Modern Java
Other Answers here are good, but Java has evolved since they were posted. Let's address those improvements with some example code.
Your example code and data do not align. So I must invent another scenario.
id_ |
species_ |
name_ |
1 |
cat |
Fluffy |
2 |
dog |
Rover |
3 |
cat |
Spot |
4 |
cat |
Tuna |
Text blocks
Java now has text blocks. This new syntax for string literals makes embedding SQL code easier. No more clumsy string concatenation.
Also you omitted the statement terminator in your SQL. I suggest always including the semicolon to avoid problems.
String sql = """
SELECT species_, COUNT(*)
FROM animal_
GROUP BY species_
;
""" ;
Try-with-resources
As others suggested, use a PreparedStatement
to avoid SQL Injection security attacks. Not relevant here, as you have no user input to protect against.
Nowadays PreparedStatement
, and Statement
, are AutoCloseable
. So you can use try-with-resources syntax to automatically close them after use. This simplifies your JDBC coding.
Ditto for Connection
objects.
try
(
Connection connection = myDataSource.getConnection() ;
Statement statement = connection.createStatement() ;
ResultSet resultSet = statement.executeQuery ( sql ) ;
)
{
while ( resultSet.next() )
{
String species = resultSet.getString( 1 ) ;
int count = resultSet.getInt( 2 ) ;
System.out.println( species + " = " + count ) ;
}
}
catch ( SQLException e )
{
…
}
dog = 1
cat = 3
Records
You may want to define a class to hold the data returned by the result set.
If the intent of your custom class will be the transparent communication of immutable data, then define your class as a record.
In a record, the constructor, getters, equals
& hashCode
, and toString
are created implicitly by the compiler.
Records are very convenient this kind of JDBC database work because a record can be defined locally within a method, as well as the usual ways of nested within a class or as a standalone class. (By the way, enums and interfaces can also now be local.)
record SpeciesCount ( String species , int count ) {}
Streams
Streams make easy work of looping through a collection. In our case, we can easily report our resulting collection of SpeciesCount
objects.
results.stream().forEach( … ) ;
Or more simply:
results.forEach( … ) ;
We can use a method reference with our stream for compact syntax, such as System.out :: println
.
results.forEach( System.out :: println ) ;
SequencedCollection
We can sort the results with an ORDER BY
added to our SQL query.
In Java 21+, a new super-interface above List
and NavigableSet
/SortedSet
etc. has been added: SequencedCollection
. See JEP 431: Sequenced Collections.
Final example code
String sql = """
SELECT species_, COUNT(*)
FROM animal_
GROUP BY species_
ORDER BY species_
;
""" ;
record SpeciesCount ( String species , int count ) {}
SequencedCollection < SpeciesCount > results = new ArrayList<>() ;
try
(
Connection connection = myDataSource.getConnection() ;
Statement statement = connection.createStatement() ;
ResultSet resultSet = statement.executeQuery ( sql ) ;
)
{
while ( resultSet.next() )
{
String species = resultSet.getString( 1 ) ;
int count = resultSet.getInt( 2 ) ;
SpeciesCount result = new SpeciesCount( species , count ) ;
results.add( result ) ;
}
}
catch ( SQLException e )
{
…
}
results.forEach( System.out :: println ) ; // Dump results to console.
SpeciesCount[species=cat, count=3]
SpeciesCount[species=dog, count=1]