The printf()
function in C++ is used to write a formatted string to the standard output (stdout
). It is defined in the cstdio header file.
Example
#include <cstdio>
int main() {
int age = 23;
// print a string literal
printf("My age is ");
// print an int variable
printf("%d", age);
return 0;
}
// Output: My age is 23
printf() Syntax
The syntax of printf()
is:
printf(const char* format, ...);
Here,
- format is the string that is to be written to the standard output
...
in the above code signifies you can pass more than one argument toprintf()
.
printf() Parameters
The printf()
function takes the following parameters:
- format - pointer to a null-terminated string (C-string) that is written to
stdout
. It consists of characters along with optional format specifiers starting with%
.
- ... - other additional arguments specifying the data to be printed. They occur in a sequence according to the format specifier.
printf() Return Value
The printf()
function returns:
- On Success - the number of characters written
- On failure - a negative value
printf() Prototype
The prototype of the printf()
function as defined in the cstdio header file is:
int printf(const char* format, ... );
Example 1: C++ printf()
#include <cstdio>
int main() {
int num = 5;
char my_name[] = "Lincoln";
// print string and int variable
printf("num = %d \n", num);
// print string and char array
printf("My name is %s", my_name);
return 0;
}
Output
num = 5 My name is Lincoln
In this program, we have used the printf()
function to print the integer num and the C-string my_name.
printf("num = %d \n", num);
printf("My name is %s", my_name);
Here,
%d
is replaced by the num variable in the output\n
is an escape sequence character that prints a new line%s
is replaced by the my_name C-string.
Format Specifier
The format parameter of printf()
can contain format specifiers that begin with %
. These specifiers are replaced by the values of respective variables that follow the format string.
A format specifier has the following parts:
- A leading
%
sign - flags - one or more flags that modifies the conversion behavior (optional)
-
: Left justify the result within the field. By default it is right justified.+
: The sign of the result is attached to the beginning of the value, even for positive results.- space: If there is no sign, a space is attached to the beginning of the result.
#
: An alternative form of the conversion is performed.0
: It is used for integer and floating point numbers. Leading zeros are used to pad the numbers instead of space.
- width - an optional
*
or integer value used to specify minimum width field. - precision - an optional field consisting of a
.
followed by*
or integer or nothing to specify the precision. - length - an optional length modifier that specifies the size of the argument.
- specifier - a conversion format specifier.
printf() Format Specifier Prototype
The general prototype of format specifier for printf()
is:
%[flags][width][.precision][length]specifier
Commonly Used Format Specifiers
The table below lists some commonly used format specifiers:
Format Specifier | Description |
---|---|
% |
a % followed by another % character prints % to the screen |
c |
writes a single character |
s |
writes a character string |
d or i |
converts a signed integer to decimal representation |
o |
converts an unsigned integer to octal representation |
X or x |
converts an unsigned integer to hexadecimal representation |
u |
converts an unsigned integer to decimal representation |
F or f |
converts floating-point number to the decimal representation |
E or e |
converts floating-point number to the decimal exponent notation |
A or a |
converts floating-point number to the hexadecimal exponent |
G or g |
converts floating-point number to either decimal or decimal exponent notation |
n |
- returns the number of characters written so far - the result is written to the value pointed to by the argument - the argument must be a pointer to signed int |
p |
writes an implementation-defined character sequence defining a pointer |
Example 2: C++ More examples on printf()
#include <cstdio>
int main() {
char ch = 'a';
float a = 5.0, b = 3.0;
int num = 10;
// set precision to 3 decimal places
printf("%.3f / %.3f = %.3f \n", a, b, a / b);
// set width to 5 digits with *
printf("Setting width %*c \n", 5, ch);
// get octal value of an integer
printf("Octal equivalent of %d is %o", num, num);
return 0;
}
Output
5.000 / 3.000 = 1.667 Setting width a Octal equivalent of 10 is 12
In this program, we have used the printf()
function three times.
1. In the 1st printf()
function:
%.3f
- sets the precision offloat
variables to 3 decimal places.- The first
%.3f
is replaced by the value of the 2nd parameter a. - The second
%.3f
is replaced by the value of the 3rd parameter b. - The last
%.3f
is replaced by the value of the 4th parametera / b
.
2. In the 2nd printf()
function:
%*c
- prints the char variable ch (3rd parameter) with an unspecified width.- The width is later specified as five digits by the 2nd argument
5
.
3. In the 3rd printf()
function:
%d
- prints the value of theint
variable num in decimal number system%o
- prints the value of theint
variable num in octal number system
Also, the escape character \n
prints a new line.
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