Zero-initialization
Zero-initialization is a source of confusion sometimes. They are default values for many types that are assigned even if you don't provide a value for the definition. Following are the zero-initialization for various types:
- The
falseinitialization forbooltype. - Using
0values forinttype. - Using
0.0forfloattype. - Using
""(empty strings) forstringtype. - Using
nilkeyword for pointers, functions, interfaces, slices, channels and maps. - Empty
structfor structures without fields. - Zero-initialized
structfor structures with fields. The zero value of a structure is defined as the structure that has its fields initialized as zero value too.
Zero-initialization is important when programming in Go because you won't be able to return a nil value if you have to return an int type or a struct. Keep this in mind, for example, in functions where you have to return a bool value. Imagine that you want to know if a number is divisible by a different number but you pass 0 (zero) as the divisor.
func main() {
res := divisibleBy(10,0)
fmt.Printf("%v\n", res)
}
func divisibleBy(n, divisor int) bool {
if divisor == 0 {
//You cannot divide by zero
return false
}
return (n % divisor == 0)
}
The output of this program is false but this is incorrect. A number divided by zero is an error, it's not that 10 isn't divisible by zero but that a number cannot be divided by zero by definition. Zero-initialization is making things awkward in this situation. So, how can we solve this error? Consider the following code:
func main() {
res, err := divisibleBy(10,0)
if err != nil {
log.Fatal(err)
}
log.Printf("%v\n", res)
}
func divisibleBy(n, divisor int) (bool, error) {
if divisor == 0 {
//You cannot divide by zero
return false, errors.New("A number cannot be divided by zero")
}
return (n % divisor == 0), nil
}
We're dividing 10 by 0 again but now the output of this function is A number cannot be divided by zero. Error captured, the program finished gracefully.
