NAME
units - conversion program
SYNOPSIS
% units
You have: in
You want: cm
* 2.54
/ 0.393701
% units [-f /path/to/unittab] [want_unit have_unit]
OPTIONS
-f Use specified definition file
--version Display version information
DESCRIPTION
NOTE: This does not handle the Gnu units format (https://www.gnu.org/software/units/).
The units program converts quantities expressed in various scales to their equivalents in other scales. The units program can only handle multiplicative or affine scale changes (except for temperature). It works in one of two ways. If given two units as command line arguments, it reports the conversion. Otherwise, it operates interactively by prompting the user for inputs:
% units
You have: meters
You want: feet
* 3.2808399
/ 0.3048
You have: cm3
You want: gallons
* 0.00026417205
/ 3785.4118
You have: meters/s
You want: furlongs/fortnight
* 6012.8848
/ 0.00016630952
You have: 1|2 inch
You want: cm
* 1.27
/ 0.78740157
You have: 98.6 F
You want: C
98.6 F is 37 C
You have: -40 C
You want: F
-40 C is -40 F
Powers of units can be specified using the '^' character as shown in the example, or by simple concatenation: 'cm3' is equivalent to 'cm^3'.
Multiplication of units can be specified by using spaces, a dash or an asterisk.
Division of units is indicated by the slash ('/'). Note that multiplication has a higher precedence than division, so 'm/s/s' is the same as 'm/s^2' or 'm/s s'. Division of numbers must be indicated using the vertical bar ('|'). To convert half a meter, you would write '1|2 meter'. If you write '1/2 meter' then the units program would interpret that as equivalent to '0.5/meter'.
If you enter incompatible unit types, the units program will print a message indicating that the units are not conformable and it will display the reduced form for each unit:
You have: ergs/hour
You want: fathoms kg^2 / day
conformability error
2.7777778e-11 kg m^2 / sec^3
2.1166667e-05 kg^2 m / sec
The conversion information is read from a units data file. The default file includes definitions for most familiar units, abbreviations and metric prefixes. Some constants of nature included are:
pi ratio of circumference to diameter
c speed of light
e charge on an electron
g acceleration of gravity
force same as g
mole Avogadro's number
water pressure per unit height of water
mercury pressure per unit height of mercury
au astronomical unit
The unit 'pound' is a unit of mass. Compound names are run together so 'pound force' is a unit of force. The unit 'ounce' is also a unit of mass. The fluid ounce is 'floz'. British units that differ from their US counterparts are prefixed with 'br', and currency is prefixed with its country name: 'belgiumfranc', 'britainpound'. When searching for a unit, if the specified string does not appear exactly as a unit name, then units will try to remove a trailing 's' or a trailing 'es' and check again for a match.
To find out what units are available read the standard units file. If you want to add your own units you can supply your own file. If no standard file exists and you do not supply your own file, this program uses internal data.
A unit is specified on a single line by giving its name and an equivalence. Be careful to define new units in terms of old ones so that reductions leads to primitive units. Primitive (a.k.a. fundamental) units are defined with a string of three characters which begin and end with '*' or '!'. Note that the units program will not detect infinite loops that could be caused by careless unit definitions.
Comments in the unit definition file begin with a '/' or '#' character at the beginning of a line. Once the parser has successfully parsed a unit name and it's definition, the remainder of the line is ignored. This makes it safe to include in-line comments.
Prefixes are defined in the same way as standard units, but with a trailing dash at the end of the prefix name. If a unit is not found even after removing trailing 's' or 'es', then it will be checked against the list of prefixes. Prefixes will be removed until a legal base unit is identified.
Here is an example of a short units file that defines some basic units.
m !a!
sec ***
Temperature ***
micro- 1e-6
minute 60 sec
hour 60 min
inch 0.0254 m
ft 12 inches
mile 5280 ft
If a "Temperature" dimension is defined in the units table, then you can define various temperature scales as units by specifying the code needed to convert the unit to or from Kelvin. The built-in units table has definitions for Kelvin (K), Celsius (C), Fahrenheit (F) and Rankine (R).
The code consists of a perl hash containing the keys 'to' and 'from'. The values are the subroutine definitions necessary to convert a value from Kelvin to the specified unit, or to Kelvin from the the specified unit. See the built-in unit table for examples.
A temperature unit entered at "You have" without any constant preceding it will default to zero units. This is in contrast to non-temperature units, where a bare unit name is assumed to mean 1 unit. Also, for temperatures only, negative constants are allowed. This enables, for example, a conversation between -40C and F.
AUTHOR
Mark-Jason Dominus, <mjd-perl-units@plover.com>
Temperature support by Gary Puckering, <jgpuckering@rogers.com>
Currently maintained in https://github.com/briandfoy/PerlPowerTools
BUGS
COPYRIGHT and LICENSE
This program is copyright (c) M-J. Dominus (1996, 1999).
This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version, or under Perl's 'Artistic License'.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.