The (double*)
is a cast; whenever you see an expression of the form (
type-name)
expression, it means "interpret the result of expression as a value of type type-name". In this case, it's saying "interpret the result of malloc
as a pointer to double
".
Normally, pointer values of one type (such as char *
) cannot be directly assigned to pointer variables of a different type (such as double *
), so you have to use the cast expression to explicitly convert the source value to the target type. Before the 1989 standard, malloc
, calloc
, and realloc
all returned char *
values, so you had to use a cast to assign the result to a different pointer type.
The void *
type was introduced in the 1989 standard as a generic pointer type that can be assigned to different pointer types without the need for a cast, and the *alloc
functions were changed to return values of that type. Explicitly casting the result of malloc
is now considered bad practice.
The structure of the type in a cast expression closely matches the structure of the type in a declaration, just without the name of the thing being declared. This is probably best explained with some examples.
int *p
declares p
as a pointer to an int
; to cast the result of an expression to a pointer to int
, you write (int *)
. It's the same as the declaration, minus the identifier p
.
Here are a few more examples:
Declaration Cast Type
----------- ---- ----
int (*ap)[10] (int (*)[10]) Pointer to 10-element array of int
int (*f)(void) (int (*)(void)) Pointer to function returning int
char **p (char **) Pointer to pointer to char
So again, the structure of a cast expression is the same as the structure of a declaration, minus the name of the thing being declared.