notcurses/doc/man/man3/notcurses_metric.3.md

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% notcurses_metric(3)
% nick black <nickblack@linux.com>
2020-08-25 22:24:19 +00:00
% v1.6.18
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# NAME
notcurses_metric - fixed-width numeric output with metric suffixes
# SYNOPSIS
**#include <notcurses/notcurses.h>**
```c
#define PREFIXCOLUMNS 7
#define IPREFIXCOLUMNS 8
#define BPREFIXCOLUMNS 9
#define PREFIXSTRLEN (PREFIXCOLUMNS + 1)
#define IPREFIXSTRLEN (IPREFIXCOLUMNS + 1)
#define BPREFIXSTRLEN (BPREFIXCOLUMNS + 1)
#define NCMETRICFWIDTH(x, cols) ((int)(strlen(x) - mbswidth(x) + (cols)))
#define PREFIXFMT(x) NCMETRICFWIDTH((x), PREFIXCOLUMNS), (x)
#define IPREFIXFMT(x) NCMETRIXFWIDTH((x), IPREFIXCOLUMNS), (x)
#define BPREFIXFMT(x) NCMETRICFWIDTH((x), BPREFIXCOLUMNS), (x)
```
**const char* ncmetric(uintmax_t val, uintmax_t decimal, char* buf, int omitdec, unsigned mult, int uprefix);**
```c
// Mega, kilo, gigafoo. Use PREFIXSTRLEN + 1.
static inline const char*
qprefix(uintmax_t val, uintmax_t decimal, char* buf, int omitdec){
return ncmetric(val, decimal, buf, omitdec, 1000, '\0');
}
// Mibi, kebi, gibibytes. Use BPREFIXSTRLEN + 1.
static inline const char*
bprefix(uintmax_t val, uintmax_t decimal, char* buf, int omitdec){
return ncmetric(val, decimal, buf, omitdec, 1024, 'i');
}
```
# DESCRIPTION
**ncmetric** (and the helper wrappers **qprefix** and **bprefix**) accept
very large (or very small) non-negative numbers, and prepare formatted output
of a maximum width using metric suffixes. The suffix can represent arbitrary
amounts of growth, but is designed for 1000 (**PREFIX**) or 1024
(**IPREFIX**). 1024 is used for "digital units of information", i.e. kibibytes
and gibibits. **ncmetric** supports the large suffixes KMGTPEZY (Kilo, Mega,
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Giga, Tera, Peta, Exa, Zetta, and Yotta) and the small suffixes mµnpfazy
(Milli, Micro, Nano, Pico, Femto, Atto, Zepto, and Yocto). This covers the
range 10^-24 through 10^24. As **uintmax_t** is typically only 64 bits, this
covers the entirety of its range.
**val** is the value being output, having been scaled by **decimal**.
**decimal** will typically be 1; to represent values less than 1, **decimal**
should be larger than **val**. The output will be written to **buf**, which
must be at least:
* **PREFIXSTRLEN** + 1 bytes for a 1000-based value
* **IPREFIXSTRLEN** + 1 bytes for a 1024-based value
* **BPREFIXSTRLEN** + 1 bytes for a 1024-based value with an 'i' suffix
If **omitdec** is not zero, the decimal point and mantissa will be
omitted if all digits to be displayed would be zero. The decimal point takes
the current locale into account (see **setlocale(3)** and **localeconv(3)**).
**mult** is the relative multiple for each suffix. **uprefix**, if not zero,
will be used as a suffix following any metric suffix.
In general, the maximum-width output will take the form:
CCC.mmMu
Where C are digits of the characteristic (up to ceil(log10(**mult**)) digits),
the decimal point follows, m are digits of the mantissa (up to 2), M is the
metric suffix, and u is the **uprefix**. The minimum-width output will take
the form:
C
This can occur if **omitdec** is non-zero and a value such as 5 is passed
for **val**.
# RETURN VALUES
**NULL** if input parameters were invalid. Otherwise, a pointer to **buf**,
filled in with the formatted output.
# SEE ALSO
**localeconv(3)**,
**notcurses(3)**,
**notcurses_plane(3)**,
**setlocale(3)**