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I'm wondering why in C# the following is fine:

int y = x++-+-++x;


int y = x+++-+++x;

Isn't? Why is there a bias against the +?

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Better question is why would you want to use this? –  Sayse Jul 11 '13 at 17:42
It depends on the compiler (.Net 4.5 on VS 2012 complains) –  Austin Salonen Jul 11 '13 at 17:42
We need specifics on what compiler you're using, what .NET you're targeting, etc –  tnw Jul 11 '13 at 17:44
Yes, why would you want to use this? –  sipp Jul 11 '13 at 17:49
This is a perfectly reasonable technical question with a specific answer that is not obvious. It should not be closed as off-topic. –  Eric Lippert Oct 1 '13 at 20:11

3 Answers 3

up vote 16 down vote accepted

The other two answers are correct; I will add to them that this illustrates some basic principles of lexical analysis:

  • The lexical analyzer is short-sighted -- it has minimal "look-ahead"
  • The lexical analyzer is greedy -- it tries to make the longest token it can right now.
  • The lexical analyzer does not backtrack trying to find alternate solutions when one fails.

These principles imply that +++x will be lexed as ++ + x and not + ++ x.

The parser will then parse ++ + x as ++(+x), and (+x) is not a variable, it is a value, so it cannot be incremented.

See also: http://blogs.msdn.com/b/ericlippert/archive/2010/10/11/10070831.aspx

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+1, although that would make it odd that Mono can compile the same code. Either the spec is a bit "open" on that side, or one of the compilers is not quite up to spec. –  Joachim Isaksson Jul 11 '13 at 18:04
@JoachimIsaksson: Mono has a small bug; I suspect that it is in the semantic analyzer, not the lexical analyzer. That is, it is not the case that Mono is lexing +++x as + ++ x. Rather, I suspect that it is lexing it correctly as ++ + x, then the semantic analyzer is treating +x as x, but forgetting that +x is a value, not a variable, and therefore not eligible as an operand of the increment. –  Eric Lippert Jul 11 '13 at 18:29
@JoachimIsaksson: Indeed. The Microsoft C# compiler had a number of these sorts of bugs in it in C# 2.0; I removed a lot of them in C# 3.0. A few we kept in because they were harmless and taking the breaking change would have been disruptive. –  Eric Lippert Jul 11 '13 at 20:33

I'm using VS 2012. This is kind of interesting.

The first one can be parsed into:

int y = (x++) - (+(-(++x)));

without changing the end result. So you can see why it would be valid.

The second one, however, has an issue with the +++x because (I'm guessing) it sees the two ++ and tries to apply that unary operator to the r-value, which is another + (and not a valid r-value). You can group it in various ways to make it work, though:

int y = (x++)+(-(+(++x)));

is valid.

I'm sure Jon Skeet or Eric Lippert or someone will show up and point out the relevant part of the C# spec. I'm not even sure where to start. But just following general left to right token parsing, you could see where it would choke on the second one.

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FYI the whole grammar is at the end of the spec in an appendix. –  Eric Lippert Jul 11 '13 at 17:53
Can't see anything but "one of" on the operator grammar, whether to prefer + or ++ at any stage seems vague. –  Joachim Isaksson Jul 11 '13 at 17:55
@JoachimIsaksson: Section 2.3 of the spec says "When several lexical grammar productions match a sequence of characters in a source file, the lexical processing always forms the longest possible lexical element." –  Eric Lippert Jul 11 '13 at 18:16

The compiler is looking for a variable or property after the second ++ in int y = x+++-+++x and can't determine that without a space or parentheses.

You can do something like:

int y = x+++-+(++x); 


int y = x++ + -+ ++x;

if you wanted.

The reason the first example you listed worked is because the compiler can determine that +- from the ++x; whereas in the second example it can't determine where to separate the +++ and naturally is expecting a variable after it reads the first ++; so in short, the compiler trying to use +x as a variable, which is invalid.

Both are probably valid using some other compiler. It depends on the semantics.

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