In a lambda, local variables need to be final, but instance variables don't. Why so?

  • 7
  • Let be known that at least with the latest version of the compiler java 1.8 local variables only need to be effectively final so they don't need to be declared final per se but the cannot be modified. Jun 6, 2018 at 20:18
  • After reading all the answers here, I still think it's just a rule enforced by the compiler, designed to minimize programmer error - that is, there is no technical reason why mutable local variables can't be captured, or why captured local variables can't be mutated, for that matter. This point is supported by the fact that this rule can be readily circumvented by using an object wrapper (so the object reference is effectively final, but not the object itself). Another way is to create an array, i.e. Integer[] count = {new Integer(5)}. See also stackoverflow.com/a/50457016/7154924.
    – flow2k
    Oct 4, 2018 at 8:05
  • @McDowell, lambda's are not merely syntax sugar for anonymous classes but a different construct altogether.
    – Pacerier
    May 15, 2020 at 23:17
  • @flow2k this is ok only as long as the reference to "count" doesn't change which is not the same as changing the value that points to it. Reference to the value must be final/effectively final, not the value itself. Considering this and article lambdafaq.org/… it does make sense why allowing a mutable reference will have undesirable effects.
    – 01000001
    Feb 17 at 17:13

10 Answers 10


The fundamental difference between a field and a local variable is that the local variable is copied when JVM creates a lambda instance. On the other hand, fields can be changed freely, because the changes to them are propagated to the outside class instance as well (their scope is the whole outside class, as Boris pointed out below).

The easiest way of thinking about anonymous classes, closures and labmdas is from the variable scope perspective; imagine a copy constructor added for all local variables you pass to a closure.

  • Right, then the anonymous class constructor doesn't need to copy the instance variable because it can just reference it. Good explanation!
    – Gerard
    Jul 31, 2014 at 9:49

In a document of project lambda, State of the Lambda v4, under Section 7. Variable capture, it is mentioned that:

It is our intent to prohibit capture of mutable local variables. The reason is that idioms like this:

int sum = 0;
list.forEach(e -> { sum += e.size(); });

are fundamentally serial; it is quite difficult to write lambda bodies like this that do not have race conditions. Unless we are willing to enforce—preferably at compile time—that such a function cannot escape its capturing thread, this feature may well cause more trouble than it solves.

Another thing to note here is, local variables are passed in the constructor of an inner class when you access them inside your inner class, and this won't work with non-final variable because value of non-final variables can be changed after construction.

While in case of an instance variable, the compiler passes a reference of the object and object reference will be used to access instance variables. So, it is not required in case of instance variables.

PS : It is worth mentioning that anonymous classes can access only final local variables (in Java SE 7), while in Java SE 8 you can access effectively final variables also inside lambda as well as inner classes.


In Java 8 in Action book, this situation is explained as:

You may be asking yourself why local variables have these restrictions. First, there’s a key difference in how instance and local variables are implemented behind the scenes. Instance variables are stored on the heap, whereas local variables live on the stack. If a lambda could access the local variable directly and the lambda were used in a thread, then the thread using the lambda could try to access the variable after the thread that allocated the variable had deallocated it. Hence, Java implements access to a free local variable as access to a copy of it rather than access to the original variable. This makes no difference if the local variable is assigned to only once—hence the restriction. Second, this restriction also discourages typical imperative programming patterns (which, as we explain in later chapters, prevent easy parallelization) that mutate an outer variable.

  • 1
    I really think there are some issues in Java 8 in Action in this point. If the local variable here refers to the variables created in the method but accessed by the lambdas, and the multi-thread is achieved by ForkJoin, then there will be a copy for different threads and mutation in lambdas is acceptable theoretically, in which case it can be mutated. But the thing here is different, local variables used in lambda is for parallelisation achieved by parallelStream, and these local variables are shared by different threads which are based on the lambdas.
    – Hearen
    May 12, 2018 at 5:50
  • So the first point is actually not right, there is no so-called copy, it's shared among threads in parallelStream. And sharing mutable variables among threads is dangerous just like the Second point. That's why we prevent it and introduce built-in methods in Stream to handle these cases.
    – Hearen
    May 12, 2018 at 5:51

Because instance variables are always accessed through a field access operation on a reference to some object, i.e. some_expression.instance_variable. Even when you don't explicitly access it through dot notation, like instance_variable, it is implicitly treated as this.instance_variable (or if you're in an inner class accessing an outer class's instance variable, OuterClass.this.instance_variable, which is under the hood this.<hidden reference to outer this>.instance_variable).

Thus an instance variable is never directly accessed, and the real "variable" you're directly accessing is this (which is "effectively final" since it is not assignable), or a variable at the beginning of some other expression.

  • Nice explanation for this question Mar 8, 2019 at 9:51

Putting up some concepts for future visitors:

Basically it all boils down to the point that compiler should be able to deterministically tell that lambda expression body is not working on a stale copy of the variables.

In case of local variables, compiler has no way to be sure that lambda expression body is not working on a stale copy of the variable unless that variable is final or effectively final, so local variables should be either final or effectively final.

Now, in case of instance fields, when you access an instance field inside the lambda expression then compiler will append a this to that variable access (if you have not done it explicitly) and since this is effectively final so compiler is sure that lambda expression body will always have the latest copy of the variable (please note that multi-threading is out of scope right now for this discussion). So, in case instance fields, compiler can tell that lambda body has latest copy of instance variable so instance variables need not to be final or effectively final. Please refer below screen shot from an Oracle slide:

enter image description here

Also, please note that if you are accessing an instance field in lambda expression and that is getting executed in multi-threaded environment then you could potentially run in problem.

  • 2
    Would you mind providing the source of the Oracle slide?
    – flow2k
    Oct 4, 2018 at 8:06
  • @hagrawal could you please elaborate your final statement regarding multi-threaded environment? Is it with respect to actual value of member variable at any time since many threads are running at same time so they can override the instance variable. Also, if I synchronize the member variables properly then also the problem remains?
    – Yug Singh
    Oct 29, 2018 at 20:16
  • 1
    best answer for the question I guess ;) Dec 6, 2018 at 5:37

It seems like you are asking about variables that you can reference from a lambda body.

From the JLS §15.27.2

Any local variable, formal parameter, or exception parameter used but not declared in a lambda expression must either be declared final or be effectively final (§4.12.4), or a compile-time error occurs where the use is attempted.

So you don't need to declare variables as final you just need to make sure that they are "effectively final". This is the same rule as applies to anonymous classes.

  • 3
    Yes, but instance variables can be referenced and assigned in a lambda, which is surprising to me. Only local variables have the final limitation.
    – Gerard
    Jul 31, 2014 at 9:35
  • @Gerard Because an instance variable has the scope of the whole class. This is exactly the same logic as for an anonymous class - there are plenty of tutorials explaining the logic. Jul 31, 2014 at 9:39

Within Lambda expressions you can use effectively final variables from the surrounding scope. Effectively means that it is not mandatory to declare variable final but make sure you do not change its state within the lambda expresssion.

You can also use this within closures and using "this" means the enclosing object but not the lambda itself as closures are anonymous functions and they do not have class associated with them.

So when you use any field (let say private Integer i;)from the enclosing class which is not declared final and not effectively final it will still work as the compiler makes the trick on your behalf and insert "this" (this.i).

private Integer i = 0;
public  void process(){
    Consumer<Integer> c = (i)-> System.out.println(++this.i);

Here is a code example, as I didn't expect this either, I expected to be unable to modify anything outside my lambda

 public class LambdaNonFinalExample {
    static boolean odd = false;

    public static void main(String[] args) throws Exception {
       //boolean odd = false; - If declared inside the method then I get the expected "Effectively Final" compile error
       runLambda(() -> odd = true);
       System.out.println("Odd=" + odd);

    public static void runLambda(Callable c) throws Exception {


Output: Odd=true


YES, you can change the member variables of the instance but you CANNOT change the instance itself just like when you handle variables.

Something like this as mentioned:

    class Car {
        public String name;

    public void testLocal() {
        int theLocal = 6;
        Car bmw = new Car();
        bmw.name = "BMW";
        Stream.iterate(0, i -> i + 2).limit(2)
        .forEach(i -> {
//            bmw = new Car(); // LINE - 1;
            bmw.name = "BMW NEW"; // LINE - 2;
            System.out.println("Testing local variables: " + (theLocal + i));

        // have to comment this to ensure it's `effectively final`;
//        theLocal = 2; 

The basic principle to restrict the local variables is about data and computation validity

If the lambda, evaluated by the second thread, were given the ability to mutate local variables. Even the ability to read the value of mutable local variables from a different thread would introduce the necessity for synchronization or the use of volatile in order to avoid reading stale data.

But as we know the principal purpose of the lambdas

Amongst the different reasons for this, the most pressing one for the Java platform is that they make it easier to distribute processing of collections over multiple threads.

Quite unlike local variables, local instance can be mutated, because it's shared globally. We can understand this better via the heap and stack difference:

Whenever an object is created, it’s always stored in the Heap space and stack memory contains the reference to it. Stack memory only contains local primitive variables and reference variables to objects in heap space.

So to sum up, there are two points I think really matter:

  1. It's really hard to make the instance effectively final, which might cause lots of senseless burden (just imagine the deep-nested class);

  2. the instance itself is already globally shared and lambda is also shareable among threads, so they can work together properly since we know we're handling the mutation and want to pass this mutation around;

Balance point here is clear: if you know what you are doing, you can do it easily but if not then the default restriction will help to avoid insidious bugs.

P.S. If the synchronization required in instance mutation, you can use directly the stream reduction methods or if there is dependency issue in instance mutation, you still can use thenApply or thenCompose in Function while mapping or methods similar.


First, there is a key difference in how local and instance variables are implemented behind the scenes. Instance variables are stored in the heap, whereas local variables stored in the stack. If the lambda could access the local variable directly and the lambda was used in a thread, then the thread using the lambda could try to access the variable after the thread that allocated the variable had deallocated it.

In short: to ensure another thread does not override the original value, it is better to provide access to the copy variable rather than the original one.

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