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If you take Java's primitive numeric types, plus boolean, and compare it to C++ equivalent types, is there any difference what concerns the operators, like precedence rules or what the bit-manipulation operators do? Or the effect of parenthesis?

Asked another way, if I took a Java expression and tried to compile and run it in C++, would it always compile and always give the same result?

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I think something different happens when you cast ie (int). I seem to recall that you may get compile errors that you would not get in C. –  Adam Gent Jul 8 '11 at 11:47
'm not sure I understand you. Do you mean something compiles in C that does not in Java? That would be OK for me. But the other way around would be a problem. –  Sebastien Diot Jul 8 '11 at 17:59
Yes something compiles in C that Java's coercion would not allow. I tried to figure out what it was last night... damn my memory. –  Adam Gent Jul 9 '11 at 0:26

6 Answers 6

up vote 7 down vote accepted
  • For an expression like:

    a = foo() + bar();

    In Java, the evaluation order is well-defined (left to right). C++ does not specify whether foo() or bar() is evaluated first.

  • Stuff like:

    i = i++;

    is undefined in C++, but again well-defined in Java.

  • In C++, performing right-shifts on negative numbers is implementation-defined/undefined; whereas in Java it is well-defined.

  • Also, in C++, the operators &, | and ^ are purely bitwise operators. In Java, they can be bitwise or logical operators, depending on the context.

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@Lazarus: You're right, side-effects (which is what I was thinking about) are somewhat outside the scope of the question. Unless, of course, the side effects of foo affect the result of bar, or vice versa. –  Oliver Charlesworth Jul 8 '11 at 12:52
@Lazarus: In terms of the post-increment, C++ works in terms of sequence points. There are two modifications to i, but no intermediate sequence point, so the result is undefined. –  Oliver Charlesworth Jul 8 '11 at 12:53
An interesting piece on sequence points but let's face it, your post-increment statement isn't just an edge-case, it's an off the edge case ;) –  Lazarus Jul 8 '11 at 14:19

Java specifies more about the order of evaluation of expressions than C++, and C++ says that you get undefined behavior if any of the legal evaluation orders of your expression modify an object twice between sequence points.

So, i++ + i++ is well defined in Java, but has undefined behavior (no diagnosis required) in C++. Therefore you can't blindly copy expressions from Java to C++.

For bitwise operators, Java specifies two's-complement representation of negative numbers whereas C++ doesn't. Not that you're likely to encounter another representation in C++, but if you did then you would find for example that -2 | 1 is always -1 in Java, but is -2 in a C++ implementation using 1s' complement.

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I believe that operator precedence is consistent between C++ and Java and provided the expression is deterministic then it should evaluate the same way.

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However, precedence is not the only issue... –  Oliver Charlesworth Jul 8 '11 at 11:50
Agreed, there is the bitwise operators which I'm not familiar with in Java but providing the >> was translated to >>> the precedence of operators in an expression involving only primitives (as indicated by the OP) would surely still be fairly consistent (assuming the implementations followed spec). –  Lazarus Jul 8 '11 at 12:03

See this:

int a = 0;

int b = (a++) + (a);

If you print b then it will output 0 in C++ whereas 1 in Java

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The right-shift operator >> is different. In Java it's always an arithmetic shift, i.e. it copies the sign bit into the leftmost bit, whereas in C++ it's implementation-defined whether it's an arithmetic or logical shift. You can get a logical shift in Java using >>>, which doesn't exist in C++.

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Does implementation-define mean per-compiler, or per-OS? If I test gcc on Windows, will it word the same on Linux? Or can't I rely on that either? –  Sebastien Diot Jul 8 '11 at 18:58
You just need to read the documentation for your compiler. Most modern compilers will give you an arithmetic right-shift for signed integers, so I'd be surprised if gcc behaves differently on Windows and Linux, but you just need to read the docs to be certain. –  Graham Borland Jul 8 '11 at 19:21

There must be lot of difference, because in Java almost all numeric types are always signed. Read Java Puzzlers book and Java Language Specification to understand all the subtle differences.

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