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Assignment expressions have values too -- their values are the value of
the assignment. For example, the value of the expression c = 5
is 5.
The fact that assignment statements have values can be used to make
C code more elegant. An assignment expression can itself be assigned
to a variable. For example, the expression c = 0
can be assigned
to the variable b
:
b = (c = 0);
or simply:
b = c = 0;
These equivalent statements set b
and c
to the value 0,
provided b
and c
are of the same type. They are
equivalent to the more usual:
b = 0; c = 0;
Note: Don't confuse this technique with a logical test for
equality. In the above example, both b
and c
are set to
0. Consider the following, superficially similar, test for equality,
however:
b = (c == 0);
In this case, b
will only be assigned a zero value (FALSE
)
if c
does not equal 0. If c
does equal 0, then b
will be assigned a non-zero value for TRUE
, probably 1.
(See Comparisons and logic, for more information.)
Any number of these assignments can be strung together:
a = (b = (c = (d = (e = 5))));
or simply:
a = b = c = d = e = 5;
This elegant syntax compresses five lines of code into a single line.
There are other uses for treating assignment expressions as values.
Thanks to C's flexible syntax, they can be used anywhere a value can be used.
Consider how an assignment expression might be used as a parameter to a function.
The following statement gets a character from standard input and
passes it to a function called process_character
.
process_character (input_char = getchar());
This is a perfectly valid statement in C, because the hidden assignment
statements passes the value it assigns on to process_character
.
The assignment is carried out first and then the
process_character
function is called, so this is merely a more
compact way of writing the following statements.
input_char = getchar(); process_character (input_char);
All the same remarks apply about the specialized assignment operators
+=
, *=
, /=
, and so on.
The following example makes use of a hidden assignment in a while
loop to print out all values from 0.2 to 20.0 in steps of 0.2.
#include <stdio.h> /* To shorten example, not using argp */ int main () { double my_dbl = 0; while ((my_dbl += 0.2) < 20.0) printf ("%lf ", my_dbl); printf ("\n"); return 0; }