@Override
public ValueList evaluate(RuleEvaluation evaluation, BinaryOperator statement) {
switch (statement.getOperator()) {
case plus:
case minus:
case multiply:
case divide:
case modulo:
case exponent:
return evaluateArithmeticOperator(evaluation, statement);
case gt:
case ge:
case lt:
case le:
case eq:
case ne:
return evaluateRelOpOperator(evaluation, statement);
case and:
case or:
case xor:
return evaluateBooleanOperator(evaluation, statement);
case matches:
return evaluateBooleanConstraint(evaluation, statement);
case implies:
return evaluateImplies(evaluation, statement);
// for all is not listed here; it has more information that just two operands, so it has its
// own evaluator
// not and exists are unary operators and not handled here
}
throw new RuntimeException("operation " + statement.getOperator() + " not yet supported");
}
private ValueList evaluateArithmeticOperator(
RuleEvaluation evaluation, BinaryOperator statement) {
ValueList leftValues = evaluation.evaluate(statement.getLeftOperand());
ValueList rightValues = evaluation.evaluate(statement.getRightOperand());
ValueList possibleNullResult = checkAndHandleNull(leftValues, rightValues);
if (possibleNullResult != null) {
possibleNullResult.setType(PrimitiveType.Real);
return possibleNullResult;
} else {
ValueList result = new ValueList();
result.setType(PrimitiveType.Real);
checkIsNumber(leftValues, rightValues);
if (leftValues.size() == rightValues.size()) {
for (int i = 0; i < leftValues.size(); i++) {
Value leftValue = leftValues.get(i);
Value rightValue = rightValues.get(i);
evaluateArithmetic(
statement,
result,
rightValue.getValue(),
leftValue.getValue(),
getPaths(leftValue, rightValue));
}
} else if (leftValues.size() == 1) {
Value leftValue = leftValues.get(0);
for (Value rightValue : rightValues.getValues()) {
evaluateArithmetic(
statement,
result,
rightValue.getValue(),
leftValue.getValue(),
getPaths(leftValue, rightValue));
}
} else if (rightValues.size() == 1) {
Value rightValue = rightValues.get(0);
for (Value leftValue : leftValues.getValues()) {
evaluateArithmetic(
statement,
result,
rightValue.getValue(),
leftValue.getValue(),
getPaths(leftValue, rightValue));
}
} else {
// TODO: this also happens when one of the modelreferences has a value that does not exist
// in the model, but others have - while the rules are correct. Those are very valid cases
// how to fix?
throw new IllegalArgumentException("sizes of operator arguments not compatible");
}
return result;
}
}
private ValueList evaluateImplies(RuleEvaluation evaluation, BinaryOperator statement) {
ValueList leftValue = evaluation.evaluate(statement.getLeftOperand());
if (leftValue.getSingleBooleanResult()) {
ValueList rightValue = evaluation.evaluate(statement.getRightOperand());
return rightValue;
} else {
// if the left operand evaluates to false, the entire result is true, to not violate the
// assertion
// not sure if this should be the case
return new ValueList(true, leftValue.getAllPaths());
}
}
private Boolean evaluateBoolean(
BinaryOperator statement, Boolean leftBoolean, Boolean rightBoolean) {
switch (statement.getOperator()) {
case and:
return leftBoolean & rightBoolean;
case or:
return leftBoolean | rightBoolean;
case xor:
return leftBoolean ^ rightBoolean;
default:
throw new IllegalArgumentException("Not a boolean operator: " + statement.getOperator());
}
}
private ValueList evaluateBooleanConstraint(RuleEvaluation evaluation, BinaryOperator statement) {
ValueList leftValues = evaluation.evaluate(statement.getLeftOperand());
if (!(statement.getRightOperand() instanceof Constraint)) {
throw new IllegalArgumentException(
"cannot evaluate matches statement, right operand not a constraint");
}
Constraint constraint = (Constraint) statement.getRightOperand();
ValueList result = new ValueList();
result.setType(PrimitiveType.Boolean);
for (Value value : leftValues.getValues()) {
result.addValue(constraint.getItem().isValidValue(value.getValue()), value.getPaths());
}
return result;
}
private Value evaluateRelOp(
BinaryOperator statement, Object leftValue, Object rightValue, List<String> paths) {
if (leftValue == null || rightValue == null) {
return new Value(evaluateNullRelOp(statement.getOperator(), leftValue, rightValue), paths);
} else if (leftValue instanceof Long && rightValue instanceof Long) {
return new Value(
evaluateIntegerRelOp(statement.getOperator(), (Long) leftValue, (Long) rightValue),
paths);
} else {
return new Value(
evaluateRealRelOp(
statement.getOperator(), convertToDouble(leftValue), convertToDouble(rightValue)),
paths);
}
}
private ValueList evaluateBooleanOperator(RuleEvaluation evaluation, BinaryOperator statement) {
ValueList leftValues = evaluation.evaluate(statement.getLeftOperand());
ValueList rightValues = evaluation.evaluate(statement.getRightOperand());
ValueList possibleNullResult = checkAndHandleNull(leftValues, rightValues);
if (possibleNullResult != null) {
possibleNullResult.setType(PrimitiveType.Boolean);
return possibleNullResult;
}
checkisBoolean(leftValues, rightValues);
ValueList result = new ValueList();
result.setType(PrimitiveType.Boolean);
if (leftValues.size() == rightValues.size()) {
for (int i = 0; i < leftValues.size(); i++) {
Value<Boolean> leftValue = leftValues.get(i);
Value<Boolean> rightValue = rightValues.get(i);
List<String> paths = getPaths(leftValue, rightValue);
result.addValue(
evaluateBoolean(statement, leftValue.getValue(), rightValue.getValue()), paths);
}
} else if (leftValues.size() == 1) {
Value<Boolean> leftValue = leftValues.get(0);
for (Value<Boolean> rightValue : rightValues.getValues()) {
List<String> paths = getPaths(leftValue, rightValue);
result.addValue(
evaluateBoolean(statement, leftValue.getValue(), rightValue.getValue()), paths);
}
} else if (rightValues.size() == 1) {
Value<Boolean> rightValue = rightValues.get(0);
for (Value<Boolean> leftValue : leftValues.getValues()) {
List<String> paths = getPaths(leftValue, rightValue);
result.addValue(
evaluateBoolean(statement, leftValue.getValue(), rightValue.getValue()), paths);
}
} else {
throw new IllegalArgumentException("sizes of operator arguments not compatible");
}
return result;
}
private void evaluateArithmetic(
BinaryOperator statement,
ValueList result,
Object rightValue,
Object leftValue,
List<String> paths) {
if (leftValue instanceof Long && rightValue instanceof Long) {
result.addValue(
evaluateIntegerArithmetic(statement.getOperator(), (Long) leftValue, (Long) rightValue),
paths);
result.setType(PrimitiveType.Integer);
} else {
result.addValue(
evaluateRealArithmetic(
statement.getOperator(), convertToDouble(leftValue), convertToDouble(rightValue)),
paths);
result.setType(PrimitiveType.Real);
}
}
@NotNull
private ValueList evaluateRelOpOperator(RuleEvaluation evaluation, BinaryOperator statement) {
ValueList leftValues = evaluation.evaluate(statement.getLeftOperand());
ValueList rightValues = evaluation.evaluate(statement.getRightOperand());
ValueList possibleNullResult =
handlePossibleNullRelOpResult(statement, leftValues, rightValues);
if (possibleNullResult != null) {
possibleNullResult.setType(PrimitiveType.Boolean);
return possibleNullResult;
} else {
checkIsNumberOrNull(leftValues, rightValues);
ValueList result = new ValueList();
result.setType(PrimitiveType.Boolean);
// according to the xpath spec, at least one pair from both collections must exist that
// matches the condition.
// want otherwise? Use for_all/every
result.addValue(evaluateMultipleValuesRelOp(statement, leftValues, rightValues));
return result;
}
}
private ValueList handlePossibleNullRelOpResult(
BinaryOperator statement, ValueList leftValues, ValueList rightValues) {
switch (statement.getOperator()) {
case eq:
case ne:
// if null, can be true or false depending on checks
return null;
case gt:
case ge:
case lt:
case le:
// if null, result undefined, return null
return checkAndHandleNull(leftValues, rightValues);
default:
throw new IllegalStateException("unknown relop operator");
}
}
