In Java we see lots of places where the final keyword can be used but its use is uncommon.

For example:

String str = "abc";
System.out.println(str);

In the above case, str can be final but this is commonly left off.

When a method is never going to be overridden we can use final keyword. Similarly in case of a class which is not going to be inherited.

Does the use of final keyword in any or all of these cases really improve performance? If so, then how? Please explain. If the proper use of final really matters for performance, what habits should a Java programmer develop to make best use of the keyword?

  • I don't think so pal, method dispatching(call site caching and ...) is an issue in dynamic languages not in static type languages – Jahan Zinedine Nov 25 '10 at 17:11
  • If I run my PMD tool (plugin to eclipse) used for reviewing purpose, it suggest to make changes for variable in case as shown above. But I did not understand its concept. Really the performance hits so much?? – Abhishek Jain Nov 25 '10 at 17:17
  • 3
    I thought this was a typical exam question. I remember that final does have influence on performance, IIRC final classes can be optimized by the JRE in some way because they cannot be subclassed. – Kawu Nov 25 '10 at 19:57
  • I actually had this tested. On all JVMs I tested the use of final on local variables did improve performance (slightly, but nevertheless can be a factor in utility methods). The source code is in my answer below. – rustyx Jan 31 '14 at 16:52
  • When doing performance checks, it's best to use a tool like Caliper for microbenchmarks. – Archimedes Trajano Aug 29 '15 at 6:51

12 Answers 12

up vote 241 down vote accepted

Usually not. For virtual methods, HotSpot keeps track of whether the method has actually been overridden, and is able to perform optimizations such as inlining on the assumption that a method hasn't been overridden - until it loads a class which overrides the method, at which point it can undo (or partially undo) those optimizations.

(Of course, this is assuming you're using HotSpot - but it's by far the most common JVM, so...)

To my mind you should use final based on clear design and readability rather than for performance reasons. If you want to change anything for performance reasons, you should perform appropriate measurements before bending the clearest code out of shape - that way you can decide whether any extra performance achieved is worth the poorer readability/design. (In my experience it's almost never worth it; YMMV.)

EDIT: As final fields have been mentioned, it's worth bringing up that they are often a good idea anyway, in terms of clear design. They also change the guaranteed behaviour in terms of cross-thread visibility: after a constructor has completed, any final fields are guaranteed to be visible in other threads immediately. This is probably the most common use of final in my experience, although as a supporter of Josh Bloch's "design for inheritance or prohibit it" rule of thumb, I should probably use final more often for classes...

  • 1
    @Abhishek: About what in particular? The most important point is the last one - that you almost certainly shouldn't be worrying about this. – Jon Skeet Nov 25 '10 at 17:23
  • 8
    @Abishek: final is generally recommended because it makes code easier to understand, and helps find bugs (because it makes the programmers intention explicit). PMD probably recommends to use final because of these style issues, not for performance reasons. – sleske Nov 25 '10 at 17:36
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    @Abhishek: A lot of it is likely to be JVM-specific, and may rely on very subtle aspects of context. For example, I believe the HotSpot server JVM will still allow inlining of virtual methods when overridden in one class, with a quick type check where appropriate. But the details are hard to pin down and may well change between released. – Jon Skeet Nov 25 '10 at 17:37
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    Here I would quote Effective Java, 2nd Edition, Item 15, Minimize mutability : Immutable classes are easier to design, implement, and use than mutable classes. They are less prone to error and are more secure.. Furthermore An immutable object can be in exactly one state, the state in which it was created. vs Mutable objects, on the other hand, can have arbitrarily complex state spaces.. From my personal experience, using the keyword final should highlight the intent of the developer to lean toward immutability, not to "optimize" code. I encourage you to read this chapter, fascinating ! – Louis F. Feb 17 '16 at 21:59
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    Other answers shows that using the final keyword on variables could reduce the amount of bytecode, which may produce an effect on performance. – Julien Kronegg May 6 at 21:44

Short answer: don't worry about it!

Long answer:

When talking about final local variables keep in mind that using the keyword final will help the compiler optimize the code statically, which may in the end result in faster code. For example, the final Strings a + b in the example below are concatenated statically (at compile time).

public class FinalTest {

    public static final int N_ITERATIONS = 1000000;

    public static String testFinal() {
        final String a = "a";
        final String b = "b";
        return a + b;
    }

    public static String testNonFinal() {
        String a = "a";
        String b = "b";
        return a + b;
    }

    public static void main(String[] args) {
        long tStart, tElapsed;

        tStart = System.currentTimeMillis();
        for (int i = 0; i < N_ITERATIONS; i++)
            testFinal();
        tElapsed = System.currentTimeMillis() - tStart;
        System.out.println("Method with finals took " + tElapsed + " ms");

        tStart = System.currentTimeMillis();
        for (int i = 0; i < N_ITERATIONS; i++)
            testNonFinal();
        tElapsed = System.currentTimeMillis() - tStart;
        System.out.println("Method without finals took " + tElapsed + " ms");

    }

}

The result?

Method with finals took 5 ms
Method without finals took 273 ms

Tested on Java Hotspot VM 1.7.0_45-b18.

So how much is the actual performance improvement? I don't dare say. In most cases probably marginal (~270 nanoseconds in this synthetic test because the string concatenation is avoided altogether - a rare case), but in highly optimized utility code it might be a factor. In any case the answer to the original question is yes, it might improve performance, but marginally at best.

Compile-time benefits aside, I could not find any evidence that the use of the keyword final has any measurable effect on performance.

  • 2
    I rewrote your code a little to test both cases 100 times. Eventually the average time of the final was 0 ms and 9 ms for the non final. Increasing the iteration count to 10M set the average to 0 ms and 75 ms. The best run for the non final was 0 ms however. Maybe it's the VM detecting results are just being thrown away or something? I don't know, but regardless, the use of final does make a significant difference. – Casper Færgemand Apr 3 '14 at 13:05
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    Flawed test. Earlier tests will warmup the JVM and benefit the later test invocations. Reorder your tests and see what happens. You need to run each test in its own JVM instance. – Steve Kuo Jun 5 '14 at 21:56
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    No the test is not flawed, the warmup was taken into account. The second test is SLOWER, not faster. Without warmup the second test would be EVEN SLOWER. – rustyx Jun 6 '14 at 15:26
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    In testFinal() all time returned the same object, from strings pool, because resust of final strings and strings literals concatenation are evaluated at compile time. testNonFinal() every time return new object, thats explain difference in speed. – anber Jun 18 '14 at 12:56
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    What makes you think the scenario is unrealistic? String concatenation is a much more costly operation than adding Integers. Doing it statically (if possible) is more efficient, that's what the test shows. – rustyx Dec 9 '14 at 9:17

YES it can. Here is an instance where final can boost performance:

Conditional compilation is a technique in which lines of code are not compiled into the class file based on a particular condition. This can be used to remove tons of debugging code in a production build.

consider the following:

public class ConditionalCompile {

  private final static boolean doSomething= false;

    if (doSomething) {
       // do first part. 
    }

    if (doSomething) {
     // do second part. 
    }

    if (doSomething) {     
      // do third part. 
    }

    if (doSomething) {
    // do finalization part. 
    }
}

By converting the doSomething attribute into a final attribute, you have told the compiler that whenever it sees doSomething, it should replace it with false as per the compile-time substitution rules. The first pass of the compiler changes the code to something like this:

public class ConditionalCompile {

  private final static boolean doSomething= false;

    if (false){
       // do first part. 
    }

    if (false){
     // do second part. 
    }

    if (false){
      // do third part. 
    }

    if (false){
    // do finalization part. 

    }
}

Once this is done, the compiler takes another look at it and sees that there are unreachable statements in the code. Since you are working with a top-quality compiler, it doesn't like all those unreachable byte codes. So it removes them, and you end up with this:

public class ConditionalCompile {


  private final static boolean doSomething= false;

  public static void someMethodBetter( ) {

    // do first part. 

    // do second part. 

    // do third part. 

    // do finalization part. 

  }
}

thus reducing any excessive codes, or any unnecessary conditional checking.

Edit: As an example, let's take the following code:

public class Test {
    public static final void main(String[] args) {
        boolean x = false;
        if (x) {
            System.out.println("x");
        }
        final boolean y = false;
        if (y) {
            System.out.println("y");
        }
        if (false) {
            System.out.println("z");
        }
    }
}

When compiling this code with Java 8 and decompiling with javap -c Test.class we get:

public class Test {
  public Test();
    Code:
       0: aload_0
       1: invokespecial #8                  // Method java/lang/Object."<init>":()V
       4: return

  public static final void main(java.lang.String[]);
    Code:
       0: iconst_0
       1: istore_1
       2: iload_1
       3: ifeq          14
       6: getstatic     #16                 // Field java/lang/System.out:Ljava/io/PrintStream;
       9: ldc           #22                 // String x
      11: invokevirtual #24                 // Method java/io/PrintStream.println:(Ljava/lang/String;)V
      14: iconst_0
      15: istore_2
      16: return
}

We can note that compiled code includes only the non-final variable x. This prooves that final variables have impact on performances, at least for this simple case.

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    @ŁukaszLech I learned this from an Oreilly book: Hardcore Java, on their chapter regarding the final keyword. – mel3kings Oct 1 '13 at 1:29
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    This talks about optimization at the compile time, means developer knows the VALUE of the final boolean variable at compile time, what is the whole point of writing if blocks in first place then for this scenario where the IF-CONDITIONS are not necessary and not making any sense? In my opinion, even if this boosts performance, this is wrong code in first place and can be optimized by developer himself rather than passing the responsibility to compiler and the question mainly intends to ask about the performance improvements in usual codes where final is used which makes programmatic sense. – Bhavesh Agarwal Nov 22 '13 at 11:43
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    The point of this would be to add debugging statements as mel3kings stated. You could flip the variable before a production build (or configure it in your build scripts) and automatically remove all of that code when the distribution is created. – Adam Mar 10 '16 at 13:36

According to IBM - it doesnt for classes or methods.

http://www.ibm.com/developerworks/java/library/j-jtp04223.html

You are really asking about two (at least) different cases:

  1. final for local variables
  2. final for methods/classes

Jon Skeet has already answered 2). About 1):

I don't think it makes a difference; for local variables, the compiler can deduce whether the variable is final or not (simply by checking whether it is assigned more than once). So if the compiler wanted to optimize variables that are only assigned once, it can do so no matter whether the variable is actually declared final or not.

final might make a difference for protected/public class fields; there it's very difficult for the compiler to find out if the field is being set more than once, as it could happen from a different class (which may not even have been loaded). But even then the JVM could use the technique Jon describes (optimize optimistically, revert if a class is loaded which does change the field).

In summary, I don't see any reason why it should help performance. So this kind of micro-optimization is unlikely to help. You could try benchmarking it to make sure, but I doubt it will make a difference.

Edit:

Actually, according to Timo Westkämper's answer, final can improve performance for class fields in some cases. I stand corrected.

  • I don't think the compiler can correctly check the number of times a local variable is assigned: what about if-then-else structs with numerous assignments? – gyorgyabraham Nov 20 '13 at 13:42
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    @gyabraham: The compiler already checks theses cases if you declare a local variable as final, to make sure you do not assign it twice. As far as I can see, the same checking logic can be (and probably is) used for checking whether a variable could be final. – sleske Nov 20 '13 at 13:52
  • The final-ness of a local variable is not expressed in the bytecode, thus the JVM doesn't even know that it was final – Steve Kuo Jun 5 '14 at 21:58
  • @SteveKuo: Even if it is not expressed in the bytecode, it may help javac to optimize better. But this is just speculation. – sleske Jun 5 '14 at 22:32
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    The compiler could find out whether a local variable has been assigned exactly once, but in practice, it doesn’t (beyond error checking). On the other hand, if a final variable is of a primitive type or type String and is immediately assigned with a compile-time constant like in the question’s example, the compiler must inline it, as the variable is a compile-time constant per specification. But for most use cases, the code might look different, but it still makes no difference whether the constant is inlined or read from a local variable performance-wise. – Holger Sep 16 '16 at 17:10

I am amazed that no one has actually posted some real code that is de-compiled to prove that there is at least some minor difference.

For the reference this has been tested against javac version 8, 9 and 10.

Suppose this method:

public static int test() {
    /* final */ Object left = new Object();
    Object right = new Object();

    return left.hashCode() + right.hashCode();
}

Compiling this code as it is, produces the exact same byte code as when final would have been present (final Object left = new Object();).

But this one:

public static int test() {
    /* final */ int left = 11;
    int right = 12;
    return left + right;
}

Produces:

   0: bipush        11
   2: istore_0
   3: bipush        12
   5: istore_1
   6: iload_0
   7: iload_1
   8: iadd
   9: ireturn

Leaving final to be present produces:

   0: bipush        12
   2: istore_1
   3: bipush        11
   5: iload_1
   6: iadd
   7: ireturn

The code is pretty much self-explanatory, in case there is a compile time constant, it will be loaded directly onto the operand stack (it will not be stored into local variables array like the previous example does via bipush 12; istore_0; iload_0) - which sort of makes sense since no one can change it.

On the other hand why in the second case the compiler does not produce istore_0 ... iload_0 is beyond me, it's not like that slot 0 is used in any way (it could shrink the variables array this way, but may be Im missing some internals details, can't tell for sure)

I was surprised to see such an optimization, considering how little ones javac does. As to should we always use final? I'm not even going to write a JMH test (which I wanted to initially), I am sure that the diff is in the order of ns (if possible to be captured at all). The only place this could be a problem, is when a method could not be inlined because of it's size (and declaring final would shrink that size by a few bytes).

There are two more finals that need to be addressed. First is when a method is final (from a JIT perspective), such a method is monomorphic - and these are the most beloved ones by the JVM.

Then there are final instance variables (that must be set in every constructor); these are important as they will guarantee a correctly published reference, as touched a bit here and also specified exactly by the JLS.

  • I compiled the code using Java 8 (JDK 1.8.0_162) with the debug options (javac -g FinalTest.java), decompiled the code using javap -c FinalTest.class and did not obtain the same results (with final int left=12, I got bipush 11; istore_0; bipush 12; istore_1; bipush 11; iload_1; iadd; ireturn). So yes, the generated bytecode dependents on lot of factors and it is difficult to say whether having a final or not produce an effect on performance. But as the bytecode is different, some performance difference may exist. – Julien Kronegg May 6 at 22:13

Note: Not a java expert

If I remember my java correctly, there would be very little way to improve performance using the final keyword. I've always known it to exist for "good code" - design and readability.

I'm not an expert but I suppose you should add final keyword to the class or method if it won't be overwritten and leave variables alone. If there will be any way to optimize such things the compiler will do that for you.

Actually, while testing some OpenGL-related code, I found that using the final modifier on a private field can degrade performance. Here is the start of the class I tested:

public class ShaderInput {

    private /* final */ float[] input;
    private /* final */ int[] strides;


    public ShaderInput()
    {
        this.input = new float[10];
        this.strides = new int[] { 0, 4, 8 };
    }


    public ShaderInput x(int stride, float val)
    {
        input[strides[stride] + 0] = val;
        return this;
    }

    // more stuff ...

And this is the method I used to test the performance of various alternatives, amongst which the ShaderInput class:

public static void test4()
{
    int arraySize = 10;
    float[] fb = new float[arraySize];
    for (int i = 0; i < arraySize; i++) {
        fb[i] = random.nextFloat();
    }
    int times = 1000000000;
    for (int i = 0; i < 10; ++i) {
        floatVectorTest(times, fb);
        arrayCopyTest(times, fb);
        shaderInputTest(times, fb);
        directFloatArrayTest(times, fb);
        System.out.println();
        System.gc();
    }
}

After the 3rd iteration, with the VM warmed up, I consistently got these figures without the final key word:

Simple array copy took   : 02.64
System.arrayCopy took    : 03.20
ShaderInput took         : 00.77
Unsafe float array took  : 05.47

With the final keyword:

Simple array copy took   : 02.66
System.arrayCopy took    : 03.20
ShaderInput took         : 02.59
Unsafe float array took  : 06.24

Note the figures for the ShaderInput test.

It didn't matter whether I made the fields public or private.

Incidentally, there are a few more baffling things. The ShaderInput class outperforms all other variants, even with the final keyword. This is remarkable b/c it basically is a class wrapping a float array, while the other tests directly manipulate the array. Have to figure this one out. May have something to do with ShaderInput's fluent interface.

Also System.arrayCopy actually apparently is somewhat slower for small arrays than simply copying elements from one array to the other in a for loop. And using sun.misc.Unsafe (as well as direct java.nio.FloatBuffer, not shown here) performs abysmally.

  • 1
    You forgot to make the parameters final. <pre><code> public ShaderInput x(final int stride, final float val) { input[strides[stride] + 0] = val; return this; } </code></pre> In my experiences, doing any variable or field final may indeed boost performance. – Anticro Nov 28 '16 at 11:36
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    Oh, and also make the others final too: <pre><code> final int arraySize = 10; final float[] fb = new float[arraySize]; for (int i = 0; i < arraySize; i++) { fb[i] = random.nextFloat(); } final int times = 1000000000; for (int i = 0; i < 10; ++i) { floatVectorTest(times, fb); arrayCopyTest(times, fb); shaderInputTest(times, fb); directFloatArrayTest(times, fb); System.out.println(); System.gc(); } </code></pre> – Anticro Nov 28 '16 at 11:45

Definately yes, if variable converts as constant,

as we know java compiler convert such final variables as constant which possibles

as concept of constant java compiler directly replace the value with it's reference at compile time

in java variables goes as constant if that is string or primitive type which given without any runtime process

otherwise it just final (non changeble) variable,

& constatnt use is always faster than reference.

so if possible, use constants in any programming language for better performance

Members declared with final will be available throughout the program because unlike nonfinal ones, if these members have not been used in program, still they would not be taken care by Garbage Collector so can cause performance issue due to bad memory management.

final keyword can be used in five ways in Java.

  1. A class is final
  2. A reference variable is final
  3. A local variable is final
  4. A method is final

A class is final: a class is final means we cannot be extended or inheritance means inheritance is not possible.

Similarly - A object is final: some time we does not modified the internal state of object so in such case we can specify the object is final object.object final means not variable also final.

Once reference variable is made final, it cannot be reassigned to other object. But can change the contents of the object as long as its fields are not final

  • 2
    By "object is final" you mean "object is immutable". – gyorgyabraham Nov 20 '13 at 15:35
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    You are right, but you are not answering the question. OP did not ask what final means, but whether using final influence the performance. – Honza Zidek Jun 2 '16 at 22:35

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