I have numbers that range from very small to very large, and I'd like to format them using "engineering notation" with a magnitude and a suffix:

n.nnn S

where 1.0 <= n.nnn < 1000., and S is a metric (SI) prefix. So:

1234.5e+13 => 12.35P
12345678 => 12.35M
1234 => 1.234K
1.234 => 1.234
0.1234 => 123.4m
1234.5e-16 => 1.235f

etc. How can I do that, e.g. using Python?

  • im surprised this is not in the python stdlib ... only f"{n:.2e}"
    – milahu
    Jun 23, 2022 at 18:59

2 Answers 2


(Posted here in Q&A style because I keep re-inventing this code, and others might find it helpful. Feel free to tweak it if you see improvements...)

Here is one implementation that lets you choose a long suffix (e.g. "peta") or a short suffix (e.g. "P"), and also lets you choose how many total digits are displayed (i.e. the precision):

def si_classifier(val):
    suffixes = {
        24:{'long_suffix':'yotta', 'short_suffix':'Y', 'scalar':10**24},
        21:{'long_suffix':'zetta', 'short_suffix':'Z', 'scalar':10**21},
        18:{'long_suffix':'exa', 'short_suffix':'E', 'scalar':10**18},
        15:{'long_suffix':'peta', 'short_suffix':'P', 'scalar':10**15},
        12:{'long_suffix':'tera', 'short_suffix':'T', 'scalar':10**12},
        9:{'long_suffix':'giga', 'short_suffix':'G', 'scalar':10**9},
        6:{'long_suffix':'mega', 'short_suffix':'M', 'scalar':10**6},
        3:{'long_suffix':'kilo', 'short_suffix':'k', 'scalar':10**3},
        0:{'long_suffix':'', 'short_suffix':'', 'scalar':10**0},
        -3:{'long_suffix':'milli', 'short_suffix':'m', 'scalar':10**-3},
        -6:{'long_suffix':'micro', 'short_suffix':'µ', 'scalar':10**-6},
        -9:{'long_suffix':'nano', 'short_suffix':'n', 'scalar':10**-9},
        -12:{'long_suffix':'pico', 'short_suffix':'p', 'scalar':10**-12},
        -15:{'long_suffix':'femto', 'short_suffix':'f', 'scalar':10**-15},
        -18:{'long_suffix':'atto', 'short_suffix':'a', 'scalar':10**-18},
        -21:{'long_suffix':'zepto', 'short_suffix':'z', 'scalar':10**-21},
        -24:{'long_suffix':'yocto', 'short_suffix':'y', 'scalar':10**-24}
    exponent = int(math.floor(math.log10(abs(val))/3.0)*3)
    return suffixes.get(exponent, None)

def si_formatter(value):
    Return a triple of scaled value, short suffix, long suffix, or None if
    the value cannot be classified.
    classifier = si_classifier(value)
    if classifier == None:
        # Don't know how to classify this value
        return None

    scaled = value / classifier['scalar']
    return (scaled, classifier['short_suffix'], classifier['long_suffix'])

def si_format(value, precision=4, long_form=False, separator=''):
    "SI prefix" formatted string: return a string with the given precision
    and an appropriate order-of-3-magnitudes suffix, e.g.:
        si_format(1001.0) => '1.00K'
        si_format(0.00000000123, long_form=True, separator=' ') => '1.230 nano'
    scaled, short_suffix, long_suffix = si_formatter(value)

    if scaled == None:
        # Don't know how to format this value
        return value

    suffix = long_suffix if long_form else short_suffix

    if abs(scaled) < 10:
        precision = precision - 1
    elif abs(scaled) < 100:
        precision = precision - 2
        precision = precision - 3

    return '{scaled:.{precision}f}{separator}{suffix}'.format(
        scaled=scaled, precision=precision, separator=separator, suffix=suffix)

You can use Prefixed which has a float type with additional formatting options.

>>> from prefixed import Float

>>> f'{Float(1234.5e+13):.2h}'
>>> f'{Float(12345678):.2h}'
>>> f'{Float(1234):.2h}'
>>> f'{Float(1.234):.2h}'
>>> f'{Float(0.1234):.2h}'
>>> f'{Float(1234.5e-16):.2h}'

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.