# C# conditional AND (&&) OR (||) precedence

We get into unnecessary coding arguments at my work all-the-time. Today I asked if conditional AND (&&) or OR (||) had higher precedence. One of my coworkers insisted that they had the same precedence, I had doubts, so I looked it up.

According to MSDN AND (&&) has higher precedence than OR (||). But, can you prove it to a skeptical coworker?

http://msdn.microsoft.com/en-us/library/aa691323(VS.71).aspx

``````bool result = false || true && false; // --> false
// is the same result as
bool result = (false || true) && false; // --> false
// even though I know that the first statement is evaluated as
bool result = false || (true && false); // --> false
``````

So my question is how do you prove with code that AND (&&) has a higher precedence that OR (||)? If your answer is it doesn't matter, then why is it built that way in the language?

• It's that way in the language because they have to make a decision. Personally, I don't care which has precedence; I'd use parenthesis to make sure I'm getting the result I expect. It's not about why it does what it does; it's about being able to figure out what the code is doing when you back to it weeks, months or years later. Jul 28 '09 at 21:04
• @Jeff: That's not correct. There is a mathematical basis for this decision - it's called boolean algebra. Jul 28 '09 at 21:09
• @TheSteve: short-circuiting is not affecting expression result. It only affects side effects. Jul 28 '09 at 21:11
• The fact that you even have to consider it means you shouldn't rely on the next guy knowing, if there is a question that anyone in the office might possibly have to spend 3 seconds thinking about it, then invest the .5 seconds to add a ( and a ) Jul 28 '09 at 21:59
• Let me see if I've got this straight. Your coworker has a belief about the language. That belief is contradicted by both the specification and the implementation. Your claim is consistent with the specification and the implementation. So why are YOU the one trying to construct a proof? The burden of proof is upon the person who has the crazy belief, not the person who has the sensible belief. I wouldn't waste any more time on this; if they want to spend their time trying to prove something false, let 'em. Jul 28 '09 at 22:00

Change the first false by true. I know it seems stupid to have (true || true) but it proves your point.

``````bool result = true || true && false;   // --> true
result = (true || true) && false; // --> false
result = true || (true && false); // --> true
``````
• Short circuiting only ever occurs when the result of the boolean expression is known; short circuiting can not change the result of a boolean expression. Jul 28 '09 at 22:01
• @James, no it would not.. If || had higher precedence, then the expression would be equivilent to (true || true) && false => False, not true, because thafter evaluating {true || true) as true, what would be left is true && false, which would NOT create a short circuit Jul 28 '09 at 23:15
• @James, No, if || had higher precedence the clr would evaluate this as (true or true) && false. so first it would evaluate (true || true). Within this expression, yes, short-circuiting occurs because for an OR expresion, if the first part is true, there is no need to evaluate the second part. So this evaluates to true. Now we have true && false. For && operations, short circuiting only occurs if the first part is FALSE, which in this case it is not, so both parts have to be true for A && B to evaulate as true. So it evaluates both parts and comes up with false Jul 29 '09 at 4:58
• Could we just stop all this non-sense, which seems to repeat itself ad-nauseum?! Repeat with me : SHORT-CIRCUITING DOES NOT CHANGE RESULT. Short-circuiting only applies when the result is already known. SHORT-CIRCUITING ONLY AFFECTS SIDE-EFFECTS Jul 29 '09 at 5:42
• @comecme That isn't a result of short circuiting, but of changing the order of operation. The & operator has higher precedence than the | operator, so the first expression would behave like `true | (false & false)`. This would evaluate to true because `false & false = false`, then `false | true = true`. However, the | operator has a higher precedence than the && operator, so the second expression would behave like `(true | false) && false`. This would evaluate to false because `true | false = true`, then `true && false = false`. Mar 5 '13 at 0:04

If you really want to freak him out try:

``````bool result = True() | False() && False();

Console.WriteLine("-----");
Console.WriteLine(result);

static bool True()
{
Console.WriteLine(true);
return true;
}

static bool False()
{
Console.WriteLine(false);
return false;
}
``````

This will print:

``````True
False
False
-----
False
``````

### Edit:

In response to the comment:

In C#, `|` is a logical operator that performs the same boolean logic as `||`, but does not short-circuit. Also in C#, the `|` operator has a higher precedence than both `||` and `&&`.

By printing out the values, you can see that if I used the typical `||` operator, only the first `True` would be printed - followed by the result of the expression which would have been `True` also.

But because of the higher precedence of `|`, the `true | false` is evaluated first (resulting in `true`) and then that result is `&&`ed with `false` to yield `false`.

I wasn't trying to show the order of evaluation, just the fact that the right half of the `|` was evaluated period when it normally wouldn't be :)

• a. Why mixing boolean and bitwise operator? b. Why do you insist on printing it? What the order of evaluation has to do with it? Jul 28 '09 at 21:46
• Response to response: | is still binary. It is just that for bool it performs the desired operation - as it does in C++. To clarify it MS documents it as logical for bool's. But IMHO it just muddies water. Jul 28 '09 at 22:03
• This would be an amusing prank. :) Jul 28 '09 at 23:12
• So, if you change `||` to `|` and leave the `&&`, the result of the expression changes from true to false? So you'd normally either use `|` together with `&`, or use `||` together with `&&`. Jan 30 '13 at 21:44

Wouldn't this get you what you're after? Or maybe I'm missing something...

``````bool result = true || false && false;
``````
• This distinguishes between && having higher precedence and || having higher precedence, but does not distinguish between || having higher precedence and && and || having equal precedence. Remember that if operators are equal in precedence they are simply evaluated left-to-right. Jul 28 '09 at 21:12
• I should say though that this does work as a proof for C# in particular (or really any normal language), since the actual result you do get is unambiguous. It's just not a general method for working out the relative precedence in case you're up against an esoteric language that contradicts boolean algebra on purpose. Jul 28 '09 at 21:19

You don't prove it with code but with logic. AND is boolean multiplication whereas OR is boolean addition. Now which one has higher precedence?

• In some languages, neither one does (e.g. Smalltalk). Analogies can be deceiving. Jul 28 '09 at 21:28
• I don't know about the other downvoter, but I downvoted because this has nothing to do with the question. It happens to match... but anyone can design a language Foo# where this isn't true; how would your "proof with logic" work then? It might explain why this precedence was chosen, but it doesn't help establish that the compiler I have installed actually behaves that way. Dec 30 '11 at 2:00
• @romkyns: It has everything to do with the language. C and C++'s rules derive from the laws of algebra. That's why + has smaller precedence than *. You can argue all you want but you are both wrong and obnoxious. Your compiler behaves according to the language specification and the language specification has it basis in algebra, Q.E.D. Jan 2 '12 at 18:02
• QED? Do you know what it means to prove something? The language might be intended to follow the laws of algebra, but how do you prove that between that intention and the huge amount of engineering effort, nobody messed up and accidentally violated it or misread the spec when implementing the precedence rules? (unlikely, but not impossible) Jan 2 '12 at 18:27
• I think the point you are making is valid, it's just that it doesn't qualify as a "proof", where a proof is something much more rigorous than just explaining how and why the language designers decided to do things. "They based it on algebra, therefore it does necessarily work like algebra" is not a rigorous proof (and actually saying it that way is logically invalid). Feb 3 '13 at 2:34

false || true && true

Yields: true

false && true || true

Yields: true

• The first statement is going to return true no matter what order you do the operations in. The second will only return false if || is evaluated first. Since it does return true, either && is evaluated first, or they have the same precedence and are evaluated left-to-right. A third statement `true || true && false` (which also returns true) can only be true if && is evaluated first. Sep 20 '18 at 14:26

You cannot just show the end result when your boolean expressions are being short-circuited. Here's a snippet that settles your case.

It relies on implementing & and | operators used by && and ||, as stated in MSDN 7.11 Conditional logical operators

``````public static void Test()
{
B t = new B(true);
B f = new B(false);

B result = f || t && f;

Console.WriteLine("-----");
Console.WriteLine(result);
}

public class B {
bool val;
public B(bool val) { this.val = val; }
public static bool operator true(B b) { return b.val; }
public static bool operator false(B b) { return !b.val; }
public static B operator &(B lhs, B rhs) {
Console.WriteLine(lhs.ToString() + " & " + rhs.ToString());
return new B(lhs.val & rhs.val);
}
public static B operator |(B lhs, B rhs) {
Console.WriteLine(lhs.ToString() + " | " + rhs.ToString());
return new B(lhs.val | rhs.val);
}
public override string ToString() {
return val.ToString();
}
}
``````

The output should show that && is evaluated first before ||.

``````True & False
False | False
-----
False
``````

For extra fun, try it with result = t || t && f and see what happens with short-circuiting.

• Short-circuiting has nothing to do with expression result. Can we just get over it? Jul 29 '09 at 5:49