Is there a way to convert a floating number to int in Julia? I'm trying to convert a floating point number to a fixed precision number with the decimal part represented as 8bit integer. In order to do this, I need to truncate just the decimal part of the number and I figured the best way to do this would be to subtract the converted integer of x from floating point x:

  x = 1.23455
y = x - Int(x)

y = 0.23455

  • 3
    The code you've provided won't work, since Int(x) will return an Inexact error unless x is a whole number expressed as Float64, e.g. 1.0 or -44.0. Also, I can't tell what you're actually after based on the question. Your wording makes it sound like you want the decimal portion of a Float64, expressed as an Int8. Is this right? That is an odd request, particularly given that for your example number 1.23455, the decimal portion as Int64 is 23455, but this is obviously much too large to be expressed as an Int8. Nov 10, 2016 at 5:09
  • Also, seems that you could use the rounding functions. All these functions accept target types for conversion: docs.julialang.org/en/release-0.5/manual/…
    – amrods
    Nov 10, 2016 at 5:12

8 Answers 8


It is possible that you are looking for trunc. It depends on what you mean by the decimal part. This is the difference between trunc and floor:

julia> trunc(Int, 1.2)

julia> trunc(Int, -1.2)

julia> floor(Int, 1.2)

julia> floor(Int, -1.2)
  • 6
    trunc returns Float now, not Integer.
    – karatedog
    Jul 16, 2018 at 23:42
  • 15
    @karatedog trunc(x::Float64) has always returned Float. But if you provide Int as the first argument, as in trunc(Int, 1.2), you will get an integer. Jul 18, 2018 at 0:59
  • This should be the best answer
    – Hansang
    May 24, 2022 at 4:44

I think you are looking for floor:

julia> x = 1.23455

julia> floor(x)

julia> y = x - floor(x)
  • 11
    As of v0.6, note that the output of floor is not an Int64 type, but rather a Float64 as per the example: test = ceil(0.2); typeof(test)
    – jjjjjj
    Jan 17, 2018 at 4:56
  • 8
    floor(Int,x) is more accurately according to docs Feb 21, 2020 at 16:41

Combining the previous answers:

julia> int(x) = floor(Int, x)
int (generic function with 1 method)

julia> int(3.14)

julia> int(3.94)

To answer the general question in the title (convert Float to Int), we can do:

round(Int, 1.3)
# 1
round(Int, 1.7)
# 2
  • It is recommended to use the alias Int instead of explicitly stating the size of the integer, see docs.julialang.org/en/v1/manual/types/#Type-Aliases-1
    – Olov
    Mar 25, 2020 at 13:07
  • 1
    I'm sorry, but not why do round(Int64, 1.3) instead? It's much more concise? What's the purpose of adding an explicit conversion?
    – Muppet
    Jul 31, 2020 at 18:53

according to floor docs you can do that way

julia> x = 45.5

julia> typeof(x)

julia> x = floor(Int8,x)

julia> typeof(x)

It seems that what you really need is the decimal part of the number. If this is the case, you can use modulo 1 directly like this:

x = 1.23455
y = x % 1
# 0.2345

seems that you really need modf instead:

help?> modf
search: modf ComposedFunction mod1 mod module


  Return a tuple (fpart, ipart) of the
  fractional and integral parts of a number.      
  Both parts have the same sign as the argument.  


  julia> modf(3.5)
  (0.5, 3.0)
  julia> modf(-3.5)
  (-0.5, -3.0)


If you want to convert Float to Int, this is a two-step operation. Because you must truncate the decimal part before typecasting it:

i = Int(trunc(1.23455))

Otherwise you can use modf to split a floating number into a tuple containing two floats that hold the integral and fractional parts of the original number.

(i, p) = modf(1.23455)

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