_gcvt
Converts a floating-point value to a string, which it stores in a buffer. A more secure version of this function is available; see _gcvt_s.
char *_gcvt(
double value,
int digits,
char *buffer
);
Parameters
value
Value to be converted.digits
Number of significant digits stored.buffer
Storage location for the result.
Return Value
_gcvt returns a pointer to the string of digits.
Remarks
The _gcvt function converts a floating-point value to a character string (which includes a decimal point and a possible sign byte) and stores the string in buffer. The buffer should be large enough to accommodate the converted value plus a terminating null character, which is appended automatically. If a buffer size of digits + 1 is used, the function overwrites the end of the buffer. This is because the converted string includes a decimal point and can contain sign and exponent information. There is no provision for overflow. _gcvt attempts to produce digits digits in decimal format. If it cannot, it produces digits digits in exponential format. Trailing zeros might be suppressed in the conversion.
A buffer of length _CVTBUFSIZE is sufficient for any floating point value.
This function validates its parameters. If buffer is NULL, the invalid parameter handler is invoked, as described in Parameter Validation. If execution is allowed to continue, this function sets errno to EINVAL and returns NULL.
Requirements
Routine |
Required header |
---|---|
_gcvt |
<stdlib.h> |
For more compatibility information, see Compatibility in the Introduction.
Example
// crt_gcvt.c
// compile with: /W3
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
int main( void )
{
char buffer[_CVTBUFSIZE];
double value = -1234567890.123;
printf( "The following numbers were converted by _gcvt(value,12,buffer):\n" );
_gcvt( value, 12, buffer ); // C4996
// Note: _gcvt is deprecated; consider using _gcvt_s instead
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
value *= 10;
_gcvt( value, 12, buffer ); // C4996
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
value *= 10;
_gcvt( value, 12, buffer ); // C4996
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
value *= 10;
_gcvt( value, 12, buffer ); // C4996
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
printf( "\n" );
value = -12.34567890123;
_gcvt( value, 12, buffer ); // C4996
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
value /= 10;
_gcvt( value, 12, buffer ); // C4996
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
value /= 10;
_gcvt( value, 12, buffer ); // C4996
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
value /= 10;
_gcvt( value, 12, buffer ); // C4996
printf( "buffer: '%s' (%d chars)\n", buffer, strlen(buffer) );
}
The following numbers were converted by _gcvt(value,12,buffer):
buffer: '-1234567890.12' (14 chars)
buffer: '-12345678901.2' (14 chars)
buffer: '-123456789012' (13 chars)
buffer: '-1.23456789012e+012' (19 chars)
buffer: '-12.3456789012' (14 chars)
buffer: '-1.23456789012' (14 chars)
buffer: '-0.123456789012' (15 chars)
buffer: '-1.23456789012e-002' (19 chars)