# plus/minus operator for python ±

I am looking for a way to do a plus/minus operation in python 2 or 3. I do not know the command or operator, and I cannot find a command or operator to do this.

Am I missing something?

• um, what is a plus/minus operation? Remember: In math, a function maps a value (or a set of values) from its definition to exactly one value... Jan 10, 2015 at 2:30
• I think you may want sympy for this. Jan 10, 2015 at 2:30
• @MarcusMüller he means as in when you do a square root, it has a negative and positive value simultaneously. Jan 10, 2015 at 2:32
• @tox123 exactly that is not the case. When you do a square root, you get exactly one value. That is the definition of the function "square root". What you want to say is "a problem of the form x² = Q has two solutions in the rational numbers if Q>0". Jan 10, 2015 at 2:33
• @tox123: I think you're right about needing sympy. I just found this plus-minus object issue Jan 10, 2015 at 2:37

If you are looking to print the ± symbol, just use:

print(u"\u00B1")

• The question is asking how to perform arithmetics using the +/- logic, not how to print the symbol. Aug 15, 2019 at 10:23
• Still a helpful answer for people who are looking for how to print the pm symbol :)
– Isi
Aug 13, 2020 at 16:27

Another possibility: uncertainties is a module for doing calculations with error tolerances, ie

(2.1 +/- 0.05) + (0.6 +/- 0.05)    # => (2.7 +/- 0.1)


which would be written as

from uncertainties import ufloat

ufloat(2.1, 0.05) + ufloat(0.6, 0.05)


Edit: I was getting some odd results, and after a bit more playing with this I figured out why: the specified error is not a tolerance (hard additive limits as in engineering blueprints) but a standard-deviation value - which is why the above calculation results in

ufloat(2.7, 0.07071)    # not 0.1 as I expected!

• This is not OP asking I think, the output should be 2.1+0.05=2.15/ 2.1-0.5=2.05 and 0.55/0.65 how you get that results?
– user4435153
Jan 10, 2015 at 2:47
• This is binary +/- but the OP is looking for unary +/-. But thanks for this neat recommendation anyway.
– smci
Jul 11, 2018 at 23:55
•  the specified error is not a tolerance but a standard-deviation value ... that would be fine, but... their documentation page shows tolerances. Bad documentation? pythonhosted.org/uncertainties Nov 17, 2022 at 22:56

Instead of computing expressions like

s1 = sqrt((125 + 10 * sqrt(19)) / 366)
s2 = sqrt((125 - 10 * sqrt(19)) / 366)


you could use

import numpy as np

pm = np.array([+1, -1])
s1, s2 = sqrt((125 + pm * 10 * sqrt(19)) / 366)

• Nice! I posted my own answer based on this, that uses a generator expression instead of NumPy. Aug 30, 2020 at 17:50

If you happen to be using matplotlib, you can print mathematical expressions similar as one would with Latex. For the +/- symbol, you would use:

print( r"value $\pm$ error" )


Where the r converts the string to a raw format and the \$-signs are around the part of the string that is a mathematical equation. Any words that are in this part will be in a different font and will have no whitespace between them unless explicitly noted with the correct code. This can be found on the relavent page of the matplotlib documentation.

Sorry if this is too niche, but I stumbeled across this question trying to find this very answer.

• If you are only trying to print the value, I can use the keyboard shortcut shift + alt and the keyboard key with both + and = on it to produce ± using a mac laptop.
– user7345804
May 2, 2018 at 8:10

I think you want that for an equation like this;

Well there is no operator for that unless you don't use SymPy, only you can do is make an if statement and find each multiplier.

There is no such object in SymPy yet (as you saw, there is an issue suggesting one https://github.com/sympy/sympy/issues/5305). It's not hard to emulate, though. Just create a Symbol, and swap it out with +1 and -1 separately at the end. Like

pm = Symbol(u'±') # The u is not needed in Python 3. I used ± just for pretty printing purposes. It has no special meaning.
expr = 1 + pm*x # Or whatever
# Do some stuff
exprpos = expr.subs(pm, 1)
exprneg = expr.subs(pm, -1)


You could also just keep track of two equations from the start.

Instead of computing expressions like

s1 = sqrt((125.0 + 10.0*sqrt(19)) / 366.0)
s2 = sqrt((125.0 - 10.0*sqrt(19)) / 366.0)


you could use

r = 10.0*sqrt(19)
s1, s2 = (sqrt((125.0 + i) / 366.0) for i in (r, -r))


This is based on Nico's answer, but using a generator expression instead of NumPy

A plus/minus tolerance test can be done using a difference and absolute against the tolerance you wish to test for. Something like:

tst_data = Number you wish to test
norm = Target number
tolerance = Whatever the allowed tolerance is.

if abs(tst_data - norm) <= tolerance:
do stuff


Using the abs function allows the test to return a +/- within tolerance as True