What is the maximum number of elements allowed in an enum in Java?

I wanted to find out the maximum number of cases in a switch statement. Since the largest primitive type allowed in switch is int, we have cases from -2,147,483,648 to 2,147,483,647 and one default case. However enums are also allowed... so the question..

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    I have no idea, but would like to know what type of code are you thinking of that would require to know the max size of an enum lol – Jason Rogers Dec 17 '10 at 7:00
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    If a see s switch with 2 billion cases, I'll probably kill anyone that has touched that code. – Bozho Dec 17 '10 at 7:00
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    Consider that the bytecode inside one case would take, say, 10 bytes of heap. Then the cases from cases from -2,147,483,648 to 2,147,483,647 would take 40 GB of RAM. And if each case statement takes 3 lines of source code, you have 12884901885 lines of code there. That's a hefty class :-) – Joonas Pulakka Dec 17 '10 at 7:03
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    Also worth noting is that Java 7 is going to allow switching on Strings, so your goal of finding the "maximum number of switch cases" is probably even more misguided than it seems. – Adrian Petrescu Dec 17 '10 at 7:10
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    Yes, generated each element as print "A"+str(i)+"," , where i in an index in a loop... – Rnet Dec 17 '10 at 7:17

From the class file format spec:

The per-class or per-interface constant pool is limited to 65535 entries by the 16-bit constant_pool_count field of the ClassFile structure (§4.1). This acts as an internal limit on the total complexity of a single class or interface.

I believe that this implies that you cannot have more then 65535 named "things" in a single class, which would also limit the number of enum constants.

If a see a switch with 2 billion cases, I'll probably kill anyone that has touched that code.

Fortunately, that cannot happen:

The amount of code per non-native, non-abstract method is limited to 65536 bytes by the sizes of the indices in the exception_table of the Code attribute (§4.7.3), in the LineNumberTable attribute (§4.7.8), and in the LocalVariableTable attribute (§4.7.9).

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    LineNumberTable is not a blocker - one can write the complete switch/2 billion case block in a single line ;) – Andreas_D Dec 17 '10 at 8:50
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    @Andreas_D: it still says "65536 bytes (of byte code) per method". Source formatting should not have any effect there. – Thilo Dec 17 '10 at 9:07
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    (my comment was nothing but a joke) – Andreas_D Dec 17 '10 at 9:32
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    Unfortunately, this answer seems to be incorrect. While the logic seems plausible, it doesn't work that way in reality. In Java 7 and 8, Enum constants in a single java file are limited to 2746. Anything larger than 2746 will result in a "error: code too large" – Derek Mar 2 '17 at 16:37
  • @Derek: Good information. Do you have a link to reference? – kevinarpe Feb 25 '18 at 11:39

The maximum number of enum elements is 2746. Reading the spec was very misleading and caused me to create a flawed design with the assumption I would never hit the 64K or even 32K high-water mark. Unfortunately, the number is much lower than the spec seems to indicate. As a test, I tried the following with both Java 7 and Java 8: Ran the following code redirecting it to a file, then compiled the resulting .java file.

    System.out.println("public enum EnumSizeTest {");
    int max = 2746;
    for ( int i=0; i<max; i++) {

Result, 2746 works, and 2747 does not.

After 2746 entries, the compiler throws a code too large error, like

EnumSizeTest.java:2: error: code too large

Decompiling this Enum class file, the restriction appears to be caused by the code generated for each enum value in the static constructor (mostly).

  • It seems there should be something about that limit in the language spec. It cannot be up to the compiler to decide how much it wants to allow. What error message did you get? – Thilo Mar 2 '17 at 23:49
  • I edited the post to answer your question and further explain my response. Hope that helps. – Derek Mar 9 '17 at 23:08
  • Did you use a 32 bit or 64 bit JDK/JRE? – michaeak Aug 7 '17 at 12:13
  • I used the 64 bit JDK on a Linux and a Windows OS. I ran the test again today on:java version "1.8.0_111" Java(TM) SE Runtime Environment (build 1.8.0_111-b14) Java HotSpot(TM) 64-Bit Server VM (build 25.111-b14, mixed mode) – Derek Oct 10 '17 at 21:31
  • Apparently the overhead of the newer version is higher. with 1.8.0_111, the max is now 2745 enums. – Derek Oct 10 '17 at 21:39

Well, on jdk1.6 I hit this limit. Someone has 10,000 enum in an xsd and when we generate, we get a 60,000 line enum file and I get a nice java compiler error of

[ERROR] Failed to execute goal org.apache.maven.plugins:maven-compiler-plugin:2.0.2:compile (default-compile) on project framework: Compilation failure [ERROR] /Users/dhiller/Space/ifp-core/framework/target/generated-sources/com/framework/util/LanguageCodeSimpleType.java:[7627,4] code too large

so quite possibly the limit is much lower than the other answers here OR maybe the comments and such that are generated are taking up too much space. Notice the line number is 7627 in the java compiler error though if the line limit is 7627, I wonder what the line length limit is ;) which may be similar. ie. the limits may be not be based on number of enums but line length limits or number of lines in the file limit so you would have rename enums to A, B, etc. to be very small to fit more enums into the enum.

I can't believe someone wrote an xsd with a 10,000 enum..they must have generated this portion of the xsd.


Enums definitely have limits, with the primary (hard) limit around 32K values. They are subject to Java class maximums, both of the 'constant pool' (64K entries) and -- in some compiler versions -- to a method size limit (64K bytecode) on the static initializer.

'Enum' initialization internally, uses two constants per value -- a FieldRef and a Utf8 string. This gives the "hard limit" at ~32K values.

Older compilers (Eclipse Indigo at least) also run into an issue as to the static initializer method-size. With 24 bytes of bytecode required to instantiate each value & add it to the values array. a limit around 2730 values may be encountered.

Newer compilers (JDK 7 at least) automatically split large static initializers off into methods named " enum constant initialization$2", " enum constant initialization$3" etc so are not subject to the second limit.

You can disassemble bytecode via javap -v -c YourEnum.class to see how this works.

[It might be theoretically possible to write an "old-style" Enum class as handcoded Java, to break the 32K limit and approach close to 64K values. The approach would be to initialize the enum values by reflection to avoid needing string constants in the pool. I tested this approach and it works in Java 7, but the desirability of such an approach (safety issues) are questionable.]

Note to editors: Utf8 was an internal type in the Java classfile IIRC, it's not a typo to be corrected.

  • Thomas, is there some bug/spec I can read up on the splitting of enum initializers into multiple methods? I have a (generated) enum that's compiling fine with the Eclipse Java compiler but fails on javac from JDK 8. – Gunnar May 13 at 16:44
  • Hi @Gunnar, I think this is just a feature of the Eclipse ECJ compiler. Their compiler is better than Sun/ Oracle's. – Thomas W May 22 at 6:34

The maximum size of any method in Java is 65536 bytes. While you can theoretically have a large switch or more enum values, its the maximum size of a method you are likely to hit first.


The Enum class uses an int to track each value's ordinal, so the max would be the same as int at best, if not much lower.

And as others have said, if you have to ask you're Doing It Wrong


There is no maximum number per se for any practical purposes. If you need to define thousands of enums in one class you need to rewrite your program.

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    there is a maximum number for "practical purposes". That is the number that works. I think the point you are trying to make is that it is bad practice / bad style to define an enum with anywhere near that number of values. – Stephen C Dec 17 '10 at 7:26
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    LOL. What an argument. As if one would always have control over data structures. In many, many cases they are given externally and have nothing to do with your code. If there is a huge database that has developed over time, and you want to map a property into java to make it type-safe/compile-safe or whatever, that is a pretty reasonable thing to do. And you cannt count on the DB maintainer/admin/developer to take into account all languages' internal limitations. – user1050755 Oct 26 '14 at 16:02

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