The second innovation that most clearly distinguishes C from its
predecessors is this fuller type structure and especially its
expression in the syntax of declarations... given an object of any
type, it should be possible to describe a new object that gathers
several into an array, yields it from a function, or is a pointer to
it.... [This] led to a
declaration syntax for names mirroring that of the expression syntax
in which the names typically appear. Thus,
int i, *pi, **ppi; declare an integer, a pointer to an integer, a
pointer to a pointer to an integer. The syntax of these declarations
reflects the observation that
i, *pi, and **ppi all yield an
when used in an expression.
int f(), *f(), (*f)(); declare
a function returning an integer, a function returning a pointer to an
integer, a pointer to a function returning an integer.
(*pai); declare an array of pointers to integers, and a pointer to
an array of integers.
In all these cases the declaration of a
variable resembles its usage in an expression whose type is the one
named at the head of the declaration.
An accident of syntax contributed to the perceived complexity of the
language. The indirection operator, spelled * in C, is syntactically a
unary prefix operator, just as in BCPL and B. This works well in
simple expressions, but in more complex cases, parentheses are
required to direct the parsing. For example, to distinguish
indirection through the value returned by a function from calling a
function designated by a pointer, one writes
*fp() and (*pf)()
respectively. The style used in expressions carries through to
declarations, so the names might be declared
int *fp(); int (*pf)();
In more ornate but still realistic cases,
things become worse:
int *(*pfp)(); is a pointer to a function
returning a pointer to an integer.
There are two effects occurring.
Most important, C has a relatively rich set of ways of describing
types (compared, say, with Pascal). Declarations in languages as
expressive as C—Algol 68, for example—describe objects equally hard to
understand, simply because the objects themselves are complex. A
second effect owes to details of the syntax. Declarations in C must be
read in an `inside-out' style that many find difficult to grasp.
Sethi [Sethi 81] observed that many of the nested
declarations and expressions would become simpler if the indirection
operator had been taken as a postfix operator instead of prefix, but
by then it was too late to change.