# Why is n+++n valid while n++++n is not?

In Java, the expression:

``````n+++n
``````

Appears to evaluate as equivalent to:

``````n++ + n
``````

Despite the fact that `+n` is a valid unary operator with higher precedence than the arithmetic `+` operator in `n + n`. So the compiler appears to be assuming that the operator cannot be the unary operator and resolving the expression.

However, the expression:

``````n++++n
``````

Does not compile, even though there is a single valid possibility for it to be resolved as:

``````n++ + +n
``````

`++n` and `+n` are specified as having the same precedence, so why does the compiler resolve the seeming ambiguity in `n+++n` in favour of the arithmetic `+` but does not do so with `n++++n`?

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You should include the compiler error in question. –  hyde Sep 5 '13 at 19:02
It's probably compiler-dependent, because I'm using Eclipse here and I just tested the `n+++n` statement here, and Eclipse tells me it's invalid. –  Mauren Sep 5 '13 at 19:02
by your logic, `++n` should be interpreted as `+(+n)`, which would make `++n` impossible –  mvp Sep 5 '13 at 19:03
@Mauren interesting, when I test it in eclipse it compiles and give me a result of 3 when `n` is set to 1 initially. –  increment1 Sep 5 '13 at 19:03
@Mauren `n+++n;` isn't valid as a standalone statement. The question is about the expression `n+++n`. Try `x = n+++n;`. –  John Kugelman Sep 5 '13 at 19:07

The file is tokenized (transformed into sequence of tokens) first with the maximal munch rule - always get longest possible valid token. Your text is transformed to following sequence:

``````n ++ ++ n
``````

And this is not valid expression.

From JLS §3.2:

## 3.2. Lexical Translations

A raw Unicode character stream is translated into a sequence of tokens, using the following three lexical translation steps, which are applied in turn:

1. A translation of Unicode escapes (§3.3) in the raw stream of Unicode characters to the corresponding Unicode character. A Unicode escape of the form \uxxxx, where xxxx is a hexadecimal value, represents the UTF-16 code unit whose encoding is xxxx. This translation step allows any program to be expressed using only ASCII characters.

2. A translation of the Unicode stream resulting from step 1 into a stream of input characters and line terminators (§3.4).

3. A translation of the stream of input characters and line terminators resulting from step 2 into a sequence of input elements (§3.5) which, after white space (§3.6) and comments (§3.7) are discarded, comprise the tokens (§3.5) that are the terminal symbols of the syntactic grammar (§2.3).

The longest possible translation is used at each step, even if the result does not ultimately make a correct program while another lexical translation would.

(Thus, the input characters `a--b` are tokenized (§3.5) as `a, --, b`, which is not part of any grammatically correct program, even though the tokenization `a, -, -, b` could be part of a grammatically correct program.)

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Where is this "rule" documented? Can we count on this behavior? –  dcaswell Sep 5 '13 at 19:11
@user814064 - yes, I added text and example from Java 7 spec. Maximal munch is common in language definitions. –  zch Sep 5 '13 at 19:18
Thanks! Above people were implying this was compiler-dependent behavior. –  dcaswell Sep 5 '13 at 19:21
Is tokenization done right to left for operators? After further testing `n+++n` actually evaluates as `n + ++n`, which indicates a right to left tokenization, although one would assume that tokenization was left to right. I cannot find any clarity on this in the JLS. –  increment1 Sep 5 '13 at 20:30
@increment1 - it goes left to right, but note that `n++ +n` and `n+ ++n` are equivalent. Both are like: `a = n; n++; b = n; return a + b;` –  zch Sep 5 '13 at 20:40