Here's a simple console application code, which returns a result I do not understand completely.

Try to think whether it outputs 0, 1 or 2 in console:

using System;

namespace ConsoleApplication
    class Program
        static void Main()
            int i = 0;
            i += Increment(ref i);


        static private int Increment(ref int i)
            return i++;

The answer is 0.

What I don't understand is why post increment i++, from the Increment method, which is executed on a ref (not on a copy of the passed variable) does increment the variable, but it just gets ignored later.

What I mean is in this video:

Can somebody explain this example and why during debug I see that value is incremented to 1, but then it goes back to 0?

  • When doing return i++, the value of i (which is 0) returned before it gets incremented. While the increment may happen, the value is discarded because it is returned already. Try doing return ++i; instead. – shahkalpesh Apr 21 '17 at 10:11
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    Although this is answer puzzle, it's a pretty dumb interview question, IMO. It should be tagged "language-lawyer", because this behaviour is contingent on a very niche language rule that you would hopefully never observe in action, because (hopefully) you'll never see code like this in practice – Alexander - Reinstate Monica Apr 21 '17 at 13:41
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    @Alexander agreed. If someone working for me wrote code like this, I'd sit down and have a "talk" with them – user2023861 Apr 21 '17 at 13:50
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    Somewhat related question that also gives some good info on what happens behind the scenes: stackoverflow.com/questions/33783989/… – Siyual Apr 21 '17 at 15:53
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    If I got this code in an interview, my first answer would be: "Can I write tests for this code (if they don't already exist) and then refactor it to be sane?" – svick Apr 21 '17 at 18:01

i += Increment(ref i); is equivalent to

i = i + Increment(ref i);

The expression on the right hand side of the assignment is evaluated from left to right, so the next step is

i = 0 + Increment(ref i);

return i++ returns the current value of i (which is 0), then increments i

i = 0 + 0;

Before the assignment the value of i is 1 (incremented in the Increment method), but the assignment makes it 0 again.

  • 3
    ... you were a little faster than me ;) – DarkSquirrel42 Apr 21 '17 at 10:17
  • Thank you, Jakub, for the details, it makes sense now why it was 1 and became 0 again. – Aremyst Apr 21 '17 at 10:19
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    Disclaimer: I have a C++ background, know little about C#. But I'm baffled at this. So apparently the C# definition forces the compiler, in a statement like i+=f();, to start making a local anonymous copy of the value of i, then call f which can (if it has access) fool around with the variable i all it wants, knowing that the value left in that variable will be forgotten anyway because it will be overwritten by the sum of the anonymous copy made earlier of i and the value returned by f. Very curious. Seems to go against the idea of making += simple and fast. – Marc van Leeuwen Apr 21 '17 at 12:18
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    No, off the top of my head I think it would be well defined. While the C++ standard does basically (and lazily) define var+=expr as equivalent to var=var+expr it does make 2 exceptions: the lvalue var is evaluated only once, and "with respect to an indeterminately-sequenced function call, the operation of a compound assignment is a single evaluation". That is not entirely clear, but it does seem to forbid implementing the operation using a fetch of var before, and a store of var after the function call. In case you care, see stackoverflow.com/q/24194076/1436796. – Marc van Leeuwen Apr 21 '17 at 13:00
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    @MarcvanLeeuwen It makes sense if evaluation order is defined as strictly being from left to right. Given var = var + expr, and left-to-right evaluation, var will always be checked before expr is evaluated, so any changes expr makes to var won't be reflected in it. I guess C# just defines stricter sequencing for it than C++, or something. – Justin Time 2 Reinstate Monica Apr 21 '17 at 13:58

i think the "magic" here is just operation precedence the order of operations

i += Increment(ref i)

is the same as

i = i + Increment(ref i)

the + operation is executed left to right

so first we take i ... wich is 0 at that time ...

then we add the result of Increment(ref i) ... which is also 0 ... 0+0=0 ... but wait ... before we get that result i is actually incremented ...

that increment takes place after the left operand of our + operation has ben evaluated ... so it does not change a thing ... 0+0 still is 0 ... thus i is assigned 0 after the + operation has been executed

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    nothing to do with precedence, everything to do with left-to-right evaluation. – Pete Kirkham Apr 21 '17 at 14:05
  • read carefully ... operator precedence != operATION precedence ... which results in left to right order ... – DarkSquirrel42 Apr 21 '17 at 14:06
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    I read carefully. You wrote badly. Use the correct term - order of operations, not precedence. Precedence determines how the AST is constructed from otherwise ambiguous input. Order of operations/evaluation determines how the AST is evaluated to a result. Using the phrase 'operation precedence' means neither. – Pete Kirkham Apr 21 '17 at 14:08
  • well... thanks for that lesson in english vocabulary... – DarkSquirrel42 Apr 21 '17 at 14:15

As you mentioned - postincrement "i++". statement - "return i++;" will set the value of 'i' in memory after original value is returned.

try using "return ++i;" and probably you will get it.

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    I don't think this is correct. The statement return i++; increments i, and then, after that, returns the previous value of i, which is 0. I'm getting that information from Eric Lippert's answer here: stackoverflow.com/questions/3346450/… – Tanner Swett Apr 21 '17 at 12:00

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