Using format strings in Python I can easily print a number in "scientific notation", e.g.

>> print '%g'%1e9

What is the simplest way to format the number in LaTeX format, i.e. 1\times10^{+09}?

  • I don't think 1^{+09} is quite the output you want, but anyway.
    – walkytalky
    Commented Nov 21, 2012 at 10:31
  • True, of course I meant 10^{+09}
    – pafcu
    Commented Nov 21, 2012 at 10:53

3 Answers 3


The siunitx LaTeX package solves this for you by allowing you to use the python float value directly without resorting to parsing the resulting string and turning it into valid LaTeX.

>>> print "\\num{{{0:.2g}}}".format(1e9)

When the LaTeX document is compiled, the above code will be turned into enter image description here. As andybuckley points out in the comments, the plus sign might not be accepted by siunitx (I've not tested it), so it may be necessary to do a .repace("+", "") on the result.

If using siunitx is somehow off the table, write a custom function like this:

def latex_float(f):
    float_str = "{0:.2g}".format(f)
    if "e" in float_str:
        base, exponent = float_str.split("e")
        return r"{0} \times 10^{{{1}}}".format(base, int(exponent))
        return float_str


>>> latex_float(1e9)
'1 \\times 10^{9}'
  • Nice solution! This does what's asked for, however it's not normal to include a + sign or leading zero in the exponent when formatting for mathematical correctness (cf. the siunitx output above). Also, due to the \times command it's a good idea to use a raw ("r") string. These can be done by replacing the first return with: parts = float_str.split("e"); return r"{0} \times 10^{{{1}}}".format(parts[0], int(parts[1])) (Hope that's understandable: SO doesn't code-format in comments!) Commented Apr 6, 2013 at 10:25
  • @andybuckley Thanks for the feedback! I've corrected my answer. Commented Apr 6, 2013 at 13:15
  • I'm also not sure what input siunitx handles, just that its output is in the normal mathematical format without an explicit plus sign or leading 0 in the exponent. My bit of inline code in the comment above is (sadly) the most elegant way that I could think of to map a cast-to-int on the exponent... maybe there is something funky in itertools for such things but hopefully it's clear enough this way! Commented Apr 8, 2013 at 13:47
  • @andybuckley If we map both the exponent and the base to int (and there's no reason not to, as far as I know), we can make it more elegant. See above. :) Commented Apr 9, 2013 at 12:25
  • Erm, what happens to `latex_float(1.234e9) in that case? Or have I missed something obvious?! Obviously the mantissa-as-int works for the specific case of 1e9 :-) Commented Apr 10, 2013 at 9:20

Install num2tex:

pip install num2tex

and use it as so:

>>> from num2tex import num2tex
>>> '{:.0e}'.format(num2tex(1e9))
'1 \\times 10^{9}'

num2tex inherits from str so the format function can be used in the same way.

You can also change the format of the exponent by using num2tex.configure() (adding this in response to @Matt's comment).

>>>from num2tex import num2tex
>>>from num2tex import configure as num2tex_configure
'1.3489 \cdot 10^{17}'
'1.3489 (10^{17})'

As of now this is undocumented in the GitHub, I'll try to change this soon!

Disclaimer: After using (and upvoting) Lauritz V. Thaulow's answer for a while (for Jupyter, Matplotlib etc.) I thought it would be better for my workflow to write a simple Python module, so I created num2tex on GitHub and registered it on PyPI. I would love to get some feedback on how to make it more useful.

  • The package you offer and the examples on GitHub page are infinitely useful! Cheers mate. :)
    – Matt
    Commented Nov 5, 2019 at 17:47
  • Would be nice if you found some times to implement the \cdot 10^{p} option. :)
    – Matt
    Commented Nov 13, 2019 at 10:25
  • @Matt it already has this feature, I just hadn't documented it :) See my edited answer for how to do it with cdot Commented Nov 14, 2019 at 15:53
  • 1
    I'm afraid there is a slight bug in the package. Quick example: num2tex(100000,precision=1) will yield $\times 10^5$, omitting the "1". it will happen for any $10^n$ with precision $\leq n+1$ (but not for $a.10^n$ if $a\neq 1$).
    – Matt
    Commented Apr 2, 2020 at 10:50

You can write a frexp10 function:

def frexp10(x):
    exp = int(math.floor(math.log10(abs(x))))
    return x / 10**exp, exp

Formatting in LaTeX style is then:


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