I've found that java compile has a non-expected behavior regarding assignment and self assignment statements using an int and a float.

The following code block illustrates the error.

    int i = 3;
    float f = 0.1f;

    i += f;              // no compile error, but i = 3
    i = i + f;           // COMPILE ERROR
  • In the self assignment i += f the compile does not issue an error, but the result of the exaluation is an int with value 3, and the variable i maintains the value 3.

  • In the i = i + f expression the compiler issues an error with "error: possible loss of precision" message.

Can someone explain this behavior.

EDIT: I've posted this code block in https://compilr.com/cguedes/java-autoassignment-error/Program.java

  • The Java Language Specification is where you'll find the explanation. It's freely available online. – JB Nizet Dec 8 '12 at 19:37
  • To be fair, "Chapter 5. Conversions and Promotions" is where I would have (and have) looked before stumbling on this question; chapter 15 does not even show up on the first page looking for "Java implicit narrowing conversion". Not finding the information was not necessarily a sign of not searching, and your comment didn't help in any way – Silly Freak Jun 10 '13 at 18:40


The Java Language Specification says:

A compound assignment expression of the form E1 op= E2 is equivalent to E1 = (T) ((E1) op (E2)), where T is the type of E1, except that E1 is evaluated only once.

So i += f is equivalent to i = (int) (i + f).


i believe that the explicit i+f fails because of Narrowing primitive conversion. While in the first case the conversion on the right side passes because it is done according to Compound Assignment rules.

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