When using the sizeof I always enclose it in parentheses, as it's a bit easier for me to read, even if I can sometimes omit it, in the first case below

sizeof unary-expression
sizeof ( type-name )

My question is how does the parentheses disambiguate things to the compiler? What would be an example where something like:

sizeof char

Would be ambiguous to a compiler?

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    It is invalid, since char is not a unary expression. [BTW: I allways omit the parentheses if they are not needed, such as struct stuff *p = malloc(sizeof *p); ] Commented Feb 10, 2021 at 19:13
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    @wildplasser That's obvious enough, but the question is why was this syntax chosen. Commented Feb 10, 2021 at 19:15
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    Perhaps it is because a type can be more than one word but a variable identifier cannot. Commented Feb 10, 2021 at 19:16
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    Because back in the wild west days, there could be a macro inolved. sizeof(X) would invoke the macro rather than the built-in operator. And I can't find my original version of the K&R book, but I seem to recall their examples may have done it that way.
    – jwdonahue
    Commented Feb 10, 2021 at 19:22
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    @jwdonahue All three of your editions? There have only been two. Commented Feb 10, 2021 at 19:41

2 Answers 2


If sizeof type-name were allowed, then sizeof char * + 3 could be either:

  • (sizeof (char *)) + 3, which is the size of a char * added to 3 or
  • (sizeof (char)) * (+ 3), which is the size of a char multiplied by + 3.

Both of those would be valid parsings and fully defined by the standard (aside from the implementation-defined size of the pointer). So accepting sizeof type-name creates an ambiguity not resolved by the grammar or semantics.

Earlier Example

If sizeof type-name were allowed, then sizeof char [x] could be either (sizeof (char)) [x] (which is a valid expression if x is a pointer or array; the subscript operator accepts index[array]) or sizeof (char [x]) (which is a valid expression if x is an integer; it is the size of an array of x elements of char). Further, the grammar would provide no way to distinguish these; both would be valid parsings. Semantic rules could distinguish them based on the type of x, but then you have to parse before you can evaluate the semantic rules and would need some way for the compiler to undo the parsing.

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    Yep, the unary operators at the 2nd precedence level were the fly in the ointment I wasn't seeing. Thank you! Commented Feb 10, 2021 at 20:00

Accepting a typename after sizeof would not allow all types to be specified in an expression: pointer types (eg: sizeof char * 10) would create an ambiguity complicating the parse, which currently is quite simple.

  • char * 10 is not a valid type in C. (char*)10 is a valid cast-expression, and thus also a unary-expression. Commented Feb 10, 2021 at 19:28
  • char * 10 is not valid C. I don't understand why one would bring it up. (char*)10 is valid, char* 10 is not, and this has nothing to do with sizeof. Commented Feb 10, 2021 at 19:30
  • There's still the sizeof const char* vs sizeof( (const char*) ) conundrum, yes?
    – jwdonahue
    Commented Feb 10, 2021 at 19:30
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    How about sizeof char * + 10? :-) Commented Feb 10, 2021 at 19:30
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    In terms of grammar I see now it's ambiguous, in terms of practical parsers I bet most are greedy and would gladly be building the type-name as long as they can. SDCC seems to behave that way, I'll have to check for similarly simple tweaks to gcc and other open source parsers and see how they'd behave if all that got changed was "let's drop the parentheses". I bet the original C's parser as-implemented would have been greedy on the type name as well. Of course a parser generator would catch the ambiguity, hand-written ones often quietly resolve those. All in all, it's an arbitrary choice. Commented Feb 10, 2021 at 20:08

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