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In what way are these statements different?

  1. double dummy = 0;
  2. double dummy = 0.0;
  3. double dummy = 0.0d;
  4. double dummy = 0.0D;
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4 Answers 4

up vote 17 down vote accepted

Having tried a simple program (using both 0 and 100, to show the difference between "special" constants and general ones) the Sun Java 6 compiler will output the same bytecode for both 1 and 2 (cases 3 and 4 are identical to 2 as far as the compiler is concerned).

So for example:

double x = 100;
double y = 100.0;

compiles to:

0:  ldc2_w	#2; //double 100.0d
3:  dstore_1
4:  ldc2_w	#2; //double 100.0d
7:  dstore_3

However, I can't see anything in the Java Language Specification guaranteeing this compile-time widening of constant expressions. There's compile-time narrowing for cases like:

byte b = 100;

as specified in section 5.2, but that's not quite the same thing.

Maybe someone with sharper eyes than me can find a guarantee there somewhere...

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Could you suggest a good resource where one can read about what ldc2_w and the other instructions mean? –  Alberto Zaccagni Sep 18 '09 at 9:39
The JVM specification: java.sun.com/docs/books/jvms –  Jon Skeet Sep 18 '09 at 9:46

For the first one:

double dummy = 0;

the integer literal 0 is converted to a double with a widening primitive conversion, see 5.1.2 Widening Primitive Conversion in the Java Language Specification. Note that this is done entirely by the compiler, it doesn't have any impact on the produced bytecode.

For the other ones:

double dummy = 0.0;
double dummy = 0.0d;
double dummy = 0.0D;

These three are exactly the same - 0.0, 0.0d and 0.0D are just three different ways of writing a double literal. See 3.10.2 Floating-Point Literals in the JLS.

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The last 3 should be identical. The literal on the right side is a double already. The 'd' or 'D' is implicit when you have a decimal literal.

The first one is slightly different in that 0 is an int literal, which will be widened to a double. I don't know if that even produces different byte code in this case or not; the result should be identical anyway.

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Thank you for the reply, I know the results are identical, I want to know the differences under the hood. –  Alberto Zaccagni Sep 18 '09 at 9:02
For "0.0", "0.0d" and "0.0D" there are really no differences under the hood. Those are three ways to write a double literal, they all are exactly equivalent. –  Jesper Sep 18 '09 at 10:32

for Java I do not know exactly, in C this can be really dangerous if you omit this D at the end since it will not change upper bytes, which can have effect that in your variable lies number which you actually did not put in!

In Java I had a really big problem with instatntiating BigDecimal - new BigDecimal(0) and new bigDecimal(0L) is NOT the same thing, you can feel it if you migrate your code from Java 1.4 to Java 1.5. Don't know why they were sloppy about it, maybe they had to do it that way.

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Your answer doesn't answer the question. What's happening in C is not relevant and neither is what your experience with BigDecimals is. –  Garzun Jan 15 at 16:53

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