Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have 2 questions with this code segments

  1. method 1 is working fine and method 2 doesn't. What is the reason for this?
  2. In method 1 return value is byte(8 bit). But we actually return a char value(16 bit). what is actually happening here?

//method 1

static byte m1() {
    final char c = 'b'-'a';
    return c; 

//method 2

static byte m3(final char c) {
    return c; // 3
share|improve this question
What do you mean by not working? – Rohit Jain Aug 11 '13 at 10:06
when it compiles it says :: error: possible loss of precision – chathura Aug 11 '13 at 10:07
Perhaps static optimization in method 1 ? – Karthik T Aug 11 '13 at 10:08
And what is not clear with this error message? Do you understand that chars are 16-bits long, whereas bytes are 8-bits long? – JB Nizet Aug 11 '13 at 10:09
up vote 23 down vote accepted

char in Java is a 16 bit unsigned value, while byte is 8 bit signed value. Allowed range for byte is [-128, 127]. So, not all character can be assigned in byte.

In your first method, you are returning a char with code point = 1 ('b' - 'a'). Now since you have defined char as final, and assigning to it a constant expression, it becomes a compile time constant. So, compiler doesn't give any compiler error.

From JLS Section 5.2:

If the expression is a constant expression (§15.28) of type byte, short, char, or int:
- A narrowing primitive conversion may be used if the type of the variable is byte, short, or char, and the value of the constant expression is representable in the type of the variable.

Emphasis mine.

However, if you make c non-final, it will also result in a compiler error:

static byte m1() {  // This will be an error
    char c = 'b'-'a';
    return c; 

The reason is, c is not a compile time constant any more, and compiler doesn't do an implicit downcast.

In 2nd method you are returning the char that you passed. The parameter c there is not a compile time constant. It isn't known at compile time what value the method might get. Like, if you pass a char with code points not in range of allowed byte value, it won't work.

To make the 2nd method work, you can do an explicit cast:

static byte m3(final char c) {
    return (byte)c; // 3
share|improve this answer
@Babai. Nope. Never worked on Ruby. I'm a Java person. – Rohit Jain Aug 23 '13 at 15:54
Ohh! in which company you are ? – Arup Rakshit Aug 23 '13 at 17:54
@Babai. Infosys. – Rohit Jain Aug 23 '13 at 17:56
I am in iGATE...Looking for a Ruby job...Can you help me? :) – Arup Rakshit Aug 23 '13 at 18:01

In method 2, the compiler cannot make a narrowing implicit cast from chat to byte, because it could result in a loss of precision (Java supports Unicode characters, and its char primitive type is defined with the size of 16-bits of information, differently from C language where it is usually 8 bits)

In method 1 though, the compiler can determine that the constant value 'b'-'a' will not actually result in a loss of precision, and so allows you to perform the implicit cast.

Take a look at:

share|improve this answer

In m1() the compiler sees that char c is constant with value 1 and therefore does not complain as it knows it can be fit into byte. If you changed it to final char c = 128 where 127 is the maximum size of the byte you would get complaint, as you also would when you removed the finalvariable descriptor from char c.

share|improve this answer
can you explain why an error is occured when the final keyword is deleted? – chathura Aug 11 '13 at 10:23
When you remove final it is no longer a constant. So compiler cannot be sure that it will not change in the future (even though the method end in the next line, the compiler is not aware of this). When there is final char c with assigned value, compiler just sees it as number 127 which has no problem to be safely transformed into any integer type. Remember that char in java ranges from 0 - 65 535 as it has 16 bits.… – dev-null Aug 11 '13 at 10:25

Now the reason m1() works and m3() doesn't is because in m1() c is a compile-time constant.

Analyse this code:

    byte b = 'x'; //compile-time constant
    int i = 'x'; //compile-time constant
    char c = 'x'; //compile-time constant
    c = i; //compilation error
    c = b; //compilation error
    b = i; //compilation error
    b = c; //compilation error
    i = b;  // Okay
    i = c;  // Okay

Compiler will not do an implicit cast which can possibly result in loss of data, for run-time variables.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.