term_t)1
