# Python float to int conversion

Basically, I'm converting a float to an int, but I don't always have the expected value.

Here's the code I'm executing:

x = 2.51

``````print("--------- 251.0")
y = 251.0
print(y)
print(int(y))

print("--------- 2.51 * 100")
y = x * 100
print(y)
print(int(y))

print("--------- 2.51 * 1000 / 10")
y = x * 1000 / 10
print(y)
print(int(y))

print("--------- 2.51 * 100 * 10 / 10")
y = x * 100 * 10 / 10
print(y)
print(int(y))

x = 4.02
print("--------- 402.0")
y = 402.0
print(y)
print(int(y))

print("--------- 4.02 * 100")
y = x * 100
print(y)
print(int(y))

print("--------- 4.02 * 1000 / 10")
y = x * 1000 / 10
print(y)
print(int(y))

print("--------- 4.02 * 100 * 10 / 10")
y = x * 100 * 10 / 10
print(y)
print(int(y))
``````

And here's the result (first value is the result of the operation, second value is int() of the same operation):

``````--------- 251.0
251.0
251
--------- 2.51 * 100
251.0
250
--------- 2.51 * 1000 / 10
251.0
251
--------- 2.51 * 100 * 10 / 10
251.0
250
--------- 402.0
402.0
402
--------- 4.02 * 100
402.0
401
--------- 4.02 * 1000 / 10
402.0
401
--------- 4.02 * 100 * 10 / 10
402.0
401
``````

2.51 and 4.02 are the only values that lead to that strange behaviour on the 2.50 -> 5.00 range. Every other two digits value in that range converts to int without any problem when given the same operations.

So, what am I missing that leads to those results? I'm using Python 2.7.2 by the way.

-
Floating point values do not represent decimals exactly. This is not a Python thing. – Daniel Roseman Jul 4 '11 at 9:27
possible duplicate of Python rounding error with float numbers – mac Jul 4 '11 at 11:12

What Every Computer Scientist Should Know About Floating-Point Arithmetic

Floating-point numbers cannot represent all the numbers. In particular, 2.51 cannot be represented by a floating-point number, and is represented by a number very close to it:

``````>>> print "%.16f" % 2.51
2.5099999999999998
>>> 2.51*100
250.99999999999997
>>> 4.02*100
401.99999999999994
``````

If you use int, which truncates the numbers, you get:

``````250
401
``````

Have a look at the Decimal type.

-
"Floating-point numbers are not 100% accurate" would be most precisely described along the line of "Not all numbers can be represented by floating-point numbers" (a number literal is converted into a floating-point number which is very close, and sometimes identical to the number). In fact, all floating-point numbers represent accurately the value that they represent. The key point is that they do not represent all possible numbers. – EOL Jul 5 '11 at 14:33
@EOL If you allow, I can edit it in or feel free to edit it yourself. – Jacob Jul 5 '11 at 14:34
The important thing to know about binary floating point numbers (you can get this from the linked article, but here's a TL;DR) is that digits after the binary point represent negative powers of two: one-half, one-fourth, one-eighth, etc. A binary floating-point number can thus represent exactly only fractions that are a sum of negative powers of two representable by the available bits. Certain fractions that are finite in decimal notation (e.g. 0.1) require an infinite number of bits in binary notation, and so cannot be completely represented in a `float` which has a finite number of bits. – kindall Jul 5 '11 at 15:53
``````2.51 * 100 = 250.999999999997
``````

The int() function simply truncates the number at the decimal point, giving 250. Use

``````int(round(2.51*100))
``````

to get 251 as an integer. In general, floating point numbers cannot be represented exactly. One should therefore be careful of round-off errors. As mentioned, this is not a Python-specific problem. It's a recurring problem in all computer languages.

-

Languages that use binary floating point representations (Python is one) cannot represent all fractional values exactly. If the result of your calculation is 250.99999999999 (and it might be), then taking the integer part will result in 250.

A canonical article on this topic is What Every Computer Scientist Should Know About Floating-Point Arithmetic.

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``````>>> x = 2.51
>>> x*100
250.99999999999997
``````

the floating point numbers are inaccurate. in this case, it is 250.99999999999999, which is really close to 251, but int() truncates the decimal part, in this case 250.

you should take a look at the Decimal module or maybe if you have to do a lot of calculation at the mpmath library http://code.google.com/p/mpmath/ :),

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`int()` does not round to the integer below, but truncates the decimal part. Example: `int(-0.9) == 0`. – EOL Jul 4 '11 at 11:34
edited, thank you :) – Ant Jul 4 '11 at 18:20