In Java I'm trying to test for a null value, from a ResultSet, where the column is being cast to a primitive int type.

int iVal;
ResultSet rs = magicallyAppearingStmt.executeQuery(query);
if (rs.next()) {
  if (rs.getObject("ID_PARENT") != null && !rs.wasNull()) {
    iVal = rs.getInt("ID_PARENT");

From the code fragment above, is there a better way to do this, and I assume that the second wasNull() test is redundant?

Educate us, and Thanks

  • 20
    I found this question because I have a nullable column in a database and it's represented by an Integer in Java. You would think that having a nullable numeric column in a database would be common enough that the ResultSet API would accommodate it a little more elegantly.
    – spaaarky21
    Jan 4, 2012 at 19:17
  • I'm not posting this as an answer because it's tangential and far from universal: My usual solution to this is to put IF(colName = NULL, 0, colName) AS colName in the SELECT statement (preferably in a stored proc). Philosophically this comes down to whether the DB should conform to the app, or vice versa. Since SQL handles NULLs easily and many SQL consumers do not (i.e. java.sql.ResultSet), I opt to handle it at the DB when possible. (This, of course, assumes that conceptually NULL and zero are equivalent for your purposes.)
    – s.co.tt
    Oct 30, 2019 at 3:05
  • You could do this easily in SQL without worrying about SQL NULL and Java null. Just write ... IS NOT NULL and retrieve this as a boolean value in JDBC. Nov 28, 2020 at 14:23

13 Answers 13


The default for ResultSet.getInt when the field value is NULL is to return 0, which is also the default value for your iVal declaration. In which case your test is completely redundant.

If you actually want to do something different if the field value is NULL, I suggest:

int iVal = 0;
ResultSet rs = magicallyAppearingStmt.executeQuery(query);
if (rs.next()) {
    iVal = rs.getInt("ID_PARENT");
    if (rs.wasNull()) {
        // handle NULL field value

(Edited as @martin comments below; the OP code as written would not compile because iVal is not initialised)

  • 6
    @Roman - see the javadoc for getInt in ResultSet: "Returns: the column value; if the value is SQL NULL, the value returned is 0 "
    – Cowan
    May 27, 2010 at 11:53
  • 198
    The truth is, indeed, ridiculous. getInt() should be getInteger() which returns an Integer that is null if the DB value is null. The devs really messed this one up.
    – ryvantage
    Mar 7, 2014 at 20:00
  • 7
    @sactiw following this logic, everything on java should have been developed to avoid NPE, which is not the case. Avoid NPE is responsibility of the app developers, not the language internal API's. Jun 20, 2016 at 11:44
  • 17
    OMG Why did, simply do not returns NULL, 0 and NULL are two big different things
    – deFreitas
    Dec 20, 2016 at 2:35
  • 7
    @ryvantage ResultSet is one of the original Java classes, back when Java didn't support auto unboxing. Also it is a very low level API, that shouldn't enforce the potential extra cost of wrapping raw bytes from a database inside a Java Integer object. There is an argument perhaps for adding a getInteger to the interface that returns an Integer (or even Optional<Integer>).
    – Richard
    Feb 9, 2017 at 8:34

Another solution:

public class DaoTools {
    static public Integer getInteger(ResultSet rs, String strColName) throws SQLException {
        int nValue = rs.getInt(strColName);
        return rs.wasNull() ? null : nValue;

Just check if the field is null or not using ResultSet#getObject(). Substitute -1 with whatever null-case value you want.

int foo = resultSet.getObject("foo") != null ? resultSet.getInt("foo") : -1;

Or, if you can guarantee that you use the right DB column type so that ResultSet#getObject() really returns an Integer (and thus not Long, Short or Byte), then you can also just typecast it to an Integer.

Integer foo = (Integer) resultSet.getObject("foo");
  • 2
    No, but it will construct an unnecessary Integer object in the non-null case. (And BTW most JDBC drivers don't hit the db during any ResultSet method calls at all...generally you don't get the ResultSet back until all the data has come over the wire).
    – EricS
    Jan 27, 2012 at 0:33
  • It depends on fetch size. In most drivers, the default is 10 rows and once the fetch has been retrieved, they will be processed, but the next fetch won't be retrieved until processing has been finished.
    – Kristo Aun
    Feb 14, 2013 at 7:38
  • I'm surprise that your answer is not the better answer :-) I vote up because it is the proper answer that avoid the very tricky unsafe wasNull() method. For me it is a supplementary reason to stop using Java ;-) and to continue to use VB.Net where RecordSet has solved this easy problem since more than 10 years !
    – schlebe
    Dec 5, 2018 at 13:45

I think, it is redundant. rs.getObject("ID_PARENT") should return an Integer object or null, if the column value actually was NULL. So it should even be possible to do something like:

if (rs.next()) {
  Integer idParent = (Integer) rs.getObject("ID_PARENT");
  if (idParent != null) {
    iVal = idParent; // works for Java 1.5+
  } else {
    // handle this case
  • 5
    Hm, at least in my case, the problem with this is that calling getObject doesn't necessarily return an Integer, due to the nature of the column type in the oracle db I'm using ("Number").
    – Matt Mc
    Mar 19, 2014 at 23:34
  • Same problem of Matt... With MySQL and Types.BIGINT (that should be mapped to a Long) the getObject() method returns 0 instead of null.
    – xonya
    Aug 12, 2016 at 7:22
  • 3
    Could also do rs.getObject("ID_PARENT", Integer.class)
    – Arlo
    Dec 8, 2018 at 1:07

AFAIK you can simply use

iVal = rs.getInt("ID_PARENT");
if (rs.wasNull()) {
  // do somthing interesting to handle this situation

even if it is NULL.


Just an update with Java Generics.

You could create an utility method to retrieve an optional value of any Java type from a given ResultSet, previously casted.

Unfortunately, getObject(columnName, Class) does not return null, but the default value for given Java type, so 2 calls are required

public <T> T getOptionalValue(final ResultSet rs, final String columnName, final Class<T> clazz) throws SQLException {
    final T value = rs.getObject(columnName, clazz);
    return rs.wasNull() ? null : value;

In this example, your code could look like below:

final Integer columnValue = getOptionalValue(rs, Integer.class);
if (columnValue == null) {
    //null handling
} else {
    //use int value of columnValue with autoboxing

Happy to get feedback

  • Interesting. If you're calling getObject(), that returns a reference type which can already answer null. The Javadoc at v11 says it answers null for SQL NULLs. Unless you have an unusual driver or datatype answering some kind of non-null 'empty' objects, I would expect wasNull() to only be useful after reading an integer or other primitive type whether the return-type cannot directly represent null.
    – Thomas W
    Jun 2, 2021 at 3:06

You can call this method using the resultSet and the column name having Number type. It will either return the Integer value, or null. There will be no zeros returned for empty value in the database

private Integer getIntWithNullCheck(ResultSet rset, String columnName) {
    try {
        Integer value = rset.getInt(columnName);
        return rset.wasNull() ? null : value;
    } catch (Exception e) {
        return null;
  • Can you please go into more detail about how this solves the question? Mar 21, 2019 at 18:27
  • You can call this method using the resultSet and the column name having Number type. It will either return the Integer value, or null. There will be no zeros returned for empty value in the database. Mar 22, 2019 at 16:32
  • Excellent! Edit that into your answer (and delete the comment after the edit) and you have yourself a good answer :) Mar 22, 2019 at 16:34

With java 8 you can do this:

Long nVal = Optional.ofNullable(resultSet.getBigDecimal("col_name"))

In that case you ensure that the nVal will be null (and not zero) if the SQL value is NULL

  • 2
    but does not apply to resultSet.getInt("col_name")
    – rapt
    Dec 19, 2017 at 22:40
  • 1
    With MSSQL datasource, this does not seem to work. It needs to have the additional check of if (rs.wasNull())
    – alltej
    Jan 31, 2018 at 15:37

For convenience, you can create a wrapper class around ResultSet that returns null values when ResultSet ordinarily would not.

public final class ResultSetWrapper {

    private final ResultSet rs;

    public ResultSetWrapper(ResultSet rs) {
        this.rs = rs;

    public ResultSet getResultSet() {
        return rs;

    public Boolean getBoolean(String label) throws SQLException {
        final boolean b = rs.getBoolean(label);
        if (rs.wasNull()) {
            return null;
        return b;

    public Byte getByte(String label) throws SQLException {
        final byte b = rs.getByte(label);
        if (rs.wasNull()) {
            return null;
        return b;

    // ...


Just in case someone comes here while programming in Kotlin (as I did), the answer suggested by BalusC works fine. Just be aware that Short and Float are instantiated as Integer and Double (respectively) inside ResultSet, and we should cast them to the correct type after calling getObject(). In my case the final code was:

when {
    propKClass.isSubclassOf(Int::class) -> rs.getObject(colName) as Int? 
    propKClass.isSubclassOf(Short::class) -> (rs.getObject(colName) as Int?)?.toShort()
    propKClass.isSubclassOf(Long::class) -> rs.getObject(colName) as Long?
    propKClass.isSubclassOf(Boolean::class) -> rs.getObject(colName) as Boolean?
    propKClass.isSubclassOf(Double::class) -> rs.getObject(colName) as Double?
    propKClass.isSubclassOf(Float::class) -> (rs.getObject(colName) as Double?)?.toFloat()
    else -> rs.getString(colName)

If you want an alternative to calling ResultSet.wasNull() you can use getObject() and cast to the correct type.

Long val = (Long)rs.getObject(pos++);

You can also set null values in a Statement with setObject().

pstmt.setObject(pos++, null);

In Kotlin I would just solve it once and be done with the issue forever with this:

fun <K : Any> ResultSet.getNullable(columnLabel: String, type: KClass<K>): K? = 
    this.getObject(columnLabel, type.java)

So later you can just do this:

rs.getNullable("ID_PARENT", Int::class)

I guess if you want you could also do this too

fun <K> ResultSet.getNullable(columnLabel: String, type: Class<K>): K? = 
    this.getObject(columnLabel, type)

So you can just do this:

rs.getNullable("ID_PARENT", Int::class.java)

Or better still make both methods available if you happen to be dealing with developers that can't agree on even the simplest of things.

fun <K : Any> ResultSet.getNullable(columnLabel: String, type: KClass<K>): K? =
        this.getNullable(columnLabel, type.java)

fun <K> ResultSet.getNullable(columnLabel: String, type: Class<K>): K? =
        this.getObject(columnLabel, type)

Edit: if the library is still being fussy you can finally do something like:

rs.getNullable("ID_PARENT", String::class)?.let {FOO.valueOf(it) }

Another nice way of checking, if you have control the SQL, is to add a default value in the query itself for your int column. Then just check for that value.

e.g for an Oracle database, use NVL


then check

if (rs.getInt('ID_PARENT') != -999)

Of course this also is under the assumption that there is a value that wouldn't normally be found in the column.

  • 14
    I voted down this answer since it is very likely to cause problems for lots of people. An int column if defined as nullable has a set of values consisting of positive numbers, zero, negative numbers and NULL. At any point in time one can simply insert valid row of data containing this magic number and all of the sudden things will go bad. It's basically the implementation of magic number anti pattern. Don't do this. Apr 17, 2014 at 11:19

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.