# Idiomatic Type Conversion in Go

I was playing around with Go and was wondering what the best way is to perform idiomatic type conversions in Go. Basically my problem lays within automatic type conversions between `uint8`, `uint64`, and `float64`. From my experience with other languages a multiplication of a `uint8` with a `uint64` will yield a `uint64` value, but not so in go.

Here is an example that I build and I ask if this is the idiomatic way of writing this code or if I'm missing an important language construct.

``````package main

import ("math";"fmt")

const(Width=64)

func main() {

var index uint32
var bits uint8

index = 100
bits = 3

var c uint64
// This is the line of interest vvvv
c = uint64(math.Ceil(float64(index * uint32(bits))/float64(Width)))
fmt.Println("Test: %v\n", c)
}
``````

From my point of view the calculation of the ceiling value seems unnecessary complex because of all the explicit type conversions.

Thanks!

-
Why the floating point math? play.golang.org/p/kdV9vnIqPN –  zzzz Nov 13 '12 at 20:53
Imagine you have a two 64 bits wide blocks storing 8 bit integers and you want to store 9 elements and need to know how many blocks to allocate without overhead. 9*8/64 = 1, but 8*8/64=1 as well. Maybe I'm missing an interesting +/- 1 thing here... –  grundprinzip Nov 13 '12 at 21:13
Use: (9*8+(64-1))/64 = 2 and (8*8+(64-1))/64 = 1. See my answer. –  peterSO Nov 14 '12 at 13:17

There are no implicit type conversions for non-constant values.

You can write

``````var x float64
x = 1
``````

But you cannot write

``````var x float64
var y int

y = 1
x = y
``````

See the spec for reference.

There's a good reason, to not allow automatic/implicit type conversions, as they can become very messy and one has to learn many rules to circumvent the various caveats that may occur. Take the Integer Conversion Rules in C for example.

-

For example,

``````package main

import "fmt"

func CeilUint(a, b uint64) uint64 {
return (a + (b - 1)) / b
}

func main() {
const Width = 64
var index uint32 = 100
var bits uint8 = 3
var c uint64 = CeilUint(uint64(index)*uint64(bits), Width)
fmt.Println("Test:", c)
}
``````

Output:

``````Test: 5
``````
-
Even though it's correct in it's own way. The other answer was the one I'm looking for. Thanks –  grundprinzip Nov 14 '12 at 15:58