# How to round up a complex number?

How can I round up a complex number (e.g. `1.9999999999999998-2j`) as `2-2j`?

When I tried using

``````print(round(x,2))
``````

it showed

``````Traceback (most recent call last):
File "C:\Python34\FFT.py", line 22, in <module>
print(round(x,2))
TypeError: type complex doesn't define __round__ method
``````
• Do you want to actually change the value, or just print a rounded representation of it? Sep 13, 2014 at 6:14
• i want to change the value
– prav
Sep 13, 2014 at 6:53

Round real part and imaginary part separately and combine them:

``````>>> num = 1.9999999999999998-2j
>>> round(num.real, 2) + round(num.imag, 2) * 1j
(2-2j)
``````
• It would be nice if the standard function "Round()" directly supported complex numbers. Mar 3 at 2:38

If all you want to do is represent the value rounded as shown, rather than modify the value itself, the following works:

``````>>> x=1.9999999999999998-2j
>>> print("{:g}".format(x))
2-2j
``````
• To round up numbers that aren't cause by floating point precision i.e. `2.9+1j` you can use a small precision format like `f"{2.9+1j:.0g}"`. Beware this hack does not work for small numbers: `f"{.9+1j:.0g}"` = `'0.9+1j'`. Mar 26, 2021 at 22:36
• You can force rounding small numbers with format `f` instead of `g`, like `f"{.9+1j:.0f}"` gives `'1+1j'` (I don't know why I didn't find that a year ago) May 31, 2022 at 19:40

Id say the best way to do it is as such

``````x = (1.542334+32.5322j)
x = complex(round(x.real),round(x.imag))
``````

if you don't want to repeat that every time you want to do it, you could put it in a function.

``````def round_complex(x):
return complex(round(x.real),round(x.imag))
``````

Additional optional arguments can then be added to this, so if you only want to round one part for example, or if you only want to round to a certain number of decimal places on either the real or complex part

``````def round_complex(x, PlacesReal = 0, PlacesImag = 0, RoundImag = True, RoundReal = True):
if RoundImag and not RoundReal:
return complex(x.real,round(x.imag,PlacesImag))

elif RoundReal and not RoundImag:
return complex(round(x.real,PlacesReal),x.imag)

else: #it would be a waste of space to make it do nothing if you set both to false, so it instead does what it would if both were true
return complex(round(x.real,PlacesReal),round(x.imag,PlacesImag))
``````

as the variables are auto set to true or 0, you don't need to input them unless you specifically want too. But they are handy to have

Well, perhaps you can write your own `_complex` for local use? Here's an example:

``````class _complex(complex):
def __round__(self, n=None):
try:
assert isinstance(n, int)
except AssertionError:
raise ValueError(f"n must be an integer: {type(n)}")
if n is not None:
return complex(round(self.real, n), round(self.imag, n))
return self
``````

And you use it like:

``````c = _complex(1, 2)
print(round(c, 4))
``````

Very rough... may require some cleanup. I'm surprised this is not in the Python standard library.

You could round the real part and imaginary part separately rather than combined. Like:

``````x=complex(1.9999999999999998,-2)
rounded_x=complex(round(x.real,2),round(x.imag,2))
``````

Then you could print the `rounded_x` variable as a string(to avoid the brackets when printing). Hope this short answer helps the readers including the questioner.