# how to round off a floating number in python

Suppose I am having 8.8333333333333339 and I want to convert it to 8.84, how can I accomplish this in python ? round(8.8333333333333339 , 2) gives 8.8300000000000001 and not 8.84. I am new to python or programming in general. Thanks I dont want to print it as a string, the result will be further used. For more information on the problem please check this link http://openbookproject.net/pybiblio/practice/wilson/loan.php

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round(8.8333333333333339 , 2) will give 8.83 never 8.84 it seems. – VGE Dec 23 '10 at 12:16
Why 8.84? 8.8333333... should be rounded to 8.83 when aiming for two decimal places. – Tim Pietzcker Dec 23 '10 at 12:17
duplicate: stackoverflow.com/questions/56820/… – mouad Dec 23 '10 at 12:18
if you want to print the value use a format such as print "%.2f"%8.8333333333333339. this will print the value with 2 digit – VGE Dec 23 '10 at 12:19
I couldn't figure out why anyone would want to convert `8.833...` to 8.84. 8.84 is further from `8.833...` than 8.83 is. So 8.84 has less to do with the "truth" (exact value) than 8.83. Then it hit me. If \$8.84 is the value you bill someone for something, you'd like to round up rather than down. Bad math, but maximizes your revenue, at least on this one bill. Penny wise and pound foolish, in my mind, to hide a "tax" this way. But that's not a coding discussion... – hobs Apr 8 '13 at 20:19

`8.833333333339` or `8.833333333333334` properly rounded to two decimal places is `8.83`. Mathematically it sounds like what you want is a ceiling function. The one in Python's `math` module is named `ceil`:

``````import math

v = 8.8333333333333339
print(math.ceil(v*100)/100)  # -> 8.84
``````

Respectively, the floor and ceiling functions generally map a real number to the largest previous or smallest following integer which has zero decimal places—so to use them for 2 decimal places the number is first multiplied by 102 (or 100) to shift the decimal point and is then divided by it afterwards to compensate.

If you don't want to use the `math` module for some reason, you can use this (minimally tested) implementation:

``````def ceiling(x):
n = int(x)
return n if n-1 < x <= n else n+1
``````

### How this applies to the linked loan and payment calculator problem

From the sample output it appears that they rounded up the monthly payment, which is what some call the effect of the ceiling function. This means that each month a little more than 112 of the total amount is being paid. That made the final payment a little smaller than usual—so the remaining unpaid balance was only `8.76`.

It would be equally valid to use normal rounding producing a monthly payment of `8.83` and a slightly higher final payment of `8.87`. However, in the real world people generally don't like to have their payments go up, so rounding up each payment is the common practice—it also returns the money to the lender more quickly.

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Thanks for the clarification,it cleared lots of concepts. – HSS Dec 24 '10 at 3:59
Cool, clever way – Mike G Nov 22 '13 at 9:14

This is normal (and has nothing to do with Python) because 8.83 cannot be represented exactly as a binary float, just as 1/3 cannot be represented exactly in decimal (0.333333... ad infinitum).

If you want to ensure absolute precision, you need the `decimal` module:

``````>>> import decimal
>>> a = decimal.Decimal("8.833333333339")
>>> print(round(a,2))
8.83
``````
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I tried that and it displays Decimal('8.83') and not 8.84 – HSS Dec 23 '10 at 12:42
Not if you use the `print` function/statement (depending on your Python version). – Tim Pietzcker Dec 23 '10 at 12:46
ok I got the point, thanks. Thanks everyone for answering. – HSS Dec 23 '10 at 12:48
`>>> 106.00/12 => 8.833333333333334` – martineau Dec 23 '10 at 15:09
I think this is the right answer – Aldy syahdeini Apr 20 '14 at 16:59

You want to use the decimal module but you also need to specify the rounding mode. Here's an example:

``````>>> import decimal
>>> decimal.Decimal('8.333333').quantize(decimal.Decimal('.01'), rounding=decimal.ROUND_UP)
Decimal('8.34')
>>> decimal.Decimal('8.333333').quantize(decimal.Decimal('.01'), rounding=decimal.ROUND_DOWN)
Decimal('8.33')
>>>
``````
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If you round 8.8333333333339 to 2 decimals, the correct answer is 8.83, not 8.84. The reason you got 8.83000000001 is because 8.83 is a number that cannot be correctly reprecented in binary, and it gives you the closest one. If you want to print it without all the zeros, do as VGE says:

``````print "%.2f" % 8.833333333339   #(Replace number with the variable?)
``````
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If you want to round, 8.84 is the incorrect answer. 8.833333333333 rounded is 8.83 not 8.84. If you want to always round up, then you can use math.ceil. Do both in a combination with string formatting, because rounding a float number itself doesn't make sense.

``````"%.2f" % (math.ceil(x * 100) / 100)
``````
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A much simpler way is to simply use the round() function. Here is an example.

``````total_price = float()
price_1 = 2.99
price_2 = 0.99
total_price = price_1 + price_2
``````

If you were to print out total_price right now you would get

``````3.9800000000000004
``````

But if you enclose it in a round() function like so

``````print(round(total_price,2))
``````

The output equals

``````3.98
``````

The round() function works by accepting two parameters. The first is the number you want to round. The second is the number of decimal places to round to.

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use the `decimal` module: http://docs.python.org/library/decimal.html

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>>> decimal.getcontext().prec = 3 >>> decimal.Decimal(106)/decimal.Decimal(12) Decimal('8.83') this is what I got, and not 8.84 – HSS Dec 23 '10 at 12:35

Just for the record. You could do it this way:

``````def roundno(no):
return int(no//1 + ((no%1)/0.5)//1)
``````

There, no need for includes/imports

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