# Complex C declaration

I was just going through some code on internet and found this:

``````float * (*(*foo())[SIZE][SIZE])()
``````

How do I read this declaration? Is there a specific set of rules to read such complex declarations?

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spiral rule –  Luchian Grigore Feb 27 '13 at 11:58
cdecl.org –  juanchopanza Feb 27 '13 at 11:59
use cdecl.org –  999k Feb 27 '13 at 12:00
You find the programmer who wrote it and get him to tell you what it means. Then you tell your boss to fire him, and you insist that you will never, ever, work on code that he wrote. –  Pete Becker Feb 27 '13 at 14:11
Possibly Duplicate stackoverflow.com/questions/3706704/… –  Alex Feb 27 '13 at 14:25

Haven't done this in a while!

Start with `foo` and go right.

`float * (*(*``foo()``)[SIZE][SIZE])()`

foo is a function with no arguments...

Can't go right since there's a closing paren. Go left:

`float * (*(``* foo()``)[SIZE][SIZE])()`

foo is a function with no arguments returning a pointer

Can't go left further, so let's cross the parentheses and go right again

`float * (*``(* foo())``[SIZE][SIZE])()`
`float * (*``(* foo())[SIZE]``[SIZE])()`
`float * (*``(* foo())[SIZE][SIZE]``)()`

foo is a function with no arguments returning a pointer to an array of SIZE arrays of SIZE ...

closing parenthesis reached, left again to reach a pointer symbol:

`float * (``*(* foo())[SIZE][SIZE]``)()`

foo is a function with no arguments returning a pointer to an array of SIZE arrays of SIZE pointers to ...

Left parenthesis again, so we cross it and go right again

`float *``( *(* foo())[SIZE][SIZE])``()`
`float *``( *(* foo())[SIZE][SIZE])()`

foo is a function with no arguments returning a pointer to an array of SIZE arrays of SIZE pointers to a function with no arguments...

And left to the end

`float * ( *(* foo())[SIZE][SIZE])()`

foo is a function with no arguments returning a pointer to an array of SIZE arrays of SIZE pointers to a function with no arguments returning a pointer to float

And whoever wrote that, please teach him to use `typedef`:

``````// function that returns a pointer to float
typedef float* PFloatFunc ();

// array of pointers to PFloatFunc functions
typedef PFloatFunc* PFloatFuncArray2D[SIZE][SIZE];

// function that returns a pointer to a PFloatFuncArray2D
PFloatFuncArray2D* foo();
``````
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+1 for "And whoever wrote that, please teach him to use typedef" –  Dan Neely Feb 27 '13 at 14:31
Note that the 'no arguments' part is only correct for C++; for C, it means "unspecified argument list" (but it can't be a variadic function because those must have a full prototype in scope, even in C). –  Jonathan Leffler Mar 6 '13 at 1:08

Standard rule: find the leftmost identifier and work your way out, remembering that `[]` and `()` bind before `*`:

``````            foo                      -- foo
foo()                    -- is a function
*foo()                    -- returning a pointer
(*foo())[SIZE]             -- to a SIZE-element array
(*foo())[SIZE][SIZE]       -- of SIZE-element arrays
*(*foo())[SIZE][SIZE]       -- of pointers
(*(*foo())[SIZE][SIZE])()    -- to functions
* (*(*foo())[SIZE][SIZE])()    -- returning pointers
float * (*(*foo())[SIZE][SIZE])();   -- to float
``````

So imagine you have a bunch of functions returning pointers to `float`:

``````float *quux();
float *bar();
float *bletch();
float *blurga();
``````

Let's say you want to store them in a 2x2 table:

``````float *(*tab[SIZE][SIZE])() = {quux, bar, bletch, blurga};
``````

`tab` is a SIZE x SIZE array of pointers to functions returning pointers to `float`.

Now let's decide we want a function to return a pointer to that table:

``````float *(*(*foo())[SIZE][SIZE])()
{
static float *(*tab[SIZE][SIZE])() = {quux, bar, bletch, blurga};
return &tab;
}
``````

Note that you could have several functions that build tables of different functions, or organize the same functions differently:

``````float *(*(*qwerbl())[SIZE][SIZE])()
{
static float *(*tab[SIZE][SIZE])() = {blurga, bletch, bar, quux};
return tab;
}
``````

which is the only reason I can think of to do something like this. You shouldn't see types like this in the wild very often (although they do crop up occasionally, and I've been guilty of writing something similarly heinous).

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qwerbl? You almost ran out of generic variable names, didn't you :-) +1 for rationale. And I'm sure that "deeply related" types appear quite often, but usually involve structures or classes too, which makes the naming problem go away naturally - as it would here when introducing some typedefs. –  Kos Feb 27 '13 at 12:39
@Kos: yup. Haven't had my RDA of caffeine yet, couldn't come up with anything better. –  John Bode Feb 27 '13 at 14:11
Wikipedia has a list of metasyntactic variables so you don't run out: foo, bar, baz, qux, quux, corge, grault, garply, waldo, fred, plugh, xyzzy, thud. –  Waleed Khan Feb 27 '13 at 17:08
+1 BEST ANSWER, very simple & nice explained. –  Grijesh Chauhan Feb 27 '13 at 17:26
@WaleedKhan Dig through the references and you'll end up in The Jargon File. catb.org/jargon/html/M/metasyntactic-variable.html –  Kos Feb 28 '13 at 12:29

According to cdecl.org

declare foo as function returning pointer to array SIZE of array SIZE of pointer to function returning pointer to float

Use the spiral rule given by Luchian Grigore if you want to decode it by hand.

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The best thing to do here is convert to a series of typedefs.

``````typedef float * fnReturningPointerToFloat();
typedef fnReturningPointerToFloat* fnArray[SIZE][SIZE];
fnArray* foo();
``````
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It took me over a minute to do this. –  QuentinUK Feb 27 '13 at 12:24

Generally, you could try cdecl.org but you'd need to substitute for `SIZE`

Say you swap `SIZE` for 12, you'd get:

declare foo as function returning pointer to array 12 of array 12 of pointer to function returning pointer to float

I'm not sure that really helps you!

Two observations here:

1. I'm guessing that this code didn't have a comment beside it explaining what the purpose of it was (i.e. not the technical explanation of what it is but what it is achieving from a functional / business perspective) If a programmer needs to use something as complex as this, they should be good enough to explain to future maintainers what purpose it serves.
2. Certainly in C++ there are more obvious and probably safer ways of achieving the same thing.
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This is due to the "SIZE", you have to use literal instead (and replace it yourself by the constant after). –  Clement J. Feb 27 '13 at 12:02
replace SIZE with some number!! –  michael Feb 27 '13 at 12:04
Answer changed - thanks for your feedback. –  Component 10 Feb 27 '13 at 12:09

This document gaves me the best clue about how to easily ready any C declaration :

http://c-faq.com/decl/spiral.anderson.html

There are three simple steps to follow:

• Starting with the unknown element, move in a spiral/clockwise direction; when ecountering the following elements replace them with the corresponding english statements:

• `[X]` or `[]` => Array X size of ... or Array undefined size of ...

• `(type1, type2)` => function passing type1 and type2 returning ...

• `*` => pointer(s) to ...

• Keep doing this in a spiral/clockwise direction until all tokens have been covered.

• Always resolve anything in parenthesis first!

Example :

``````             +-------+
| +-+   |
| ^ |   |
char *str[10];
^   ^   |   |
|   +---+   |
+-----------+

Question we ask ourselves: What is str?

``str is an...

- We move in a spiral clockwise direction starting with `str' and the first character we see is a `[' so, that means we have an array, so...
``str is an array 10 of...

- Continue in a spiral clockwise direction, and the next thing we encounter is the `*' so, that means we have pointers, so...
``str is an array 10 of pointers to...

- Continue in a spiral direction and we see the end of the line (the `;'), so keep going and we get to the type `char', so...
``str is an array 10 of pointers to char''

We have now ``visited'' every token; therefore we are done!
``````
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declare foo as function returning pointer to array SIZE of array SIZE of pointer to function returning pointer to float

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