Note: Please consider using the follow-up project instead: Numbat.
you can read more about why Insect has been rewritten from scratch here.
A high-precision scientific calculator with full support for physical units.
-
Evaluate mathematical expressions:
1920/16*9 2^32 sqrt(1.4^2 + 1.5^2) * cos(pi/3)^2
-
Operators: addition (
+
), subtraction (-
), multiplication (*
,·
,×
), division (/
,÷
,per
), exponentiation (^
,**
). Full list: see Reference below. -
Mathematical functions:
abs
,acos
,acosh
,acot
/arccotangent
,acoth
/archypcotangent
,acsc
/arccosecant
,acsch
/archypcosecant
,arcsecant
,asech
/archypsecant
,asin
,asinh
,atan2
,atan
,atanh
,ceil
,cos
,cosh
,cot
/cotangent
,coth
/hypcotangent
,csc
/cosecant
,csch
/hypcosecant
,exp
,floor
,fromCelsius
,fromFahrenheit
,gamma
,ln
,log10
,log
,maximum
,mean
,minimum
,round
,secant
,sech
/hypsecant
,sin
,sinh
,sqrt
,tan
,tanh
,toCelsius
,toFahrenheit
. -
High-precision numeric type with 30 significant digits that can handle very large (or small) exponents like 10^(10^10).
-
Exponential notation:
6.022e23
. -
Hexadecimal, octal and binary number input:
0xFFFF 0b1011 0o32 0x2.F 0o5p3
-
-
Physical units: parsing and handling, including metric prefixes:
2 min + 30 s 40 kg * 9.8 m/s^2 * 150 cm sin(30°)
-
Supported units: see Reference section below.
-
Implicit conversions:
15 km/h * 30 min
evaluates to7.5 km
. -
Useful error messages:
> 2 watts + 4 newton meter Conversion error: Cannot convert unit N·m (base units: kg·m²·s⁻²) to unit W (base units: kg·m²·s⁻³)
-
-
Explicit unit conversions: the
->
conversion operator (aliases:→
,➞
,to
):60 mph -> m/s 500 km/day -> km/h 1 mrad -> degree 52 weeks -> days 5 in + 2 ft -> cm atan(30 cm / 2 m) -> degree 6 Mbit/s * 1.5 h -> GB
-
Variable assignments:
Example: mass of the earth
r = 6000km vol = 4/3 * pi * r^3 density = 5 g/cm^3 vol * density -> kg
Example: oscillation period of a pendulum
len = 20 cm 2pi*sqrt(len/g0) -> ms
-
Predefined constants (type
list
to see them all): speed of light (c
), Planck's constant (h_bar
), electron mass (electronMass
), elementary charge (elementaryCharge
), magnetic constant (µ0
), electric constant (eps0
), Bohr magneton (µ_B
), Avogadro's constant (N_A
), Boltzmann constant (k_B
), gravitational acceleration (g0
), ideal gas constant (R
), ... -
Last result: you can use
ans
(answer) or_
to refer to the result of the last calculation.
-
-
User-defined functions:
Example: kinetic energy
kineticEnergy(mass, speed) = 0.5 * mass * speed^2 -> kJ kineticEnergy(800 kg, 120 km/h)
Example: barometric formula
P0 = 1 atm T0 = fromCelsius(15) tempGradient = 0.65 K / 100 m pressure(height) = P0 * (1 - tempGradient * height / T0)^5.255 -> hPa pressure(1500 m)
-
Sums and products:
Syntax:
sum(<expression>, <index-variable>, <from>, <to>) product(<expression>, <index-variable>, <from>, <to>)
Examples:
# sum of the first ten squares sum(k^2, k, 1, 10) # the factorial of n as the product 1 × 2 × ... × n myFactorial(n) = product(k, k, 1, n)
-
Unicode support:
λ = 2 × 300 µm ν = c/λ → GHz
-
And more: tab completion, command history (arrow keys,
Ctrl
+R
), pretty printing, syntax highlighting, ...
-
Operators (ordered by precedence: high to low)
Operator Syntax factorial !
square, cube, ... ²
,³
,⁻¹
, ...exponentiation ^
,**
multiplication (implicit) whitespace modulo %
division per
division /
,÷
multiplication (explicit) *
,·
,×
subtraction -
addition +
unit conversion ->
,→
,➞
,to
assignment =
Note that implicit multiplication has a higher precedence than division, i.e.
50 cm / 2 m
will be parsed as50 cm / (2 m)
. -
Commands
Command Syntax help text help
,?
list of variables list
,ls
,ll
reset environment reset
clear screen clear
,cls
copy result to clipboard copy
,cp
quit (CLI) quit
,exit
-
Supported units (remember that you can use tab completion).
All SI-accepted units support metric prefixes and binary prefixes (
MiB
,GiB
, ...).Unit Syntax Ampere amperes
,ampere
,A
Ångström angstroms
,angstrom
,Å
Astronomical unit AU
,au
,astronomicalunits
,astronomicalunit
Atmosphere atm
Bar bars
,bar
Barn barns
,barn
Becquerel becquerels
,becquerel
,Bq
Bel bels
,bel
Bit bits
,bit
Bits per second bps
British thermal unit BTU
Byte Bytes
,bytes
,Byte
,byte
,B
,Octets
,octets
,Octet
,octet
Calorie calories
,calorie
,cal
Candela candelas
,candela
,cd
Coulomb coulombs
,coulomb
,C
Cup cups
,cup
DPI dpi
Day days
,day
,d
Degree degrees
,degree
,deg
,°
Dot dots
,dot
Electronvolt electronvolts
,electronvolt
,eV
Euro euros
,euro
,EUR
,€
Farad farads
,farad
,F
Fluid ounce fluidounces
,fluidounce
,floz
Foot feet
,foot
,ft
Fortnight fortnights
,fortnight
Frame frames
,frame
Frames per second fps
Furlong furlongs
,furlong
Gallon gallons
,gallon
,gal
Gauss gauss
Gram grams
,gram
,grammes
,gramme
,g
Gray grays
,gray
,Gy
Hectare hectares
,hectare
,ha
Henry henrys
,henries
,henry
,H
Hertz hertz
,Hz
Hogshead hogsheads
,hogshead
Hour hours
,hour
,hr
,h
Inch inches
,inch
,in
Joule joules
,joule
,J
Katal katals
,katal
,kat
Knot knots
,knot
,kn
,kt
Kelvin kelvins
,kelvin
,K
Light-year lightyears
,lightyear
,ly
Liter liters
,liter
,litres
,litre
,L
,l
Lumen lumens
,lumen
,lm
Lux lux
,lx
Meter meters
,meter
,metres
,metre
,m
Mile miles
,mile
Miles per hour mph
Millimeter of mercury mmHg
Minute minutes
,minute
,min
Molal molals
,molal
Molar molars
,molar
Mole moles
,mole
,mol
Month months
,month
Nautical mile M
,NM
,nmi
Newton newtons
,newton
,N
Ohm ohms
,ohm
,Ω
Ounce ounces
,ounce
,oz
PPI ppi
Parsec parsecs
,parsec
,pc
Parts-per-million ppm
Parts-per-billion ppb
Parts-per-trillion ppt
Parts-per-quadrillion ppq
Pascal pascals
,pascal
,Pa
Percent percent
,pct
Person persons
,person
,people
Piece pieces
,piece
Pint pints
,pint
Pixel pixels
,pixel
,px
Pound-force pound_force
,lbf
Pound pounds
,pound
,lb
Psi psi
RPM RPM
,rpm
Radian radians
,radian
,rad
Rod rods
,rod
Second seconds
,second
,sec
,s
Siemens siemens
,S
Sievert sieverts
,sievert
,Sv
Tablespoon tablespoons
,tablespoon
,tbsp
Teaspoon teaspoons
,teaspoon
,tsp
Tesla teslas
,tesla
,T
Thou thou
,mils
,mil
Tonne tonnes
,tonne
,tons
,ton
,t
US Dollar dollars
,dollar
,USD
,$
Volt volts
,volt
,V
Watt-hour Wh
Watt watts
,watt
,W
Weber webers
,weber
,Wb
Week weeks
,week
Yard yards
,yard
,yd
Gregorian year years
,year
Julian year julianYears
,julianYear
Reasons to use Insect
- Insect is open-source.
- There is a web version that requires no installation.
- With both browser and terminal versions available, Insect is truly cross-platform.
- Insect has first-class support for physical units, including metric and binary prefixes. While evaluating your calculation, Insect ensures that you did not accidentally make any mistakes in combining the physical quantities.
- Insect supports an interactive style with its readline-like interface. There is a saved history that can be browsed by pressing the up and down arrow keys. The history is also searchable via Ctrl-R.
- Insect's syntax is rather strict. The parser does not try to be "smart" on syntactically incorrect input, so there shouldn't be any surprises - and you can trust the result of your calculation. The parsed user input is always pretty-printed for a quick double-check.
- Insect is written in PureScript and therefore benefits from all the safety guarantees that a strictly typed functional programming language gives you.
- The source code of purescript-quantities (the underlying library for physical units) as well as the code of Insect itself is extensively tested.
Reasons to choose an alternative
- Insect is a scientific calculator. It's not a computer algebra system that solves differential equations or computes integrals. Try WolframAlpha instead.
- There is no graphical user interface with buttons for each action (x², 1/x, DEG/RAD, etc.). Qalculate! is a fantastic tool that supports both text as well as graphical input.
- Insect supports a huge range of physical units: all SI units, all non-SI units that are accepted by SI as well as most units of the imperial and US customary systems (and many more). However, if you need something even more comprehensive, try GNU units.
- Insect is not a general-purpose programming language. You could try Frink.
- Insect does not have a special mode for hexadecimal, octal, or binary numbers (yet), though it does support inputting them.
-
Why are Celsius and Fahrenheit not supported?
In contrast to the SI unit of temperature, the Kelvin, and to all other units, Celsius and Fahrenheit both require an additive offset when converting into and from other temperature units. This additive offset leads to all kinds of ambiguities when performing calculations in these units. Adding two temperatures in Celsius, for example, is only meaningful if one of them is seen as an offset value (rather than as an absolute temperature). Insect is primarily a scientific calculator (as opposed to a unit conversion tool) and therefore focuses on getting physical calculations right.
Even though °C and °F are not supported as built-in units, there are helper functions to convert to and from Celsius (and Fahrenheit):
-
fromCelsius
takes a scalar value that represents a temperature in Celsius and returns a corresponding temperature in Kelvin:> fromCelsius(0) = 273.15 K > k_B * fromCelsius(23) to meV = 25.5202 meV
-
toCelsius
takes a temperature in Kelvin and returns a scalar value that represents the corresponding temperature in Celsius:> toCelsius(70 K) = -203.15 > toCelsius(25 meV / k_B) = 16.963
-
-
Why is
1/2 x
parsed as1/(2x)
?Implicit multiplication (without an explicit multiplication sign) has a higher precedence than division (see operator precedence rules). This is by design, in order to parse inputs like
50 cm / 2 m
as(50 cm) / (2 m)
. If you meant ½ · x, write1/2 * x
. -
What is the internal numerical precision?
By default, Insect shows 6 significant digits in the result of the calculation. However, the internal numerical precision is much higher (30 digits).
-
How does the conversion operator work?
The conversion operator
->
attempts to convert the physical quantity on its left hand side to the unit of the expression on its right hand side. This means that you can write an arbitrary expression on the right hand side (but only the unit part will be extracted). For example:# simple unit conversion: > 120 km/h -> mph = 74.5645 mi/h # expression on the right hand side: > 120 m^3 -> km * m^2 = 0.12 m²·km # convert x1 to the same unit as x2: > x1 = 50 km / h > x2 = 3 m/s -> x1 x2 = 10.8 km/h
-
What is the relation between the units
RPM
,rad/s
,deg/s
andHz
?The unit
RPM
(revolutions per minute) is defined via1 RPM = 1 / minute
where the1
on the right hand side symbolizes "1 revolution".As the base unit is the same (
1 / second
),RPM
can be converted torad / s
,deg / s
orHz
. Note, however, that1 RPM
does not equal2π rad / min
or360° / min
or1 Hz
, as some might expect. If you're interested in computing the traversed angle of something that rotates with a given number of revolutions per minute, you need to multiply by2π rad
or360°
because:1 RPM · (360°/revolution) = (1 revolution / minute) · (360° / revolution) = 360° / minute
In addition to the web interface, there is also a command-line version (supporting Node.js 10 and later) which can by installed via npm:
npm install -g insect
Note that you should almost always never run this as root or with
sudo
. If the command fails due to permission issues, set up a prefix
directory
and call npm install
as a user instead.
For Arch Linux, there is an AUR package:
yaourt -S insect
For macOS, there is a Homebrew formula:
brew install insect
For Android, install Termux from
F-Droid. Install Node.js in
Termux and then install insect
from npm:
pkg install nodejs-lts
npm install -g insect
Insect is written in PureScript (see the Getting Started guide). First, install all dependencies:
npm install
To start the web version:
npm start
To build a bundled JavaScript file that you can run from the terminal (note that this builds the web version too):
npm run build
To run the index.cjs
file which the previous command creates:
node index.cjs
# Or simply on Un*x
./index.cjs
Note that it's not possible to just move this file anywhere and then run
it there, since it depends on packages in node_modules
.
Insect comes with a comprehensive set of unit tests. To run them:
npm test
Note that Node.js 12 or above is required to work on/build Insect (despite Insect itself requiring only Node.js 10 or later to run). If you don't have or want to install Node.js 12 or later, you can use the following Dockerfile to build or run Insect on Node.js 18:
FROM node:18
WORKDIR /usr/src/insect
COPY . .
RUN npm install && \
npm run build
CMD ["node", "index.cjs"]
After creating the image (docker build -t sharkdp/insect .
), you can
create the container and copy out the build artifacts:
docker create sharkdp/insect:latest
# copy SHA (e.g. 71f0797703e8)
docker cp 71f0797703e8:/usr/src/insect/index.cjs .
docker cp -r 71f0797703e8:/usr/src/insect/node_modules .
To directly run Insect inside Docker (paying a heavy startup time penalty), you can use:
docker run -it --rm -v ~/.local/share/insect-history:/root/.local/share/insect-history sharkdp/insect:latest