return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) < 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) > 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) >= 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) <= 0);
/** * Returns a boolean based on whether a value is in the range expressed. The first * operand is any value whilst the second is a list of two values - those two values * being the bounds allowed for the first operand (inclusive). * @param state the expression state * @return true if the left operand is in the range specified, false otherwise * @throws EvaluationException if there is a problem evaluating the expression */ @Override public BooleanTypedValue getValueInternal(ExpressionState state) throws EvaluationException { Object left = getLeftOperand().getValueInternal(state).getValue(); Object right = getRightOperand().getValueInternal(state).getValue(); if (!(right instanceof List) || ((List<?>) right).size() != 2) { throw new SpelEvaluationException(getRightOperand().getStartPosition(), SpelMessage.BETWEEN_RIGHT_OPERAND_MUST_BE_TWO_ELEMENT_LIST); } List<?> list = (List<?>) right; Object low = list.get(0); Object high = list.get(1); TypeComparator comp = state.getTypeComparator(); try { return BooleanTypedValue.forValue(comp.compare(left, low) >= 0 && comp.compare(left, high) <= 0); } catch (SpelEvaluationException ex) { ex.setPosition(getStartPosition()); throw ex; } }
@Test public void testComparator() { ExpressionState state = getState(); assertEquals(state.getEvaluationContext().getTypeComparator(), state.getTypeComparator()); }
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) <= 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) > 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) < 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) >= 0);
/** * Returns a boolean based on whether a value is in the range expressed. The first * operand is any value whilst the second is a list of two values - those two values * being the bounds allowed for the first operand (inclusive). * @param state the expression state * @return true if the left operand is in the range specified, false otherwise * @throws EvaluationException if there is a problem evaluating the expression */ @Override public BooleanTypedValue getValueInternal(ExpressionState state) throws EvaluationException { Object left = getLeftOperand().getValueInternal(state).getValue(); Object right = getRightOperand().getValueInternal(state).getValue(); if (!(right instanceof List) || ((List<?>) right).size() != 2) { throw new SpelEvaluationException(getRightOperand().getStartPosition(), SpelMessage.BETWEEN_RIGHT_OPERAND_MUST_BE_TWO_ELEMENT_LIST); } List<?> list = (List<?>) right; Object low = list.get(0); Object high = list.get(1); TypeComparator comp = state.getTypeComparator(); try { return BooleanTypedValue.forValue(comp.compare(left, low) >= 0 && comp.compare(left, high) <= 0); } catch (SpelEvaluationException ex) { ex.setPosition(getStartPosition()); throw ex; } }
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) <= 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) < 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) > 0);
return BooleanTypedValue.forValue(state.getTypeComparator().compare(left, right) >= 0);
/** * Returns a boolean based on whether a value is in the range expressed. The first * operand is any value whilst the second is a list of two values - those two values * being the bounds allowed for the first operand (inclusive). * @param state the expression state * @return true if the left operand is in the range specified, false otherwise * @throws EvaluationException if there is a problem evaluating the expression */ @Override public BooleanTypedValue getValueInternal(ExpressionState state) throws EvaluationException { Object left = getLeftOperand().getValueInternal(state).getValue(); Object right = getRightOperand().getValueInternal(state).getValue(); if (!(right instanceof List) || ((List<?>) right).size() != 2) { throw new SpelEvaluationException(getRightOperand().getStartPosition(), SpelMessage.BETWEEN_RIGHT_OPERAND_MUST_BE_TWO_ELEMENT_LIST); } List<?> list = (List<?>) right; Object low = list.get(0); Object high = list.get(1); TypeComparator comp = state.getTypeComparator(); try { return BooleanTypedValue.forValue(comp.compare(left, low) >= 0 && comp.compare(left, high) <= 0); } catch (SpelEvaluationException ex) { ex.setPosition(getStartPosition()); throw ex; } }