# Does the result of bitwise operations depend on endianess in Java? What about in C or C++?

Consider the following code:

``````long store;
int firstValue = 0x1234;
int secondValue = 0x5678;
store = (((long) firstValue) << 32) | secondValue;
``````

Is `store` guaranteed to have the value `0x12345678` regardless of the endianess of the machine...

• in Java?
• in C or C++?
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The bitshift operations in all those languages operate on numbers. Endianness is not a property of numbers.

In Java `store` is guaranteed to have the value `0x123400005678L`, because `0x1234L << 32` is `0x123400000000L`.

In C and C++ `store` is not guaranteed to have any particular value: the result depends on the sizes of the types involved, and it has potentially undefined behaviour due to overflows (`long` is allowed to be as small as 32 bits, and it actually is so in some mainstream implementations). If no overflows occur, then the result is the same as in Java.

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I meant a 32 shift of the long variable, I have edited the question fixing the mistake. Thanks –  José D. Aug 27 '14 at 15:02
AFAIK in C it isn't even defined by the language how shift counts that do not fall inside 0 <= N < (operand bit size) work. And in java (0x1234 << 32) == 0x1234 (because 0x1234 is an int literal and shift count is modulo 32 (operand bit size). –  Durandal Aug 27 '14 at 15:26
@Durandal Regarding the C, are you talking about, maybe, overflows? Regarding the Java, that's quite the nitpicking; would it be ok if I removed the backticks (it's not longer code, and now we're back to numbers and not Java literals :P)? –  R. Martinho Fernandes Aug 27 '14 at 15:27
C simply doesn't define how many of the lowermost bits of the shift count are actually used. int32 i = 1; i <<= 57; may shift by 57, 57 % 32 or something else, depending on implementation (compiler, platform). As for the java case, it would be best to simply write 0x1234L (making clear its a long), if someone copy and pasted it as it is; it compiles but it doesn't give the value your explanation says it gives :) –  Durandal Aug 27 '14 at 15:29
Isn't that what undefined behaviour means? –  R. Martinho Fernandes Aug 27 '14 at 15:29

I assume you mean to shift by 16 bits, not 32, to get `0x12345678`. Shifting by 32 will overflow in Java, and in most C/C++ implementations.

That is guaranteed, and independent of endianness. Endianness determines how multi-byte values are stored in memory, not which bits are logically in which position within the value. Left-shifting by N bits is always equivalent to multiplying by 2N.

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I meant a 32 shift of the long variable, I have edited the question fixing the mistake. Thanks –  José D. Aug 27 '14 at 15:02
@Trollkemada: In that case, the result is `0x123400005678` in Java at least; in C/C++, `long` isn't guaranteed to be that large. –  Mike Seymour Aug 27 '14 at 15:15

Endianness doesn't matter, although whether the machine uses one's complement or two's complement can.

• In C, `<<` is unaffected because it is defined in terms of arithmetic operations (multiplication and exponentiation).
• In Java, `<<` is unaffected because it is defined in terms of arithmetic operations (multiplication, exponentiation, addition, arithmetic negation and subtraction).
• In C, `|` is defined in terms of the underlying bits. Endianness would have no effect, but it can behave differently on a ones' complement machine than on a two's complement machine.
• In Java, `|` is unaffected because Java integers are always two's complement.

I presume that C++ is the same as C.

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multiplication by a power of two does not stop behave differently if you change the internal representation: as a trivial demonstration, the value of "3 * 16" is the same as the value of "three times sixteen". That I used "3" or "three" doesn't make it a different number. –  R. Martinho Fernandes Aug 27 '14 at 14:57
@mafso that's an overflow (i.e. a multiplication that results in a number larger than the largest representable in the result type). No such a thing as a "sign bit" need to be involved. –  R. Martinho Fernandes Aug 27 '14 at 15:08
C11 (n1570) 6.5.7 p.5 "The result of `E1 << E2` is `E1` left-shifted `E2` bit positions; vacated bits are filled with zeros. [...] If E1 has a signed type and nonnegative value, and E1 × 2**E2 is representable in the result type, then that is the resulting value; otherwise, the behavior is undefined." –  mafso Aug 27 '14 at 15:10
@mafso, Updated answer. –  ikegami Aug 27 '14 at 15:59