From a simple point of view, lambda expressions are compiled into static methods, since they don’t capture this (i.e. do not access instance members).

public class App {
  public static void foo(){
      Consumer<Integer> c1 = n -> {};
      Consumer<Integer> c2 = n -> {};

  public static void main(String [] args) {
    Supplier<String> sup1 = () -> "I am sup1";
    Supplier<String> sup2 = () -> "I am sup2";
    Supplier<String> sup3 = () -> "I am sup3";


Running the previous example and checking the generated bytecodes with the javap tool, we can see that lambdas referred by variables c1, c2, sup1, sup2, sup3 are compiled to methods with names:

  • lambda$foo$0
  • lambda$foo$1
  • lambda$main$2
  • lambda$main$3
  • lambda$main$4

However, if we print the getClass() for each object referred by those variables (c1, c2, sup1, sup2, sup3) we will get, respectively:

  • class App$$Lambda$5/1705736037
  • class App$$Lambda$6/455659002
  • class App$$Lambda$1/791452441
  • class App$$Lambda$2/531885035
  • class App$$Lambda$3/1418481495

So, how can we make the correspondence between the runtime class names and the name of the methods resulting from the lambdas?


None of the solutions pointed in the following duplicated questions helps me to solve the problem that I am asking in my question:

The only way that I found was to adapt the solution of @Holger from its answer (not the accepted one) to the question Java 8: convert lambda to a Method instance with clousure included. However, in my case, instead of a Method object I am just looking for the name of the method. So, adapting that lambdaToMethod() to the following methodNameFromLambda() I got a solution:

static String methodNameFromLambda(Serializable lambda) {
  try {
    Method m = lambda.getClass().getDeclaredMethod("writeReplace");
    SerializedLambda sl=(SerializedLambda)m.invoke(lambda);
    return sl.getImplMethodName();
  } catch(ReflectiveOperationException ex) {
    throw new RuntimeException(ex);

Now, lambdas of the example must be cast to Consumer<Integer>&Serializable or Supplier<String>&Serializable as describe in @Holger answer.

I am not aware if this solution is correct, but it works for my example and for the cases that I am working on.

  • 3
    My original code looped through the lambda’s class hierarchy, because there is no guaranty that the writeReplace method is within the actual class. It would be a reasonable strategy to let lambdas inherit that method from a common base class instead of re-implementing it in every generated class, so I made the code ready to handle this scenario. To be pessimistic, there is no guaranty for the presence of this method at all, e.g. a different JRE could implement the replacement within the depths of the ObjectOutputStream implementation… – Holger Nov 16 '17 at 9:19

This is subject to change from version to version - there is no specification that says what the exact names would be - and it's done on purpose; well to protect against code that might find clever things to do with these names.

| improve this answer | |
  • Interesting! .. might find clever things to do with these names like? – Naman Nov 15 '17 at 17:19
  • 1
    @nullpointer: there are already existing Q&As on Stackoverflow regarding clever ways to find this information. – Holger Nov 15 '17 at 17:30
  • 2
    @Miguel Gamboa: the bottom line of all linked Q&As is that there is no general solution at all, only partial solutions with specific drawbacks. If someone finds a better solution, it should be added to one of those existing questions. The purpose of the closing is to avoid having answers to the same thing spread over multiple questions (more than we already have)... – Holger Nov 15 '17 at 20:04
  • 1
    and I'm excitedly waiting which new solutions will show up after reopening… – Holger Nov 15 '17 at 20:08
  • 2
    @Eugene: this comment nails it—it’s simply an entirely different feature. For a Supplier instance, there is no guaranty that it has been implemented as lambda/method reference at all nor that the creator is willing to allow this kind of reflection about something that should be an implementation detail. This answer also illustrates the issue, you would get three different answers for semantically identical expressions… – Holger Nov 15 '17 at 20:20

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