# Convert float to int in Julia Lang

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)
println(y)
``````

y = 0.23455

• 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/… Nov 10, 2016 at 5:12

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)
1

julia> trunc(Int, -1.2)
-1

julia> floor(Int, 1.2)
1

julia> floor(Int, -1.2)
-2
``````
• `trunc` returns Float now, not Integer. Jul 16, 2018 at 23:42
• @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 yesterday

I think you are looking for `floor`:

``````julia> x = 1.23455
1.23455

julia> floor(x)
1.0

julia> y = x - floor(x)
0.23455000000000004
``````
• 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)` Jan 17, 2018 at 4:56
• `floor(Int,x)` is more accurately according to docs Feb 21, 2020 at 16:41

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

julia> int(3.14)
3

julia> int(3.94)
3
``````

according to `floor` docs you can do that way

``````julia> x = 45.5
45.5

julia> typeof(x)
Float64

julia> x = floor(Int8,x)
45

julia> typeof(x)
Int8
``````

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
• 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? Jul 31, 2020 at 18:53

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
println(y)
# 0.2345
``````

seems that you really need `modf` instead:

``````help?> modf
search: modf ComposedFunction mod1 mod module

modf(x)

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

Examples
≡≡≡≡≡≡≡≡≡≡

julia> modf(3.5)
(0.5, 3.0)

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

``````