Often it is desirable to define a macro that expands into a compound statement. Consider, for example, the following macro, that advances a pointer (the argument `p' says where to find it) across whitespace characters:
#define SKIP_SPACES (p, limit) \
{ register char *lim = (limit); \
while (p != lim) { \
if (*p++ != ' ') { \
p--; break; }}}
Here Backslash-Newline is used to split the macro definition, which must be a single line, so that it resembles the way such C code would be laid out if not part of a macro definition.
A call to this macro might be `SKIP_SPACES (p, lim)'. Strictly speaking, the call expands to a compound statement, which is a complete statement with no need for a semicolon to end it. But it looks like a function call. So it minimizes confusion if you can use it like a function call, writing a semicolon afterward, as in `SKIP_SPACES (p, lim);'
But this can cause trouble before `else' statements, because the semicolon is actually a null statement. Suppose you write
if (*p != 0) SKIP_SPACES (p, lim); else ...
The presence of two statements--the compound statement and a null statement--in between the `if' condition and the `else' makes invalid C code.
The definition of the macro `SKIP_SPACES' can be altered to solve this problem, using a `do ... while' statement. Here is how:
#define SKIP_SPACES (p, limit) \
do { register char *lim = (limit); \
while (p != lim) { \
if (*p++ != ' ') { \
p--; break; }}} \
while (0)
Now `SKIP_SPACES (p, lim);' expands into
do {...} while (0);
which is one statement.