/** * This method is invoked when the builtin is called in a rule body. * * @param args the array of argument values for the builtin, this is an array of Nodes, some of * which may be Node_RuleVariables. * @param length the length of the argument list, may be less than the length of the args array * for some rule engines * @param context an execution context giving access to other relevant data * @return return true if the buildin predicate is deemed to have succeeded in the current * environment */ public boolean bodyCall(Node[] args, int length, RuleContext context) { checkArgs(length, context); BindingEnvironment env = context.getEnv(); Node n1 = getArg(0, args, context); Node n2 = getArg(1, args, context); if (n1.isLiteral() && n2.isLiteral()) { Object v1 = n1.getLiteralValue(); Object v2 = n2.getLiteralValue(); Node sum = null; if (v1 instanceof Number && v2 instanceof Number) { Number nv1 = (Number) v1; Number nv2 = (Number) v2; if (v1 instanceof Float || v1 instanceof Double || v2 instanceof Float || v2 instanceof Double) { sum = Util.makeDoubleNode(nv1.doubleValue() - nv2.doubleValue()); } else { sum = Util.makeLongNode(nv1.longValue() - nv2.longValue()); } return env.bind(args[2], sum); } } // Doesn't (yet) handle partially bound cases return false; }
/** * This method is invoked when the builtin is called in a rule body. * * @param args the array of argument values for the builtin, this is an array of Nodes, some of * which may be Node_RuleVariables. * @param length the length of the argument list, may be less than the length of the args array * for some rule engines * @param context an execution context giving access to other relevant data * @return return true if the buildin predicate is deemed to have succeeded in the current * environment */ @SuppressWarnings("unused") public boolean bodyCall(Node[] args, int length, RuleContext context) { checkArgs(length, context); BindingEnvironment env = context.getEnv(); Object maxVal = null; Node min = null; boolean allLongs = true; if (length >= 3) { for (int i = 0; i < length; i++) { Node n1 = getArg(i, args, context); if (n1.isLiteral()) { Object v1 = n1.getLiteralValue(); if (v1 instanceof Number) { Number nv1 = (Number) v1; if (maxVal == null) { maxVal = nv1; } else { if (v1 instanceof Float || v1 instanceof Double) { double pwd = nv1.doubleValue(); if (pwd > ((Number) maxVal).doubleValue()) { maxVal = nv1; } allLongs = false; } else if (v1 instanceof Integer || v1 instanceof Long) { long pwd = nv1.longValue(); if (pwd > ((Number) maxVal).doubleValue()) { maxVal = nv1; } } } } else if (v1 instanceof XSDDateTime) { if (maxVal == null) { maxVal = v1; } else if (maxVal instanceof XSDDateTime) { if (((XSDDateTime) maxVal).compareTo((XSDDateTime) v1) < 0) { maxVal = v1; } } else { throw new BuiltinException( this, context, "Can't compare datetime (" + v1.toString() + ") with non-datetime value (" + maxVal.toString() + ")"); } } else { return false; } } } // end for } else { Node n1 = getArg(0, args, context); if (n1 == null || n1.equals(RDF.Nodes.nil)) { return false; } else { maxVal = maxOfList(n1, context); } } if (maxVal == null) { return false; } if (maxVal instanceof Float) { min = Utils.makeFloatNode(((Number) maxVal).floatValue()); } else if (maxVal instanceof Double) { min = Util.makeDoubleNode(((Number) maxVal).doubleValue()); } else if (maxVal instanceof XSDDateTime) { min = Utils.makeXSDDateTimeNode((XSDDateTime) maxVal); } else if (maxVal instanceof Integer) { min = Util.makeIntNode(((Number) maxVal).intValue()); } else { min = Util.makeLongNode(((Number) maxVal).longValue()); } return env.bind(args[length - 1], min); }