use of com.sri.ai.grinder.theory.linearrealarithmetic.IntervalWithMeasureEquivalentToSingleVariableLinearRealArithmeticConstraintStepSolver in project aic-expresso by aic-sri-international.
the class AssignmentsSamplingIterator method getTypeToSampleFrom.
public static Type getTypeToSampleFrom(Expression variable, Expression condition, Context context) {
Type result = GrinderUtil.getTypeOfExpression(variable, context);
if (result instanceof FunctionType) {
FunctionType functionType = (FunctionType) result;
result = new LazySampledFunctionType(functionType.getCodomain(), functionType.getArgumentTypes().toArray(new Type[functionType.getArity()]));
} else {
if (condition.equals(false)) {
result = null;
} else if (condition.equals(true)) {
// we leave as is.
} else if (result instanceof RealExpressoType || result instanceof RealInterval) {
LinearRealArithmeticTheory theory = new LinearRealArithmeticTheory(true, true);
SingleVariableLinearRealArithmeticConstraint constraint = (SingleVariableLinearRealArithmeticConstraint) theory.makeSingleVariableConstraint(variable, context);
constraint = (SingleVariableLinearRealArithmeticConstraint) constraint.conjoin(condition, context);
IntervalWithMeasureEquivalentToSingleVariableLinearRealArithmeticConstraintStepSolver solver = new IntervalWithMeasureEquivalentToSingleVariableLinearRealArithmeticConstraintStepSolver(constraint);
Expression realInterval = solver.solve(context);
if (Sets.isEmptySet(realInterval)) {
// used to indicate an empty set.
result = null;
} else if (ExtensionalSets.isExtensionalSet(realInterval) && ExtensionalSets.isSingleton(realInterval)) {
String singletonValue = realInterval.get(0).toString();
result = new RealInterval("[" + singletonValue + ";" + singletonValue + "]");
} else {
result = new RealInterval(realInterval.toString());
}
} else if (result instanceof IntegerExpressoType || result instanceof IntegerInterval) {
DifferenceArithmeticTheory theory = new DifferenceArithmeticTheory(true, true);
SingleVariableDifferenceArithmeticConstraint constraint = (SingleVariableDifferenceArithmeticConstraint) theory.makeSingleVariableConstraint(variable, context);
constraint = (SingleVariableDifferenceArithmeticConstraint) constraint.conjoin(condition, context);
ValuesOfSingleVariableDifferenceArithmeticConstraintStepSolver solver = new ValuesOfSingleVariableDifferenceArithmeticConstraintStepSolver(constraint);
// NOTE: the exceptions set returned here is implicit in the condition so no need to use it here.
RangeAndExceptionsSet rangeAndExceptionsSet = (RangeAndExceptionsSet) solver.solve(context);
if (rangeAndExceptionsSet.isEmpty()) {
// used to indicate an empty set.
result = null;
} else if (rangeAndExceptionsSet.isSingleton()) {
result = new IntegerInterval(rangeAndExceptionsSet.getSingleValue().intValueExact(), rangeAndExceptionsSet.getSingleValue().intValueExact());
} else {
result = new IntegerInterval(rangeAndExceptionsSet.getStrictLowerBound().intValueExact() + 1, rangeAndExceptionsSet.getNonStrictUpperBound().intValueExact());
}
}
}
if (result != null && !result.isSampleUniquelyNamedConstantSupported()) {
throw new IllegalArgumentException("Unable to sample " + variable + " from " + result);
}
return result;
}
Aggregations