I wasn't able to find any definition of this phrase in the current standard. Is there any or else how should it be interpreted?
As besides what "declaration" means in English, it's also explicitly defined in the C language too - there is a whole section about it.
Consider this post written in English without any hidden C meanings (if any defined by the C standard).
Thought of the question this way - as a question to an entirely new language. Forget everything you know about "C" and then try answering my question only according the standard and the way it should be read (for which you could help me too).
Maybe it is rather defined somewhere in the Normative references cited in the standard ($2):
1 The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
2 ISO/IEC 2382−1:1993, Information technology — Vocabulary — Part 1: Fundamental terms.
3 ISO 4217, Codes for the representation of currencies and funds.
4 ISO 8601, Data elements and interchange formats — Information interchange — Representation of dates and times.
5 ISO/IEC 10646, Information technology — Universal Coded Character Set (UCS).
6 IEC 60559:1989, Binary floating-point arithmetic for microprocessor systems (previously designated IEC 559:1989).
7 ISO 80000−2, Quantities and units — Part 2: Mathematical signs and symbols to be used in the natural sciences and technology.
More specifically this question was intended to be a prequel to another one - about type-names. Currently their meaning is not specified. Only their syntax is said to be the same as a declaration with omitted identifier (although there is a distinct syntax section for them currently).
So as we figure out the meaning of "declaration of" eventually we would be able to understand how code like this is supposed to be read:
void func(struct { int _1, _2; } );
int main()
{
func((struct { int _1, _2; }){2, 3});
}
Because is this compound literal considered to be a declaration of a structure which does not include a tag? Where is this said?
As far as I've seen - nowhere.
On the other hand compound literals themselves contain type-name.
$6.5.2.5 (p3):
A postfix expression that consists of a parenthesized type name followed by a braceenclosed list of initializers is a compound literal. It provides an unnamed object whose value is given by the initializer list.
If we apply the common sense that type-names are declaration without identifiers and that "declaration of x" means a declaration which introduces an identifier with certain type x then everything is ok. But are type-names really declarations?
Yes type names syntactically are declarations without identifiers but this is about their syntax and nothing else. They are still distinct entity - type names (and not declarations). Quoting 6.7.7 (p2):
In several contexts, it is necessary to specify a type. This is accomplished using a type name, which is syntactically a declaration for a function or an object of that type that omits the identifier.
With all that said are the two types - the function parameter and the type-name in the compound literal the same?
Remember that (from standard) $6.7.2.3(p5):
Two declarations of structure, union, or enumerated types which are in different scopes or use different tags declare distinct types. Each declaration of a structure, union, or enumerated type which does not include a tag declares a distinct type.
That's what I was going to ask but then I saw that "declaration of" is not explicitly assigned meaning anywhere in the paper and I wondered what exactly does it mean.
I'm starting to see this ANSI standard as a whole utter mess which nobody cares to explain in detail.
C "declaration of"
.