# How to check if number is integer number, with good precision?

There is similar question: Checking whether a variable is an integer or not, but I see no answer to my question.

I mean, I was fighting with big numbers recently, so friend of mine suggested me to install Python. I opened it today, so that I can compute big numbers and have good precision, but... how to use this precision? I mean, if I do something like `pow(31,123)` it works fine, but if I want to check if number is integer, I get:

``````>>> (4.00000000000001).is_integer()
False
>>> (4.000000000000001).is_integer()
False
>>> (4.0000000000000001).is_integer()
True
>>> (4.00000000000000001).is_integer()
True
``````

I wanted to write simple loop to find some solutions of diophantine-equation, where I need to take square root from the very big number and check if it is integer number, but now I am in pinch. Can someone help me or give me an advice how to achieve better precision?

Example:

For example: \$ 2x^2 = 1 + y^31 \$, where x,y are integer numbers. My idea is to make loop, where I increment y (starting from 1), add 1, divide by 2, take square root, and then it must be integer to satisfy the equation. This is why I need it.

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integers in Python have unlimited precision. But `float` numbers are usual IEEE-754 floating point numbers. See Floating Point Arithmetic: Issues and Limitations –  J.F. Sebastian Apr 1 '14 at 15:20

You can check if a given number is a square of an integer using the code below:

``````def is_square(x):
s = int(sqrt(x) + 0.5)
return s * s == x
``````

Similar approach can be used for a diophantine equation. Just convert y found for a given x to int (y = int(y + 0.5)) and then check if diophantine equation is true for found given x and y

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Can You advice how to make this work? I mean, do what You wrote above take into account precision I mentioned? I am trying to transform it, that it uses Decimal, but have some problems :( I don't know how to write it that it returns Decimal type. (My first time doing anything in Python ;) ) –  Kusavil Apr 1 '14 at 14:28
Python int can be any size. Try to type in Python shell 2**1000 and you will get the correct answer with all 301 digits. –  kostya Apr 1 '14 at 15:34
With the approach I proposed you do not need to take precision into account. Let me try to explain it better. First you calculate x based on y: x=sqrt((1+y31)/2.0). This is an exact answer. Now you need to check if it is integer or not. Instead of asking x.is_integer() you can round it first x=int(x+0.5). You need to add 0.5 to make sure that a number like 3.99999999999999 is converted to 4. And then you just check if 2*x*x == 1 + y31. Now both x and y are integers so no need to take precision into account. –  kostya Apr 1 '14 at 15:35
It won't work. See that: >>> x = math.sqrt(((13715)+1)/2); >>> x = int(x+0.5) ; >>> y = 1 + 13715; then >>> y gives us 112410921330388974282595778471994; while >>> 2*x*x gives us: 112410921330388990371703613604552. Difference is about 10^16, so how I can use it to check if number if integer? –  Kusavil Apr 1 '14 at 17:06
Have a look at stackoverflow.com/questions/15390807/… –  kostya Apr 1 '14 at 18:21

`4.0000000000000001` cannot be accurately represented as float:

``````>>> format(4.0000000000000001, '.53f')
'4.00000000000000000000000000000000000000000000000000000'
``````

so that number is indeed an integer. You cannot hope to go beyond 15 decimal digits on most systems:

``````>>> sys.float_info.dig
15
``````

See the `sys.float_info` structure, the `dig` attribute represents:

maximum number of decimal digits that can be faithfully represented in a float

Use the `decimal` module instead if you need more precision.

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But how to compare decimals? `compare` on site you gave me don't work, for example `>>> Decimal(4.0000000000000001).compare(Decimal(4.000000000000001))` gives `Decimal('-1')` , because first number have 15 zeros, when second one have 14 zeros. But when I increase number of zeros (before 1) in both of them, then comparing returns `Decimal('0')`, even thought the numbers are different :( –  Kusavil Apr 1 '14 at 14:41
What is the configured precision? –  Martijn Pieters Apr 1 '14 at 14:45

Can you not use built in function 'type'? I ran the following:

``````print type(4.0000000000000000000000000000000000000000000000001)
print type(4)
``````

and got the result:

``````<type 'float'>
<type 'int'>
``````

You can then check occurrence of 'int' and 'float' in the result using find() method

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But try `type(4.0)`. –  DSM Apr 1 '14 at 14:24
No, unfortunately I cannot. I want to check if `x` is integer number (not just type, but mathematically integer number), so 4.000 can be considered as integer number, but `print(type(4.0))' tells me `float` –  Kusavil Apr 1 '14 at 14:26