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May 26, 2014 07:48
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The "right-left" rule is a completely regular rule for deciphering C declarations. It can also be useful in creating them.
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/*The "right-left" rule is a completely regular rule for deciphering C | |
declarations. It can also be useful in creating them. | |
First, symbols. Read | |
* as "pointer to" - always on the left side | |
[] as "array of" - always on the right side | |
() as "function returning" - always on the right side | |
as you encounter them in the declaration. | |
STEP 1 | |
------ | |
Find the identifier. This is your starting point. Then say to yourself, | |
"identifier is." You've started your declaration. | |
STEP 2 | |
------ | |
Look at the symbols on the right of the identifier. If, say, you find "()" | |
there, then you know that this is the declaration for a function. So you | |
would then have "identifier is function returning". Or if you found a | |
"[]" there, you would say "identifier is array of". Continue right until | |
you run out of symbols *OR* hit a *right* parenthesis ")". (If you hit a | |
left parenthesis, that's the beginning of a () symbol, even if there | |
is stuff in between the parentheses. More on that below.) | |
STEP 3 | |
------ | |
Look at the symbols to the left of the identifier. If it is not one of our | |
symbols above (say, something like "int"), just say it. Otherwise, translate | |
it into English using that table above. Keep going left until you run out of | |
symbols *OR* hit a *left* parenthesis "(". */ | |
/*Now repeat steps 2 and 3 until you've formed your declaration. Here are some | |
examples: | |
*/ | |
int *p[]; | |
/*1) Find identifier. int *p[]; ^ | |
"p is" | |
2) Move right until out of symbols or right parenthesis hit. | |
int *p[]; ^^ | |
"p is array of" | |
3) Can't move right anymore (out of symbols), so move left and find: | |
int *p[]; ^ | |
"p is array of pointer to" | |
4) Keep going left and find: | |
int *p[]; | |
^^^ | |
"p is array of pointer to int". | |
(or "p is an array where each element is of type pointer to int")*/ | |
//Another example: | |
int *(*func())(); | |
/*1) Find the identifier. int *(*func())(); ^^^^ | |
"func is" | |
2) Move right. int *(*func())(); ^^ | |
"func is function returning" | |
3) Can't move right anymore because of the right parenthesis, so move left. | |
int *(*func())(); ^ | |
"func is function returning pointer to" | |
4) Can't move left anymore because of the left parenthesis, so keep going | |
right. int *(*func())(); ^^ | |
"func is function returning pointer to function returning" | |
5) Can't move right anymore because we're out of symbols, so go left. | |
int *(*func())(); ^ | |
"func is function returning pointer to function returning pointer to" | |
6) And finally, keep going left, because there's nothing left on the right. | |
int *(*func())(); | |
^^^ | |
"func is function returning pointer to function returning pointer to int".*/ | |
/*As you can see, this rule can be quite useful. You can also use it to | |
sanity check yourself while you are creating declarations, and to give | |
you a hint about where to put the next symbol and whether parentheses | |
are required. | |
Some declarations look much more complicated than they are due to array | |
sizes and argument lists in prototype form. If you see "[3]", that's | |
read as "array (size 3) of...". If you see "(char *,int)" that's read | |
as "function expecting (char *,int) and returning...". Here's a fun | |
one:*/ | |
int (*(*fun_one)(char *,double))[9][20]; | |
/*I won't go through each of the steps to decipher this one. | |
Ok. It's: | |
"fun_one is pointer to function expecting (char *,double) and | |
returning pointer to array (size 9) of array (size 20) of int." | |
As you can see, it's not as complicated if you get rid of the array sizes | |
and argument lists: | |
int (*(*fun_one)())[][]; | |
You can decipher it that way, and then put in the array sizes and argument | |
lists later. | |
Some final words: | |
It is quite possible to make illegal declarations using this rule, | |
so some knowledge of what's legal in C is necessary. For instance, | |
if the above had been:*/ | |
int *((*fun_one)())[][]; | |
/*it would have been "fun_one is pointer to function returning array of array of ^^^^^^^^^^^^^^^^^^^^^^^^ | |
pointer to int". Since a function cannot return an array, but only a | |
pointer to an array, that declaration is illegal. | |
Illegal combinations include: | |
[]() - cannot have an array of functions | |
()() - cannot have a function that returns a function | |
()[] - cannot have a function that returns an array | |
In all the above cases, you would need a set of parens to bind a * | |
symbol on the left between these () and [] right-side symbols in order | |
for the declaration to be legal. | |
Here are some legal and illegal examples:*/ | |
int i; // an int | |
int *p; // an int pointer (ptr to an int) | |
int a[]; // an array of ints | |
int f(); // a function returning an int | |
int **pp; // a pointer to an int pointer (ptr to a ptr to an int) | |
int (*pa)[]; // a pointer to an array of ints | |
int (*pf)(); // a pointer to a function returning an int | |
int *ap[]; // an array of int pointers (array of ptrs to ints) | |
int aa[][]; // an array of arrays of ints | |
int af[](); // an array of functions returning an int (ILLEGAL) | |
int *fp(); // a function returning an int pointer | |
int fa()[]; // a function returning an array of ints (ILLEGAL) | |
int ff()(); // a function returning a function returning an int (ILLEGAL) | |
int ***ppp; // a pointer to a pointer to an int pointer | |
int (**ppa)[]; // a pointer to a pointer to an array of ints | |
int (**ppf)(); // a pointer to a pointer to a function returning an int | |
int *(*pap)[]; // a pointer to an array of int pointers | |
int (*paa)[][]; // a pointer to an array of arrays of ints | |
int (*paf)[](); // a pointer to a an array of functions returning an int (ILLEGAL) | |
int *(*pfp)(); // a pointer to a function returning an int pointer | |
int (*pfa)()[]; // a pointer to a function returning an array of ints (ILLEGAL) | |
int (*pff)()(); // a pointer to a function returning a function returning an int (ILLEGAL) | |
int **app[]; // an array of pointers to int pointers | |
int (*apa[])[]; // an array of pointers to arrays of ints | |
int (*apf[])(); // an array of pointers to functions returning an int | |
int *aap[][]; // an array of arrays of int pointers | |
int aaa[][][]; // an array of arrays of arrays of ints | |
int aaf[][](); // an array of arrays of functions returning an int (ILLEGAL) | |
int *afp[](); // an array of functions returning int pointers (ILLEGAL) | |
int afa[]()[]; // an array of functions returning an array of ints (ILLEGAL) | |
int aff[]()(); // an array of functions returning functions returning an int (ILLEGAL) | |
int **fpp(); // a function returning a pointer to an int pointer | |
int (*fpa())[]; // a function returning a pointer to an array of ints | |
int (*fpf())(); // a function returning a pointer to a function returning an int | |
int *fap()[]; // a function returning an array of int pointers (ILLEGAL) | |
int faa()[][]; // a function returning an array of arrays of ints (ILLEGAL) | |
int faf()[](); // a function returning an array of functions returning an int (ILLEGAL) | |
int *ffp()(); // a function returning a function returning an int pointer (ILLEGAL) |
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