## table of contents

avr_stdlib(3avr) | avr-libc | avr_stdlib(3avr) |

# NAME¶

avr_stdlib - <stdlib.h>: General utilities

# SYNOPSIS¶

## Non-standard (i.e. non-ISO C) functions.¶

char * **ltoa** (long val, char *s, int radix)

char * **utoa** (unsigned int val, char *s, int radix)

char * **ultoa** (unsigned long val, char *s, int radix)

long **random** (void)

void **srandom** (unsigned long __seed)

long **random_r** (unsigned long *__ctx)

char * **itoa** (int val, char *s, int radix)

#define **RANDOM_MAX** 0x7FFFFFFF

## Conversion functions for double arguments.¶

Note that these functions are not located in the default library,
libc.a**, but in the mathematical library, libm.a**. So when linking the
application, the -lm** option needs to be specified.**

char * **dtostre** (double __val, char *__s, unsigned char __prec, unsigned
char __flags)

char * **dtostrf** (double __val, signed char __width, unsigned char
__prec, char *__s)

#define **DTOSTR_ALWAYS_SIGN** 0x01 /* put '+' or ' ' for positives */

#define **DTOSTR_PLUS_SIGN** 0x02 /* put '+' rather than ' ' */

#define **DTOSTR_UPPERCASE** 0x04 /* put 'E' rather 'e' */

#define **EXIT_SUCCESS** 0

#define **EXIT_FAILURE** 1

# Detailed Description¶

#include <stdlib.h>

This file declares some basic C macros and functions as defined by the ISO standard, plus some AVR-specific extensions.

# Macro Definition Documentation¶

## #define DTOSTR_ALWAYS_SIGN 0x01 /* put '+' or ' ' for positives */¶

Bit value that can be passed in flags** to
****dtostre()****.**

## #define DTOSTR_PLUS_SIGN 0x02 /* put '+' rather than ' ' */¶

Bit value that can be passed in flags** to
****dtostre()****.**

## #define DTOSTR_UPPERCASE 0x04 /* put 'E' rather 'e' */¶

Bit value that can be passed in flags** to
****dtostre()****.**

## #define EXIT_FAILURE 1¶

Unsuccessful termination for **exit()**; evaluates to a
non-zero value.

## #define EXIT_SUCCESS 0¶

Successful termination for **exit()**; evaluates to 0.

## #define RANDOM_MAX 0x7FFFFFFF¶

Highest number that can be generated by **random()**.

# Function Documentation¶

## char * dtostre (double __val, char * __s, unsigned char __prec, unsigned char __flags) [extern]¶

The **dtostre()** function converts the double value passed in
val** into an ASCII representation that will be stored under s**. The
caller is responsible for providing sufficient storage in s**.**

Conversion is done in the format '[-]d.ddde±dd'** where
there is one digit before the decimal-point character and the number of
digits after it is equal to the precision prec**; if the precision is
zero, no decimal-point character appears. If flags** has the
DTOSTR_UPPERCASE bit set, the letter 'E'** (rather than 'e'** ) will be
used to introduce the exponent. The exponent always contains two digits; if
the value is zero, the exponent is '00'**.

If flags** has the DTOSTR_ALWAYS_SIGN bit set, a space character
will be placed into the leading position for positive numbers.**

If flags** has the DTOSTR_PLUS_SIGN bit set, a plus sign will be
used instead of a space character in this case.**

The **dtostre()** function returns the pointer to the converted
string s**.**

## char * dtostrf (double __val, signed char __width, unsigned char __prec, char * __s) [extern]¶

The **dtostrf()** function converts the double value passed in
val** into an ASCII representationthat will be stored under s**. The
caller is responsible for providing sufficient storage in s**.**

Conversion is done in the format '[-]d.ddd'**. The minimum field
width of the output string (including the possible '**.' and the possible
sign for negative values) is given in width**, and prec** determines the
number of digits after the decimal sign. width** is signed value, negative
for left adjustment.**

The **dtostrf()** function returns the pointer to the converted
string s**.**

## char * itoa (int val, char * s, int radix) [extern]¶

Convert an integer to a string. The function **itoa()**
converts the integer value from val** into an ASCII representation that
will be stored under s**. The caller is responsible for providing
sufficient storage in s**.**

**Note**

**depends on the choice of radix. For example, if the radix is 2 (binary), you need to supply a buffer with a minimal length of 8 * sizeof (int) + 1 characters, i.e. one character for each bit plus one for the string terminator. Using a larger radix will require a smaller minimal buffer size.**

**Warning**

Conversion is done using the radix** as base, which may be a
number between 2 (binary conversion) and up to 36. If radix** is greater
than 10, the next digit after '9'** will be the letter 'a'**.

If radix is 10 and val is negative, a minus sign will be prepended.

The **itoa()** function returns the pointer passed as
s**.**

## char * ltoa (long val, char * s, int radix) [extern]¶

Convert a long integer to a string. The function **ltoa()**
converts the long integer value from val** into an ASCII representation
that will be stored under s**. The caller is responsible for providing
sufficient storage in s**.**

**Note**

**depends on the choice of radix. For example, if the radix is 2 (binary), you need to supply a buffer with a minimal length of 8 * sizeof (long int) + 1 characters, i.e. one character for each bit plus one for the string terminator. Using a larger radix will require a smaller minimal buffer size.**

**Warning**

Conversion is done using the radix** as base, which may be a
number between 2 (binary conversion) and up to 36. If radix** is greater
than 10, the next digit after '9'** will be the letter 'a'**.

If radix is 10 and val is negative, a minus sign will be prepended.

The **ltoa()** function returns the pointer passed as
s**.**

## long random (void) [extern]¶

The **random()** function computes a sequence of pseudo-random
integers in the range of 0 to RANDOM_MAX** (as defined by the header file
<****stdlib.h****>).**

The **srandom()** function sets its argument seed** as the
seed for a new sequence of pseudo-random numbers to be returned by
****rand()****. These sequences are repeatable by calling
****srandom()**** with the same seed value.**

If no seed value is provided, the functions are automatically seeded with a value of 1.

## long random_r (unsigned long * __ctx) [extern]¶

Variant of **random()** that stores the context in the
user-supplied variable located at ctx** instead of a static library
variable so the function becomes re-entrant.**

## void srandom (unsigned long __seed) [extern]¶

Pseudo-random number generator seeding; see **random()**.

## char * ultoa (unsigned long val, char * s, int radix) [extern]¶

Convert an unsigned long integer to a string. The function
**ultoa()** converts the unsigned long integer value from val** into an
ASCII representation that will be stored under s**. The caller is
responsible for providing sufficient storage in s**.**

**Note**

**depends on the choice of radix. For example, if the radix is 2 (binary), you need to supply a buffer with a minimal length of 8 * sizeof (unsigned long int) + 1 characters, i.e. one character for each bit plus one for the string terminator. Using a larger radix will require a smaller minimal buffer size.**

**Warning**

Conversion is done using the radix** as base, which may be a
number between 2 (binary conversion) and up to 36. If radix** is greater
than 10, the next digit after '9'** will be the letter 'a'**.

The **ultoa()** function returns the pointer passed as
s**.**

## char * utoa (unsigned int val, char * s, int radix) [extern]¶

Convert an unsigned integer to a string. The function
**utoa()** converts the unsigned integer value from val** into an ASCII
representation that will be stored under s**. The caller is responsible
for providing sufficient storage in s**.**

**Note**

**depends on the choice of radix. For example, if the radix is 2 (binary), you need to supply a buffer with a minimal length of 8 * sizeof (unsigned int) + 1 characters, i.e. one character for each bit plus one for the string terminator. Using a larger radix will require a smaller minimal buffer size.**

**Warning**

** as base, which may be a
number between 2 (binary conversion) and up to 36. If radix** is greater
than 10, the next digit after '9'** will be the letter 'a'**.

The **utoa()** function returns the pointer passed as
s**.**

# Author¶

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Fri Nov 24 2023 23:59:10 | Version 2.0.0 |