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You can get the address of a label defined in the current function
(or a containing function) with the unary operator ‘&&’. The
value has type void *
. This value is a constant and can be used
wherever a constant of that type is valid. For example:
void *ptr;
/* ... */
ptr = &&foo;
To use these values, you need to be able to jump to one. This is done
with the computed goto statement1, goto *
exp;
. For example,
goto *ptr;
Any expression of type void *
is allowed.
One way of using these constants is in initializing a static array that serves as a jump table:
static void *array[] = { &&foo, &&bar, &&hack };
Then you can select a label with indexing, like this:
goto *array[i];
Note that this does not check whether the subscript is in bounds—array indexing in C never does that.
Such an array of label values serves a purpose much like that of the
switch
statement. The switch
statement is cleaner, so
use that rather than an array unless the problem does not fit a
switch
statement very well.
Another use of label values is in an interpreter for threaded code. The labels within the interpreter function can be stored in the threaded code for super-fast dispatching.
You may not use this mechanism to jump to code in a different function. If you do that, totally unpredictable things happen. The best way to avoid this is to store the label address only in automatic variables and never pass it as an argument.
An alternate way to write the above example is
static const int array[] = { &&foo - &&foo, &&bar - &&foo, &&hack - &&foo }; goto *(&&foo + array[i]);
This is more friendly to code living in shared libraries, as it reduces the number of dynamic relocations that are needed, and by consequence, allows the data to be read-only. This alternative with label differences is not supported for the AVR target, please use the first approach for AVR programs.
The &&foo
expressions for the same label might have different
values if the containing function is inlined or cloned. If a program
relies on them being always the same,
__attribute__((__noinline__,__noclone__))
should be used to
prevent inlining and cloning. If &&foo
is used in a static
variable initializer, inlining and cloning is forbidden.
[1] The analogous feature in Fortran is called an assigned goto, but that name seems inappropriate in C, where one can do more than simply store label addresses in label variables.