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Since Java 5, we've had boxing/unboxing of primitive types so that int is wrapped to be java.lang.Integer, and so and and so forth. I see a lot of new Java projects lately (that definitely require a JRE of at least version 5, if not 6) that are using int rather than java.lang.Integer, though it's much more convenient to use the latter, as it has a few helper methods for converting to long values et al. Why do some still use primitive types in Java? Is there any tangible benefit?

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ever thought about memory consumption and performance? –  Tedil Mar 4 '11 at 21:19
oops, i do that. force of habit –  Spidy Mar 4 '11 at 21:20
I added the autoboxing tag... and found out that three people actually follow it. Really? People follow the AUTOBOXING tag? –  corsiKa Mar 4 '11 at 21:25
@TK Kocheran Mostly because new IntegeR(5) == new Integer(5) should by the rules, evaluate to false. –  biziclop Mar 4 '11 at 21:39
See GNU Trove or Mahout Collections or HPPC or ... for solutions to collections of primitive types. Those of us who care about speed spend our time using more primitive types, not less. –  bmargulies Mar 5 '11 at 23:00

18 Answers 18

up vote 154 down vote accepted

In Joshua Bloch's Effective Java, Item 5: "Avoid creating unnecessary objects", he posts the following code example:

public static void main(String[] args) {
    Long sum = 0L; // uses Long, not long
    for(long i = 0; i <= Integer.MAX_VALUE; i++) {
        sum += i;

and it takes 43 seconds to run. Taking the Long into the primitive brings it down to 6.8 seconds... if that's any indication why we use primitives.

The lack of native value equality is also a concern (.equals() is fairly verbose compared to ==)

for biziclop:

class biziclop {

    public static void main(String[] args) {
        System.out.println(new Integer(5) == new Integer(5));
        System.out.println(new Integer(500) == new Integer(500));

        System.out.println(Integer.valueOf(5) == Integer.valueOf(5));
        System.out.println(Integer.valueOf(500) == Integer.valueOf(500));

Results in:

C:\Documents and Settings\glow\My Documents>java biziclop

C:\Documents and Settings\glow\My Documents>
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Wow, EPIC autoboxing FAIL. –  Naftuli Tzvi Kay Mar 4 '11 at 21:29
Now imagine if i were declared as Long as well! –  ColinD Mar 4 '11 at 21:39
@TREE - the spec actually requires VMs to create flyweights within a certain range. But sadly it allows them to extend that range, meaning that programs may behave differently on different VMs. So much for cross platform... –  Daniel Earwicker Mar 5 '11 at 13:38
@Catalin I disagree with you that autoboxing is a complete failure. It has some flaws, which is no different than any other design that could have been used (including nothing.) They make very clear what you can and can't expect, and like any other design they expect developers to know and obey the contracts of those designs. –  corsiKa Mar 6 '11 at 20:32
@why-el because they are two different objects. The 256 closest to zero are being cached by the JVM, so they return the same object for those. But beyond that range, they aren't cached, so a new object is created. Does that make sense? –  corsiKa Mar 29 '12 at 15:47

Autounboxing can lead to hard to spot NPEs

Integer in = null;
int i = in; // NPE at runtime

In most situations the null assignment to in is a lot less obvious than above.

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+1 Definitely a thorn in the side for Java programs, and sage advice. –  John K Mar 5 '11 at 4:19
@HeikoRupp: Re suggested edit reviewing, please see meta.stackexchange.com/questions/137784/… –  Mechanical snail Sep 28 '12 at 9:24
In particular, you approved the bad suggested edit stackoverflow.com/review-beta/suggested-edits/724182, which introduces formatting errors by blindly making things code. Best wishes. –  Mechanical snail Sep 28 '12 at 10:20

Primitive types:

int x = 1000;
int y = 1000;

Now evaluate:

x == y

It's true. Hardly surprising. Now try the boxed types:

Integer x = 1000;
Integer y = 1000;

Now evaluate:

x == y

It's false. Probably. Depends on the runtime. Is that reason enough?

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Any reason for downvote? –  Daniel Earwicker Mar 4 '11 at 21:26
Interesting. I was always taught "use equals(), use equals(), use equals()!", so I hadn't really considered this. –  Naftuli Tzvi Kay Mar 4 '11 at 21:28
You don't consider using meaningful syntax for actual arithmetic? –  poke Mar 5 '11 at 4:13
given the above example, one should think that Java would be a better language without ==. –  flow Nov 18 '13 at 16:40
@flow - or if x == y were redefined to be syntactic sugar for x.equals(y) (with appropriate checks for null) and numeric types were pseudo-classes with methods such as equals, plus, minus etc. so all operators would be nothing more than a conventional notation overlaid on a basic uniform syntax. I think someone from the C# team commented on SO that they wish they'd done operators this way (it's how the LINQ operators were added). –  Daniel Earwicker Nov 19 '13 at 9:23

Boxed types have poorer performance and require more memory.

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Besides performance and memory issues, I'd like to come up with another issue: The List interface would be broken without int.
The problem is the overloaded remove() method (remove(int) vs. remove(Object)). remove(Integer) would always resolve to calling the latter, so you could not remove an element by index.

On the other hand, there is a pitfall when trying to add and remove an int:

final int i = 42;
final List<Integer> list = new ArrayList<Integer>();
list.add(i); // add(Object)
list.remove(i); // remove(int) - Ouch!
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Interesting. Well spotted, nice to see many alternative answers. –  Illidanek Jun 26 at 14:29

First and foremost, habit. If you've coded in Java for eight years, you accumulate a considerable amount of inertia, however you try to fight it.

The other reason is to assert that null is not a vaild option. It would be pointless and misleading to declare the sum of two numbers or a loop variable as Integer.

There's the performance aspect of it too, but more often than not that's just used as an excuse for habit. The performance difference very rarely actually matters.

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I disagree. The performance aspect can be critical. Very little of this is probably inertial or force of habit. –  Eddie Mar 4 '11 at 21:26
@Eddie It can be, but it very rarely is. Trust me, for most people performance arguments are just an excuse. –  biziclop Mar 4 '11 at 21:35
+1 for mentioning the "assert that null is not a valid option" case. I was explaining this to a colleague earlier today. –  D.Shawley Mar 5 '11 at 2:01
I too would like to protect the performance argument. On Android with Dalvik each object you create will increase the "risk" of GC being called and the more objects you have the pauses will be longer. So creating Integers instead of int in a loop will probably cost you some dropped frames. –  PSIXO Jul 14 at 22:35
@PSIXO It's a fair point, I wrote it with purely server-side Java in mind. Mobile devices are a whole different animal. But my point was that even developers who otherwise write terrible code without any regard to performance will cite this as a reason, from them this sounds very much as an excuse. –  biziclop Jul 14 at 23:00

Can you really imagine a

  for (int i=0; i<10000; i++) {
      do something

loop with java.lang.Integer instead? A java.lang.Integer is immutable, so each increment round the loop would create a new java object on the heap, rather than just increment the int on the stack with a single JVM instruction. The performance would be diabolical.

I would really disagree that it's much mode convenient to use java.lang.Integer than int. On the contrary. Autoboxing means that you can use int where you would otherwise be forced to use Integer, and the java compiler takes care of inserting the code to create the new Integer object for you. Autoboxing is all about allowing you to use an int where an Integer is expected, with the compiler inserting the relevant object construction. It in no way removes or reduces the need for the int in the first place. With autoboxing you get the best of both worlds. You get an Integer created for you automatically when you need a heap based java object, and you get the speed and efficiency of an int when you are just doing arithmetic and local calculations.

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By the way, Smalltalk has only objects (no primitives), and yet they had optimized their small integers (using not all 32 bits, only 27 or such) to not allocate any heap space, but simply use a special bit pattern. Also other common objects (true, false, null) had special bit patterns here.

So, at least on 64-bit JVMs (with a 64 bit pointer namespace) it should be possible to not have any objects of Integer, Character, Byte, Short, Boolean, Float (and small Long) at all (apart from these created by explicit new ...()), only special bit patterns, which could be manipulated by the normal operators quite efficiently.

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+1 Very interesting recommendation based on the implementation of Smalltalk. I'm always intrigued by the experience and resulting ingenuity of many people around here. –  John K Mar 5 '11 at 4:17
I should have said "some implementations", as this is not governed by the language specifications, I think. (And sadly I can't cite any sources here, it is only from what I heard somewhere.) –  Paŭlo Ebermann Mar 5 '11 at 11:08
ŭlo, JIT already keeps meta into in the pointer; incl, the pointer can keep GC info, or the Klass (optimizing Class is a lot better idea than optimizing Integers, for which I can care less). Changing the pointer would require, shift/cmp/jnz code (or something like that) before each pointer load. The branch probably won't be very well predicted by the hardware (since it can be both Value Type and normal Object) and it would lead to performance hit. –  bestsss Mar 11 '11 at 6:24
I did Smalltalk for some years. The optimization still was pretty expensive, as for each operation on an int they had to unmask and reapply them. Currently java is on par with C when manipulating primitive numbers. With unmask+mask it will likely be >30% slower. –  R.Moeller Jun 4 at 22:27

Primitive types are much faster:

int i;

Integer (all Numbers and also a String) is an immutable type: once created it can not be changed. If i was Integer, than i++ would create a new Integer object - much more expensive in terms of memory and processor.

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You don't want one variable to change if you do i++ on another variable, so Integer quite needs to be immutable to be able to do this (or at least this i++ would have to create a new Integer object anyway). (And the primitive values are immutable, too - you just don't remark this since they are no objects.) –  Paŭlo Ebermann Mar 4 '11 at 22:00
@Paŭlo: Saying that primitive values are immutable is kind of meaningless. When you reassign a primitive variable to a new value, you are not creating anything new. No memory allocation is involved. Peter's point stands: i++ for a primitive does no memory allocation, but for an object it necessarily does. –  Eddie Mar 5 '11 at 0:09
@Eddie: (It does not necessarily need memory allocation, it could also return a cached value. For some small values it does, I think.) My point was that the immutability of Integers here is not the deciding point, you would anyway want to have another object, regardless of immutability. –  Paŭlo Ebermann Mar 5 '11 at 0:15
@Paŭlo: my only point was that Integer is an order of magnitude slower then primitives. And this is due to the fact that boxed types are immutable and every time you have change a value a new object is created. I did not claim there is something wrong with them or the fact that they are immutable. Just that they are slower and that a coder should know that. Take a look at how Groovy fares without primitive types jroller.com/rants/entry/why_is_groovy_so_slow –  Peter Knego Mar 5 '11 at 7:34
Immutability and ++ is a red herring here. Imagine Java was enhanced to support operator overloading in a really simple way, such that if a class (such as Integer has a method plus, then you could write i + 1 instead of i.plus(1). And assume also that the compiler is smart enough to expand i++ into i = i + 1. Now you could say i++ and effectively "increment the variable i" without Integer being mutable. –  Daniel Earwicker Mar 22 '11 at 10:25

I can't believe no one has mentioned what I think is the most important reason: "int" is so, so much easier to type than "Integer". I think people underestimate the importance of a concise syntax. Performance isn't really a reason to avoid them because most of the time when one is using numbers is in loop indexes, and incrementing and comparing those costs nothing in any non-trivial loop (whether you're using int or Integer).

The other given reason was that you can get NPEs but that's extremely easy to avoid with boxed types (and it is guaranteed to be avoided as long as you always initialize them to non-null values).

The other reason was that (new Long(1000))==(new Long(1000)) is false, but that's just another way of saying that ".equals" has no syntactic support for boxed types (unlike the operators <, >, =, etc), so we come back to the "simpler syntax" reason.

I think Steve Yegge's non-primitive loop example illustrates my point very well: http://sites.google.com/site/steveyegge2/language-trickery-and-ejb

Think about this: how often do you use function types in languages that have good syntax for them (like any functional language, python, ruby, and even C) compared to java where you have to simulate them using interfaces such as Runnable and Callable and nameless classes.

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Objects are much more heavyweight than primitive types, so primitive types are much more efficient than instances of wrapper classes.

Primitive types are very simple: for example an int is 32 bits and takes up exactly 32 bits in memory, and can be manipulated directly. An Integer object is a complete object, which (like any object) has to be stored on the heap, and can only be accessed via a reference (pointer) to it. It most likely also takes up more than 32 bits (4 bytes) of memory.

That said, the fact that Java has a distinction between primitive and non-primitive types is also a sign of age of the Java programming language. Newer programming languages don't have this distinction; the compiler of such a language is smart enough to figure out by itself if you're using simple values or more complex objects.

For example, in Scala there are no primitive types; there is a class Int for integers, and an Int is a real object (that you can methods on etc.). When the compiler compiles your code, it uses primitive ints behind the scenes, so using an Int is just as efficient as using a primitive int in Java.

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I would have assumed that the JRE would be "smart" enough to do this with Java wrapped primitives as well. Fail. –  Naftuli Tzvi Kay Mar 4 '11 at 21:26

In addition to what others have said, primitive local variables are not allocated from the heap, but instead on the stack. But objects are allocated from the heap and thus have to be garbage collected.

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Sorry, this is wrong. A smart JVM can do escape analysis on any object allocations and, if they cannot escape, allocate them on the stack. –  rlibby Mar 4 '11 at 21:31
Yes, this is beginning to be a feature of modern JVMs. In five years, what you say will be true for most JVMs then in use. Today it is not. I almost commented about this, but decided to not comment on it. Perhaps I should have said something. –  Eddie Mar 4 '11 at 21:33

It's hard to know what kind of optimizations are going on under the covers.

For local use, when the compiler has enough information to make optimizations excluding the possibility of the null value, I expect the performance to be the same or similar.

However, arrays of primitives are apparently very different from collections of boxed primitives. This makes sense given that very few optimizations are possible deep within a collection.

Furthermore, Integer has a much higher logical overhead as compared with int: now you have to worry about about whether or not int a = b + c; throws an exception.

I'd use the primitives as much as possible and rely on the factory methods and autoboxing to give me the more semantically powerful boxed types when they are needed.

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Primitive types have many advantages: - Simpler code to write - Performance is better since you are not instantiating an object for the variable - Since they do not represent a reference to an object there is no need to check for nulls - Use primitive types unless you need to take advantage of the boxing features.

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Couple of reasons not to get rid of primitives:

  • Backwards compatability.

If it's eliminated, any old programs wouldn't even run.

  • JVM rewrite.

The entire JVM would have to be rewritten to support this new thing.

  • Larger memory footprint.

You'd need to store the value and the reference, which uses more memory. If you have a huge array of bytes, using byte's is significantly smaller than using Byte's.

  • Null pointer issues.

Declaring int i then doing stuff with i would result in no issues, but declaring Integer i and then doing the same would result in an NPE.

  • Equality issues.

Consider this code:

Integer i1 = 5;
Integer i2 = 5;

i1 == i2; // Currently would be false.

Would be false. Operators would have to be overloaded, and that would result in a major rewrite of stuff.

  • Slow

Object wrappers are significantly slower than their primitive counterparts.

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int loops = 100000000;

long start = System.currentTimeMillis();
for (Long l = new Long(0); l<loops;l++) {
    //System.out.println("Long: "+l);
System.out.println("Milliseconds taken to loop '"+loops+"' times around Long: "+ (System.currentTimeMillis()- start));

start = System.currentTimeMillis();
for (long l = 0; l<loops;l++) {
    //System.out.println("long: "+l);
System.out.println("Milliseconds taken to loop '"+loops+"' times around long: "+ (System.currentTimeMillis()- start));

Milliseconds taken to loop '100000000' times around Long: 468

Milliseconds taken to loop '100000000' times around long: 31

On a side note, I wouldn't mind seeing something like this find it's way into Java.

Integer loop1 = new Integer(0);
for (loop1.lessThan(1000)) {

Where the for loop automatically increments loop1 from 0 to 1000 or

Integer loop1 = new Integer(1000);
for (loop1.greaterThan(0)) {

Where the for loop automatically decrements loop1 1000 to 0.

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because, They map to hardware... I had to say it.

besides, Similar questions truly prove how bad the average developer is nowadays. pity.

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<sarcasm>Thanks.</sarcasm> –  Naftuli Tzvi Kay Mar 10 '11 at 19:52
no, sarcasm, you're most welcome. It's said above is true –  bestsss Mar 10 '11 at 21:36
this is true indeed –  pyCthon Oct 2 '12 at 22:10
I approve of that. +1 –  johan d. Sep 9 '13 at 14:24

Because JAVA performs all mathematical operations in primitive types. Consider this example:

public static int sumEven(List li) { int sum = 0; for (Integer i: li) if (i % 2 == 0) sum += i; return sum; }

Here, reminder and unary plus operations can not be applied on Integer(Reference) type, compiler performs unboxing and do the operations.

So, make sure how many autoboxing and unboxing operations happen in java program. Since, It takes time to perform this operations.

Generally, it is better to keep arguments of type Reference and result of primitive type.

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