I've done some searching on google, but I can't seem to find what I'm looking for. I'm trying to find out some detailed information on the way arithmetic works in Java. For example, if you add two longs together is this using the same addition operator that is used when adding two ints together? Also, what is going on under the hood when you mix longs and ints in arithmetic expressions like this:

long result;
long operand a = 1;
int operand b = 999999999;

result = a + b;

If anyone could shed some light on this or post links to relevant articles that would be awesome. Thanks!

EDIT: Thanks for the replies so far. Also, is it safe to perform arithmetic with different primitives so long as you are assigning into a variable of the widest primitive type in your expression?

  • 2
    This isn't a forum, it isn't really transparent to the people who have answered your question that you have a follow up. As for your edit though: Java will not allow you to assign the result of an operation to a variable if the variable is not of a primitive type "wide" enough to hold it. Stated otherwise, you can not assign the result of "0L + 1" to an int without specifically casting to an int. – Tim Bender Jun 19 '10 at 1:24
  • Ah ok, that makes sense. Thanks for the follow up. – BordrGuy108 Jun 29 '10 at 4:25
  • Its not completely safe as many operations can result in an underflow or an overflow. try Long.MAX_VALUE + 1 However it will always compile if you assign to the widest type. – Peter Lawrey Jul 13 '10 at 20:08

When mixing types the int is automatically widened to a long and then the two longs are added to produce the result. The Java Language Specification explains the process for operations containing different primative types.

Specifically, these are the types each primative will widen to without requiring a cast:

  • byte to short, int, long, float, or double
  • short to int, long, float, or double
  • char to int, long, float, or double
  • int to long, float, or double
  • long to float or double
  • float to double

See: Conversions and promotions

According to that, your int is promoted to long and then is evaluated.

Same happens with, for instance, int + double and the rest of the primitives. ie.

System.out( 1 + 2.0 );// prints 3.0 a double

As for the addition operator I'm pretty much it is the same, but I don't have any reference of it.

A quick view to the compiler's source reveals they are different.

Namely iadd for int addition and ladd for long addition:

See this sample code:

$cat Addition.java 
public class Addition {
    public static void main( String [] args ) {
        int  a  = Integer.parseInt(args[0]);
        long b = Long.parseLong(args[0]);
        // int addition 
        int  c  = a + a;
        // long addition 
        long d = a + b;
$javac Addition.java 

When compiled the byte code generated is this:

$javap -c Addition 
Compiled from "Addition.java"
public class Addition extends java.lang.Object{
public Addition();
   0:   aload_0
   1:   invokespecial   #1; //Method java/lang/Object."<init>":()V
   4:   return

public static void main(java.lang.String[]);
   0:   aload_0
   1:   iconst_0
   2:   aaload
   3:   invokestatic    #2; //Method java/lang/Integer.parseInt:(Ljava/lang/String;)I
   6:   istore_1
   7:   aload_0
   8:   iconst_0
   9:   aaload
   10:  invokestatic    #3; //Method java/lang/Long.parseLong:(Ljava/lang/String;)J
   13:  lstore_2
   14:  iload_1
   15:  iload_1
   16:  iadd
   17:  istore  4
   19:  iload_1
   20:  i2l
   21:  lload_2
   22:  ladd
   23:  lstore  5
   25:  return


Look at line 16 it says: iadd ( for int addition ) while the line 22 says ladd ( for long addition )

Also, is it safe to perform arithmetic with different primitives so long as you are assigning into a variable of the widest primitive type in your expression?

Yes, and it's also "safe" to perform arithmetic with smaller sizes, in the sense, they don't break the program, you just lose information.

For instance, try adding Integer.MAX_VALUE to Integer.MAX_VALUE to see what happens, or int x = ( int ) ( Long.MAX_VALUE - 1 );


Also, is it safe to perform arithmetic with different primitives so long as you are assigning into a variable of the widest primitive type in your expression?

It depends what you mean by safe. It certainly won't avoid you needing to consider the possibility of overflow.


this is called arithmetic promotion. for details look at http://www.cafeaulait.org/course/week2/22.html

int a=5;  
long b=10;  

The main difference is that with a = a + b, there is no typecasting going on, and so the compiler gets angry at you for not typecasting. But with a += b, what it's really doing is typecasting b to a type compatible with a.

  • So it's making an invisible downcast from long to int, potentially throwing away information? Just came across this in java.io.ByteArrayInputStream#skip(long) and did a double-take. Never seen that before. – nilskp Jul 19 '16 at 19:45

This simple example could clear the doubts about data type conversion in case of arithmetic operations in java.

    byte a = 1;
    short b = 1;
    System.out.println(a+b);                     //Output = 2
    Object o = a+b;                              //Object becomes int
    System.out.println(o.getClass().getName());  //Output = java.lang.Integer

    int c = 1;
    System.out.println(a+b+c);                   //Output = 3
    o = a+b+c;                                   //Object becomes int
    System.out.println(o.getClass().getName());  //Output = java.lang.Integer

    long d = 1l;
    System.out.println(a+b+c+d);                 //Output = 4
    o = a+b+c+d;                                 //Object becomes long
    System.out.println(o.getClass().getName());  //Output = java.lang.Long

    float e = 1.0f;
    System.out.println(a+b+c+d+e);               //Output = 5.0
    o = a+b+c+d+e;                               //Object becomes float
    System.out.println(o.getClass().getName());  //Output = java.lang.Float

    double f = 1.0;
    System.out.println(a+b+c+d+e+f);             //Output = 6.0
    o = a+b+c+d+e+f;                             //Object becomes double
    System.out.println(o.getClass().getName());  //Output = java.lang.Double

Following is the order of data types according to range in java:


This is the order in which widening will happen.

Note: float has more range than long, but has smaller size.

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