267

For example:

javac Foo.java
Note: Foo.java uses unchecked or unsafe operations.
Note: Recompile with -Xlint:unchecked for details.

10 Answers 10

371

This comes up in Java 5 and later if you're using collections without type specifiers (e.g., Arraylist() instead of ArrayList<String>()). It means that the compiler can't check that you're using the collection in a type-safe way, using generics.

To get rid of the warning, just be specific about what type of objects you're storing in the collection. So, instead of

List myList = new ArrayList();

use

List<String> myList = new ArrayList<String>();

In Java 7 you can shorten generic instantiation by using Type Inference.

List<String> myList = new ArrayList<>();
  • In Java 7, I got the same warning even using Type Interference with this collection: ConcurrentHashMap<Integer, Object> objs = new ConcurrentHashMap() – Lucio Jun 15 '14 at 19:38
  • 13
    @Lucio You still need angle brackets. new ConcurrentHashMap<>() – Bill the Lizard Jun 15 '14 at 20:40
  • 3
    Just to point out, this is not collections specific. You get the error because Java compiler can't ensure type safety in general. For example, same warning is produced with the following code: AbstractMap.SimpleEntry<String, String> entry = new AbstractMap.SimpleEntry("hello", "world"); – semonte Jul 8 '14 at 7:08
  • 1
    -Xlint:unchecked with MAVEN – vanduc1102 Mar 1 '16 at 10:58
185

If you do what it suggests and recompile with the "-Xlint:unchecked" switch, it will give you more detailed information.

As well as the use of raw types (as described by the other answers), an unchecked cast can also cause the warning.

Once you've compiled with -Xlint, you should be able to rework your code to avoid the warning. This is not always possible, particularly if you are integrating with legacy code that cannot be changed. In this situation, you may decide to suppress the warning in places where you know that the code is correct:

@SuppressWarnings("unchecked")
public void myMethod()
{
    //...
}
  • 12
    I wish more people would upvote this answer. I stand by my selection of @Bill the Lizard's answer, but this answer is close to my heart for showing me that the answer was staring me right in the face in the warning itself as well as elaborating another reason for encountering the error. – toolbear Apr 21 '11 at 22:57
  • 1
    This is the ultimate answer! – russellhoff Oct 6 '15 at 15:03
15

This warning means that your code operates on a raw type, recompile the example with the

-Xlint:unchecked 

to get the details

like this:

javac YourFile.java -Xlint:unchecked

Main.java:7: warning: [unchecked] unchecked cast
        clone.mylist = (ArrayList<String>)this.mylist.clone();
                                                           ^
  required: ArrayList<String>
  found:    Object
1 warning

docs.oracle.com talks about it here: http://docs.oracle.com/javase/tutorial/java/generics/rawTypes.html

  • This doesn't add much to the already existing answers. – Makoto Jul 28 '14 at 1:40
  • 1
    I think it does. He links to the Oracle documentation for this exact warning. – Nick Westgate Dec 2 '14 at 21:40
15

For Android Studio, you need to add:

allprojects {

    gradle.projectsEvaluated {
        tasks.withType(JavaCompile) {
            options.compilerArgs << "-Xlint:unchecked"
        }
    }

    // ...
}

in your project's build.gradle file to know where this error is produced.

5

for example when you call a function that returns Generic Collections and you don't specify the generic parameters yourself.

for a function

List<String> getNames()


List names = obj.getNames();

will generate this error.

To solve it you would just add the parameters

List<String> names = obj.getNames();
5

The "unchecked or unsafe operations" warning was added when java added Generics, if I remember correctly. It's usually asking you to be more explicit about types, in one way or another.

For example. the code ArrayList foo = new ArrayList(); triggers that warning because javac is looking for ArrayList<String> foo = new ArrayList<String>();

2

I just want to add one example of the kind of unchecked warning I see quite often. If you use classes that implement an interface like Serializable, often you will call methods that return objects of the interface, and not the actual class. If the class being returned must be cast to a type based on generics, you can get this warning.

Here is a brief (and somewhat silly) example to demonstrate:

import java.io.Serializable;

public class SimpleGenericClass<T> implements Serializable {

    public Serializable getInstance() {
        return this;
    }

    // @SuppressWarnings("unchecked")
    public static void main() {

        SimpleGenericClass<String> original = new SimpleGenericClass<String>();

        //  java: unchecked cast
        //    required: SimpleGenericClass<java.lang.String>
        //    found:    java.io.Serializable
        SimpleGenericClass<String> returned =
                (SimpleGenericClass<String>) original.getInstance();
    }
}

getInstance() returns an object that implements Serializable. This must be cast to the actual type, but this is an unchecked cast.

1

I had 2 years old classes and some new classes. I solved it in Android Studio as follows:

allprojects {

    gradle.projectsEvaluated {
        tasks.withType(JavaCompile) {
            options.compilerArgs << "-Xlint:unchecked"
        }
    }

}

In my project build.gradle file (Borzh solution)

And then if some Metheds is left:

@SuppressWarnings("unchecked")
public void myMethod()
{
    //...
}
0

The solution would be to use specific type in <> like ArrayList<File>.

example:

File curfolder = new File( "C:\\Users\\username\\Desktop");
File[] file = curfolder.listFiles();
ArrayList filename = Arrays.asList(file);

above code generate warning because ArrayList is not of specific type.

File curfolder = new File( "C:\\Users\\username\\Desktop");
File[] file = curfolder.listFiles();
ArrayList<File> filename = Arrays.asList(file);

above code will do fine. Only change is in third line after ArrayList.

0

You can keep it in the generic form and write it as:

// list 2 is made generic and can store any type of Object
        ArrayList<Object> list2 = new ArrayList<Object>();

Setting type of ArrayList as Object gives us the advantage to store any type of data. You don't need to use -Xlint or anything else.

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