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Languages like i.e. Java and C# have both bitwise and logical operators.

Logical operators make only sense with boolean operands, bitwise operators work with integer types as well. Since C had no boolean type and treats all non-zero integers as true, the existence of both logical and bitwise operators makes sense there. However, languages like Java or C# have a boolean type so the compiler could automatically use the right kind of operators, depending on the type context.

So, is there some concrete reason for having both logical and bitwise operators in those languages? Or were they just included for familiarity reasons?

(I am aware that you can use the "bitwise" operators in a boolean context to circumvent the short-circuiting in Java and C#, but i have never needed such a behaviour, so i guess it might be a mostly unused special case)

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See for example: stackoverflow.com/questions/11411907/… –  assylias Jan 1 '13 at 21:03
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5 Answers

1) is there some concrete reason for having both logical and bitwise operators in those languages?


  • We have boolean operators to do boolean logic (on boolean values).
  • We have bitwise operators to do bitwise logic (on integer values).

2) I am aware that you can use the "bitwise" operators in a boolean context to circumvent the short-circuiting in Java and C#,

For as far as C# goes this simply is not true.
C# has for example 2 boolean AND operators: & (full) and && (short) but it does not allow bitwise operations on booleans.

So, there really is no 'overlap' or redundancy between logical and bitwise operators. The two do not apply to the same types.

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Also, the operator ^ (XOR) in C# has overloads for integer types (like int and long) where it is a bitwise operator, but also has an overload for bool where it's a logical operator. So it's wrong to think (at least with C#) that when the symbol is not doubled (not &&, ||), then that's a bitwise operation. It depends on which overload is used. The only operator that has for some reason a different symbol for bitwise and logical, is negation (which is ~i respectively !b). –  Jeppe Stig Nielsen Jan 1 '13 at 22:34
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in C#, with booleans

  • && is a short circuiting logical operator
  • & is a non short circuiting logical operator

bitwise, it just uses & as a legacy syntax from C / C++.... but it's really quite different. If anything, it would be better as a completely different symbol to avoid any confustion. But there aren't really many left, unless you wanted to go for &&& or ||| but thats a bit ugly.

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As you have already said, there's some difference between & and && (the same goes for | and ||) so you need two sets of boolean operators. Now, independently from those above, you may need bitwise operators and the best choice is &, | s.o. since you don't have to avoid any confusion.

Why complicate things and use the two-character version ?

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The question of whether an operator short-circuits is somewhat orthogonal to its performing a bitwise computation. One could define a short-circuiting bitwise and operator which would evaluate the first argument and, if non-zero, evaluate the second argument and compute the bitwise and of the arguments (else evaluate to zero). –  supercat Dec 11 '13 at 7:44
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I'll say for Java

  • Logical operator are user with booleans and bitwise operators are used with ints. They can't be mixed.
  • Why not reduce them to one operator such as "&" or "|"? Java was designed to be friendly for C/C++ users, so it got their syntax. Nowadays these operators cannot be reduced because of backwards compatibility.
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compiler cannot infer proper operator looking only at arguments. it's a business decision which one to choose. it's about lazy calculations. e.g.

public boolean a() {
  return false;

public boolean b() {
  return true;

and now: a() & b() will execute doStuffB() while a() && b() will not

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As i stated in my question the case you describe doesn't happen very often. Also i think a lot of programmers looking at the code "a() & b()" might mistakenly consider it to be an error and "correct" it for the && operator, so calling the methods first and using the logical && later might provide for more clarity to what the original programmer intended to do –  Bill Askaga Jan 2 '13 at 7:16
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