UNITS (1)
unit conversion program
OVERVIEW OF \`UNITS'
The \`units' program converts quantities expressed in various scales to
their equivalents in other scales. The \`units' program can only handle
multiplicative scale changes. For example, it cannot convert Celsius to
Fahrenheit but it can convert temperature differences between those
temperature scales.
The units are defined in an external data file. You can use the
extensive data file that comes with this program, or you can
provide your own data file to suit your needs.
You can use the program interactively
with prompts, or you can use it
from the command line.
INTERACTING WITH \`UNITS'
To invoke units for interactive use, type \`units' at your shell
prompt. The program will print something like this:
1161 units, 53 prefixes
You have:
At the \`You have:' prompt, type the quantity and units that
you are converting from. For example, if you want to convert ten
meters to feet, type \`10 meters'. Next, \`units' will print
\`You want:'. You should type the type of units you want to convert
to. To convert to feet, you would type \`feet'.
The answer will be displayed in two ways. The first line of output,
which is marked with a \`*' to indicate multiplication,
gives the result of the conversion you have asked for. The second line
of output, which is marked with a \`/' to indicate division, gives
the inverse of the conversion factor. If you convert 10 meters to feet,
\`units' will print
* 32.808399
/ 0.03048
which tells you that 10 meters equals about 32.8 feet.
The second number gives the conversion in the reverse directions.
In this case, it tells you that 1 foot is equal to about
0.03 dekameters since the dekameter is 10 meters.
It also tells you that 1/32.8 is about .03.
The \`units' program prints the inverse because sometimes it is a
more convenient number. In the example above, for example, the inverse
value is an exact conversion: a foot is exactly .03048 dekameters.
But the number given the other direction is inexact.
If you try to convert grains to pounds, you will see the following:
You have: grains
You want: pounds
* 0.00014285714
/ 7000
From the second line of the output you can immediately see that a grain
is equal to a seven thousandth of a pound. This is not so obvious from
the first line of the output.
If you find the output format confusing, try using the
\`--verbose' option:
You have: grain
You want: aeginamina
grain = 0.00010416667 aeginamina
grain = (1 / 9600) aeginamina
If you request a conversion between units which measure reciprocal
dimensions, then \`units' will display the conversion results with an extra
note indicating that reciprocal conversion has been done:
You have: 6 ohms
You want: siemens
reciprocal conversion
* 0.16666667
/ 6
Reciprocal conversion can be suppressed by using the \`--strict' option.
As usual, use
the \`--verbose' option to get more comprehensible output:
You have: tex
You want: typp
reciprocal conversion
1 / tex = 496.05465 typp
1 / tex = (1 / 0.0020159069) typp
You have: 20 mph
You want: sec/mile
reciprocal conversion
1 / 20 mph = 180 sec/mile
1 / 20 mph = (1 / 0.0055555556) sec/mile
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
If you only want to find the reduced form or definition of a unit,
simply press return at the \`You want:' prompt. Here is an example:
You have: jansky
You want:
Definition: fluxunit = 1e-26 W/m^2 Hz = 1e-26 kg / s^2
The output from \`units' indicates that the jansky is defined to be
equal to a fluxunit which in turn is defined to be a certain combination
of watts, meters, and hertz. The fully reduced (and in this case
somewhat more cryptic) form appears on the far right.
USING \`UNITS' NON-INTERACTIVELY
The \`units' program can perform units conversions non-interactively
from the command line. To do this, type the command, type the
original units expression, and type the new units you want.
You will probably need to protect the units expressions from
interpretation by the shell using single quote characters.
If you type
units '2 liters' 'quarts'
then \`units' will print
* 2.1133764
/ 0.47317647
and then exit.
The output tells you that 2 liters is about 2.1 quarts, or alternatively that
a quart is about 0.47 times 2 liters.
If the conversion is successful, then \`units' will return success
to the calling environment. If \`units' is given non-conformable
units to convert, it will print a message giving the reduced form of
each unit and it will return failure to the calling environment.
When \`units' is invoked with only one argument, it will print out
the definition of the specified unit. It will return failure if the
unit is not defined and success if the unit is defined.
UNIT EXPRESSIONS
In order to enter more complicated units or fractions,
you will need to use operations such as powers, products and division.
Powers of units can be specified using the \`^' character as shown in
the following example, or by simple concatenation: \`cm3' is equivalent to
\`cm^3'.
If the exponent is more than one digit, the \`^' is required.
You have: cm^3
You want: gallons
* 0.00026417205
/ 3785.4118
You have: arabicfoot-arabictradepound-force
You want: ft lbf
* 0.7296
/ 1.370614
Multiplication of units can be specified by using spaces, a hyphen
(\`-') or an asterisk (\`*'). Division of units is indicated
by the slash (\`/').
You have: furlongs/fortnight
You want: m/s
* 0.00016630986
/ 6012.8727
Multiplication has a higher precedence than division and is evaluated
left to right, so
\`m/s * s/day' is equivalent to \`m / s s day' and has dimensions of
length per time cubed. In effect, the first \`/' character marks the
beginning of the denominator of your unit. In particular, this means
that writing \`1/2 meter' refers to a unit of reciprocal length
equivalent to .5/meter, which is
probably not what you would intend if you entered that expression.
To indicate division of numbers,
use the vertical dash (\`|'). No spaces area permitted on either
side of the vertical dash character.
You have: 1|2 inch
You want: cm
* 1.27
/ 0.78740157
Prefixes are defined separately from base units. In order to get
centimeters, the units database defines \`centi-' and \`c-' as
prefixes. Prefixes can appear alone with no unit following them.
An exponent applies only to the immediately preceding unit and its
prefix so that \`cm^3' or \`centimeter^3' refer to cubic centimeters
but \`centi-meter^3' refers to hundredths of cubic meters. Only one
prefix is permitted per unit, so \`micromicrofarad' will fail, but
\`micro-microfarad' will work.
For \`units', numbers are just another kind of unit. They can
appear as many times as you like and in any order in a unit expression.
For example, to find the volume of a box which is 2 ft by 3 ft by 12 ft
in steres, you could do the following:
You have: 2 ft 3 ft 12 ft
You want: stere
* 2.038813
/ 0.49048148
You have: $ 5 / yard
You want: cents / inch
* 13.888889
/ 0.072
And the second example shows how the dollar sign in the units conversion
can precede the five. Be careful: \`units' will interpret
\`$5' with no space as equivalent to dollars^5.
Outside of the SI system, it is often desirable to add values of
different units together. Sums of conformable units are written with
the \`+' character.
You have: 2 hours + 23 minutes + 32 seconds
You want: seconds
* 8612
/ 0.00011611705
You have: 12 ft + 3 in
You want: cm
* 373.38
/ 0.0026782366
You have: 2 btu + 450 ft-lbf
You want: btu
* 2.5782804
/ 0.38785542
The expressions which are added together must reduce to identical
expressions in primitive units, or an error message will be displayed:
You have: 12 printerspoint + 4 heredium
Illegal sum of non-conformable units:
12 printerspoint reduces to 0.0042175176 m
4 heredium reduces to 20145.828 m^2
Because \`-' is used for products, it cannot also be used to form
differences of units. If a \`-' appears before numerical digits
as the very first character
on the input line or if it appears immediately after a \`+' then the
number will be evaluated as a negative number. So you can compute 20
degrees minus 12 minutes by entering \`20 degrees+-12 arcmin'.
The \`+' character is sometimes used in exponents like \`3.43e+8'.
Exponents of this form cannot be used when forming sums of units, but
they may be used otherwise.
INVOKING \`UNITS'
You invoke \`units' like this:
units OPTIONS [FROM-UNIT [TO-UNIT]]
If the FROM-UNIT and TO-UNIT are omitted, then the program
will use interactive prompts to determine which conversions to perform.
If both FROM-UNIT and TO-UNIT are given, \`units' will
print the result of that single conversion and then exit.
If only FROM-UNIT appears on the command line, \`units' will
display the definition of that unit and exit.
Units specified on the command line will need
to be quoted to protect them from shell interpretation and to group
them into two arguments. @xref{Command line use}.
The following options allow you to read in an alternative units file,
check your units file, or change the output format:
-c, --check
Check that all units and prefixes defined in the units file reduce
to primitive units. The program will print a list of all units that
cannot be reduced.
--check-verbose
Like the \`-check' option, this option prints a list of units that
cannot be reduced. But to help find unit definitions that cause
endless loops,
it lists the units as they are checked.
If \`units' hangs, then the last unit to be printed has a bad
definition.
-o format, --output-format format
Use the specified format for numeric output. Format is the same
as that for the printf function in the ANSI C standard.
For example, if you want more precision you might use \`-o %.15g'.
-f filename, --file filename
Use filename as the units data file rather than the default units
data file.
-h, --help
Print out a summary of the options for \`units'.
-q, --quiet, --silent
Suppress prompting of the user for units and the display of statistics
about the number of units loaded.
-s, --strict
Suppress conversion of units to their reciprocal units.
-v, --verbose
Give slightly more verbose output when converting units. When combined
with the \`-c' option this gives the same effect as
\`--check-verbose'.
-V, --version
Print program version number, tell whether the readline library
has been included, and give the location of the default units
data file.
UNIT DEFINITIONS
The conversion information is read from a units data file which
is called \`units.dat' and is probably located in
the \`/usr/local/share' directory.
If you invoke \`units' with the \`-V' option, it will print
the location of this file.
The default
file includes definitions for all familiar units, abbreviations and
metric prefixes. It also includes many obscure or archaic units.
Many constants of nature are defined, including these:
+4m
10m
pi ratio of circumference to diameter
c speed of light
e charge on an electron
force acceleration of gravity
mole Avogadro's number
water pressure per unit height of water
Hg pressure per unit height of mercury
au astronomical unit
k Boltzman's constant
mu0 permeability of vacuum
epsilon0 permitivity of vacuum
G gravitational constant
mach speed of sound
-4m
The database includes atomic masses for all of the elements and numerous
other constants. Also included are the densities of various ingredients
used in baking so that \`2 cups flour_sifted' can be converted
to \`grams'. This is not an exhaustive list. Consult the units
data file to see the complete list, or to see the definitions that are
used.
The unit \`pound' is a unit of mass. To get force, multiply by the
force conversion unit \`force' or use the shorthand \`lbf'.
(Note that \`g' is already taken as the standard abbreviation for
the gram.) The unit \`ounce' is also a unit of mass. The fluid
ounce is \`fluidounce' or \`floz'. British capacity units that
differ from their US counterparts, such as the British Imperial gallon,
are prefixed with \`br'. Currency is prefixed with its country
name: \`belgiumfranc', \`britainpound'.
The US Survey foot,
yard, and mile can be obtained by using the \`US' prefix.
These units differ slightly from the international length units. They
were in use until 1959, but for geographic surveys, they are still used.
The acre is officially defined in terms of the US Survey foot.
If you want an acre
defined according to the international foot, use \`intacre'. The
difference between these units is
about 4 parts per million.
The British also used a slightly different length measure before 1959.
These can be obtained with the prefix \`UK'.
When searching for
a unit, if the specified string does not appear exactly as a unit
name, then the \`units' program will try to remove a
trailing \`s' or a trailing \`es'. If that fails, \`units'
will check for a prefix.
All of the standard metric prefixes are defined.
To find out what units and prefixes are available, read the standard
units data file.
DEFINING NEW UNITS
All of the units and prefixes that \`units' can convert are defined
in the units data file. If you want to add your own units, you can
supply
your own file.
A unit is specified on a single line by
giving its name and an equivalence.
Comments start with a \`#' character, which can appear anywhere in a line.
Be careful to define
new units in terms of old ones so that a reduction leads to the
primitive units, which are marked with \`!' characters.
When adding new units, be sure to use the \`-c' option to check that
the new units reduce properly. If you define any units which contain
\`+' characters, carefully check them because the \`-c' option
will not catch non-conformable sums.
If you create a loop in the units definitions, then \`units' will
hang when invoked with the \`-c' options. You will need to
use the \`--check-verbose' option which prints out each unit as it
checks them. The program will still hang, but the last unit printed
will be the unit which caused the infinite loop.
Here is an example of a short units file that defines some basic
units:
+2m
9m +10m
m ! # The meter is a primitive unit
sec ! # The second is a primitive unit
micro- 1e-6 # Define a prefix
minute 60 sec # A minute is 60 seconds
hour 60 min # An hour is 60 minutes
inch 0.0254 m # Inch defined in terms of meters
ft 12 inches # The foot defined in terms of inches
mile 5280 ft # And the mile
-2m
A unit which ends with a \`-' character is a prefix.
If a prefix contains a \`/' character, then when it is applied to a
unit, that unit will be in the denominator. So the definition
\`half- 1/2' would give a \`halfmeter' equal to
\`1 / 2 meter'. For this reason, the \`/' character should be
avoided in prefixes.
READLINE SUPPORT
If the \`readline' package has been compiled in, then when
\`units' is used interactively, numerous command line editing
features are available. To check if your version of \`units'
includes the readline, invoke the program with the \`--version'
option.
For complete information about readline, consult the documentation for
the readline package. Without any configuration, \`units' will
allow editing in the style of emacs. Of particular use with
\`units' are the completion commands.
If you type a few characters and then hit \`ESC' followed by the
\`?' key then \`units' will display a list of all the units which
start with the characters typed. For example, if you type \`metr' and
then request completion, you will see something like this:
You have: metr
metre metriccup metrichorsepower metrictenth
metretes metricfifth metricounce metricton
metriccarat metricgrain metricquart metricyarncount
You have: metr
If there is a unique way to complete a unitname, you can hit the tab key
and \`units' will provide the rest of the unit name. If \`units'
beeps, it means that there is no unique completion. Pressing the tab
key a second time will print the list of all completions.
FILES
/usr/share/units.dat - the standard units data file
AUTHOR
Adrian Mariano (adrian@cam.cornell.edu)
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