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I get a byte slice ([]byte) from a UDP socket and want to treat it as an integer slice ([]int32) without changing the underlying array, and vice versa. In C(++) I would just cast between pointer types; how would I do this in Go?

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4 Answers

up vote 17 down vote accepted

As others have said, casting the pointer is considered bad form in Go. Here are examples of the proper Go way and the equivalent of the C array casting.

WARNING: all code untested.

The Right Way

In this example, we are using the encoding/binary package to convert each set of 4 bytes into an int32. This is better because we are specifying the endianness. We are also not using the unsafe package to break the type system.

import "encoding/binary"

const SIZEOF_INT32 = 4 // bytes

data := make([]int32, len(raw)/SIZEOF_INT32)
for i := range data {
    // assuming little endian
    data[i] = int32(binary.LittleEndian.Uint32(raw[i*SIZEOF_INT32:(i+1)*SIZEOF_INT32]))
}

The Wrong Way (C array casting)

In this example, we are telling Go to ignore the type system. This is not a good idea because it may fail in another implementation of Go. It is assuming things not in the language specification. However, this one does not do a full copy. This code uses unsafe to access the "SliceHeader" which is common in all slices. The header contains a pointer to the data (C array), the length, and the capacity. Instead of just converting the header to the new slice type, we first need to change the length and capacity since there are less elements if we treat the bytes as a new type.

import (
    "reflect"
    "unsafe"
)

const SIZEOF_INT32 = 4 // bytes

// Get the slice header
header := *(*reflect.SliceHeader)(unsafe.Pointer(&raw))

// The length and capacity of the slice are different.
header.Len /= SIZEOF_INT32
header.Cap /= SIZEOF_INT32

// Convert slice header to an []int32
data := *(*[]int32)(unsafe.Pointer(&header))
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4  
Of course the "right" way copies the data, the "wrong" way uses the data in place. –  kristianp Apr 13 '13 at 10:43
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The short answer is you can't. Go wont let you cast a slice of one type to a slice of another type. You will have loop through the array and create another array of the type you want while casting each item in the array. This is generally regarded as a good thing since typesafety is an important feature of go.

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It seems inconsistent to allow int8(int16(a) (which crashes at runtime if a > 255, but forbid []int8([]int16(a), which is equally (un)safe (and would be perfectly safe in a case like type myint int; []myint([]int{1})). Oh, well. –  misterbee Jul 25 '13 at 4:26
    
You may think so but those are two different cases in Go's type system and can't really be conflated. Go's type system is not theoretically perfect but instead meant to increase developer productivity. –  Jeremy Wall Jul 25 '13 at 15:33
1  
Well, in this case the type system doesn't increase developer productivity. I'm not suggesting that Go should change to support this case at the expense of anything else, just pointing out that it's a design wart. I'm pretty confident that it's an inconsistency. –  misterbee Jul 25 '13 at 18:59
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You do what you do in C, with one exception - Go does not allow to convert from one pointer type to another. Well, it does, but you must use unsafe.Pointer to tell compiler that you are aware that all rules are broken and you know what you are doing. Here is an example:

package main

import (
    "fmt"
    "unsafe"
)

func main() {
    b := []byte{1, 0, 0, 0, 2, 0, 0, 0}

    // step by step
    pb := &b[0]         // to pointer to the first byte of b
    up := unsafe.Pointer(pb)    // to *special* unsafe.Pointer, it can be converted to any pointer
    pi := (*[2]uint32)(up)      // to pointer to the first uint32 of array of 2 uint32s
    i := (*pi)[:]           // creates slice to our array of 2 uint32s (optional step)
    fmt.Printf("b=%v i=%v\n", b, i)

    // all in one go
    p := (*[2]uint32)(unsafe.Pointer(&b[0]))
    fmt.Printf("b=%v p=%v\n", b, p)
}

Obviously, you should be careful about using "unsafe" package, because Go compiler is not holding your hand anymore - for example, you could write pi := (*[3]uint32)(up) here and compiler wouldn't complain, but you would be in trouble.

Also, as other people pointed already, bytes of uint32 might be layout differently on different computers, so you should not assume these are layout as you need them to be.

So safest approach would be to read your array of bytes one by one and make whatever you need out of them.

Alex

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This converts it to a fixed size array. If you don't know the number of int32s at compile time, this will not work. –  Stephen Weinberg Aug 13 '12 at 3:30
    
Why not? I can say that array is as big as I want it to be. –  alex Aug 13 '12 at 11:45
    
Yes you can. But you can only do so at compile time. You can not convert it to an [n]uint32 where n is variable. –  Stephen Weinberg Aug 13 '12 at 15:54
    
I do not understand why you are referring to "compile time". I also do not understand what you are referring to when you say "[n]uint32" - I suspect you are talking about Go array type here. But then it has to be a concrete size [2]unit32 or [10000]uint32, Go array size cannot be of variable size - "... The length is part of the array's type and must be a constant expression ..." (golang.org/ref/spec#Array_types). –  alex Aug 14 '12 at 0:21
    
Everything you say is correct. In your example, you convert the []byte to a [2]uint32. That is an array. I was trying to point out that if you did not know how many int32's were being converted at compile time, your method of using an array would not work. –  Stephen Weinberg Aug 14 '12 at 0:25
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I had the size unknown problem and tweaked the previous unsafe method with the following code. given a byte slice b ...

int32 slice is (*(*[]int)(Pointer(&b)))[:len(b)/4]

The array to slice example may be given a fictional large constant and the slice bounds used in the same way since no array is allocated.

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