How can I display Decimal('40800000000.00000000000000')
as '4.08E+10'
?
I've tried this:
>>> '%E' % Decimal('40800000000.00000000000000')
'4.080000E+10'
But it has those extra 0's.
How can I display Decimal('40800000000.00000000000000')
as '4.08E+10'
?
I've tried this:
>>> '%E' % Decimal('40800000000.00000000000000')
'4.080000E+10'
But it has those extra 0's.
from decimal import Decimal
'%.2E' % Decimal('40800000000.00000000000000')
# returns '4.08E+10'
In your '40800000000.00000000000000' there are many more significant zeros that have the same meaning as any other digit. That's why you have to tell explicitly where you want to stop.
If you want to remove all trailing zeros automatically, you can try:
def format_e(n):
a = '%E' % n
return a.split('E')[0].rstrip('0').rstrip('.') + 'E' + a.split('E')[1]
format_e(Decimal('40800000000.00000000000000'))
# '4.08E+10'
format_e(Decimal('40000000000.00000000000000'))
# '4E+10'
format_e(Decimal('40812300000.00000000000000'))
# '4.08123E+10'
format % values
syntax still being used even within the Python 3 standard library, I believe it's technically deprecated in Python 3, or at least not the recommended formatting method, and the current recommended syntax, starting with Python 2.6, would be '{0:.2E}'.format(Decimal('40800000000.00000000000000'))
(or '{:.2E}'
in Python 2.7+). While not strictly useful for this situation, due to the additional characters for no added functionality, str.format
does allow for more complex mixing/rearranging/reutilizing of format arguments.
Here's an example using the format()
function:
>>> "{:.2E}".format(Decimal('40800000000.00000000000000'))
'4.08E+10'
Instead of format, you can also use f-strings:
>>> f"{Decimal('40800000000.00000000000000'):.2E}"
'4.08E+10'
f"{Decimal('40800000000.00000000000000'):.2E}"
Commented
Nov 6, 2018 at 3:41
Given your number
x = Decimal('40800000000.00000000000000')
Starting from Python 3,
'{:.2e}'.format(x)
is the recommended way to do it.
e
means you want scientific notation, and .2
means you want 2 digits after the dot. So you will get x.xxE±n
float(x)
will convert x into float.
Commented
May 20, 2020 at 13:45
No one mentioned the short form of the .format
method:
Needs at least Python 3.6
f"{Decimal('40800000000.00000000000000'):.2E}"
(I believe it's the same as Cees Timmerman, just a bit shorter)
{num:E}
, where e.g. num = 40800000000.00000000000000
This is a consolidated list of the "Simple" Answers & Comments.
from decimal import Decimal
x = '40800000000.00000000000000'
# Converted to Float
x = Decimal(x)
# ===================================== # `Dot Format`
print("{0:.2E}".format(x))
# ===================================== # `%` Format
print("%.2E" % x)
# ===================================== # `f` Format
print(f"{x:.2E}")
# =====================================
# ALL Return: 4.08E+10
print((f"{x:.2E}") == ("%.2E" % x) == ("{0:.2E}".format(x)))
# True
print(type(f"{x:.2E}") == type("%.2E" % x) == type("{0:.2E}".format(x)))
# True
# =====================================
IMPORT
's# NO IMPORT NEEDED FOR BASIC FLOATS
y = '40800000000.00000000000000'
y = float(y)
# ===================================== # `Dot Format`
print("{0:.2E}".format(y))
# ===================================== # `%` Format
print("%.2E" % y)
# ===================================== # `f` Format
print(f"{y:.2E}")
# =====================================
# ALL Return: 4.08E+10
print((f"{y:.2E}") == ("%.2E" % y) == ("{0:.2E}".format(y)))
# True
print(type(f"{y:.2E}") == type("%.2E" % y) == type("{0:.2E}".format(y)))
# True
# =====================================
# =====================================
x
# Decimal('40800000000.00000000000000')
y
# 40800000000.0
type(x)
# <class 'decimal.Decimal'>
type(y)
# <class 'float'>
x == y
# True
type(x) == type(y)
# False
x
# Decimal('40800000000.00000000000000')
y
# 40800000000.0
So for Python 3, you can switch between any of the three for now.
My Fav:
print("{0:.2E}".format(y))
See tables from Python string formatting to select the proper format layout. In your case it's %.2E
.
This worked best for me:
import decimal
'%.2E' % decimal.Decimal('40800000000.00000000000000')
# 4.08E+10
I prefer Python 3.x way.
cal = 123.4567
print(f"result {cal:.4E}")
4
indicates how many digits are shown shown in the floating part.
cal = 123.4567
totalDigitInFloatingPArt = 4
print(f"result {cal:.{totalDigitInFloatingPArt}E} ")
My decimals are too big for %E
so I had to improvize:
def format_decimal(x, prec=2):
tup = x.as_tuple()
digits = list(tup.digits[:prec + 1])
sign = '-' if tup.sign else ''
dec = ''.join(str(i) for i in digits[1:])
exp = x.adjusted()
return '{sign}{int}.{dec}e{exp}'.format(sign=sign, int=digits[0], dec=dec, exp=exp)
Here's an example usage:
>>> n = decimal.Decimal(4.3) ** 12314
>>> print format_decimal(n)
3.39e7800
>>> print '%e' % n
inf
"{:.2e}".format(n)
returns '3.39e+7800'
in Python 3.3.2 (v3.3.2:d047928ae3f6, May 16 2013, 00:06:53) [MSC v.1600 64 bit (AMD64)] on win32.
Commented
Nov 8, 2013 at 16:52
To convert a Decimal to scientific notation without needing to specify the precision in the format string, and without including trailing zeros, I'm currently using
def sci_str(dec):
return ('{:.' + str(len(dec.normalize().as_tuple().digits) - 1) + 'E}').format(dec)
print( sci_str( Decimal('123.456000') ) ) # 1.23456E+2
To keep any trailing zeros, just remove the normalize()
.
Adding an updated answer to show how to apply e notation
to small numbers only
value = 0.1
a = "{:,}".format(value) if value >= 0.001 else "{:,.3e}".format(value)
print(a) # 0.1
value = 0.00002488
a = "{:,}".format(value) if value >= 0.001 else "{:,.3e}".format(value)
print(a) # 2.488e-05
Here is the simplest one I could find.
format(40800000000.00000000000000, '.2E')
#'4.08E+10'
('E' is not case sensitive. You can also use '.2e')
def formatE_decimal(x, prec=2):
""" Examples:
>>> formatE_decimal('0.1613965',10)
'1.6139650000E-01'
>>> formatE_decimal('0.1613965',5)
'1.61397E-01'
>>> formatE_decimal('0.9995',2)
'1.00E+00'
"""
xx=decimal.Decimal(x) if type(x)==type("") else x
tup = xx.as_tuple()
xx=xx.quantize( decimal.Decimal("1E{0}".format(len(tup[1])+tup[2]-prec-1)), decimal.ROUND_HALF_UP )
tup = xx.as_tuple()
exp = xx.adjusted()
sign = '-' if tup.sign else ''
dec = ''.join(str(i) for i in tup[1][1:prec+1])
if prec>0:
return '{sign}{int}.{dec}E{exp:+03d}'.format(sign=sign, int=tup[1][0], dec=dec, exp=exp)
elif prec==0:
return '{sign}{int}E{exp:+03d}'.format(sign=sign, int=tup[1][0], exp=exp)
else:
return None