Go Crash Course Part IV: Types, Conversion and Inference
Mofi Rahman
Posted on May 6, 2021
The code for this part is in the types
folder under this github repo.
Types
Go is a typed language. That means everything we create must have a type.
There are a few basic types.
Boolean Types
Represents set of boolean value. With predefined constant true
and false
bool true or false
Numeric Types
Integer and Floating point values. Following are architecture independent numeric types.
uint8 the set of all unsigned 8-bit integers (0 to 255)
uint16 the set of all unsigned 16-bit integers (0 to 65535)
uint32 the set of all unsigned 32-bit integers (0 to 4294967295)
uint64 the set of all unsigned 64-bit integers (0 to 18446744073709551615)
int8 the set of all signed 8-bit integers (-128 to 127)
int16 the set of all signed 16-bit integers (-32768 to 32767)
int32 the set of all signed 32-bit integers (-2147483648 to 2147483647)
int64 the set of all signed 64-bit integers (-9223372036854775808 to 9223372036854775807)
float32 the set of all IEEE-754 32-bit floating-point numbers
float64 the set of all IEEE-754 64-bit floating-point numbers
complex64 the set of all complex numbers with float32 real and imaginary parts
complex128 the set of all complex numbers with float64 real and imaginary parts
byte alias for uint8
rune alias for int32
These are architecture dependent. (Could be either 32 bit or 64 bit)
uint either 32 or 64 bits
int same size as uint
uintptr an unsigned integer large enough to store the uninterpreted bits of a pointer value
String Types
String is a sequence of bytes.
Composite Types
Array
Arrays are fixed length and fixed type.
var arr = [5]int{}
Slice
Contiguous segment of underlying array. Has fixed type. Length can be dynamically reallocated. (More on this on a later chapter)
var slice = []int{}
Maps
Key value store. Similar to dictionary in python or object in JavaScript. But it still has a fixed type.
var maps = map[int]int{}
Functions
Functions are also types.
var function = func() int {
return 42
}
function
has a type func() int
Struct
Custom type defined by user. Its a sequence of named elements with name and types. Struct can be empty too.
type empty struct{}
var x = empty{}
Channel
Channels are typed conduit between running go routines. We will hold off on talking about channels until we talk about go routines.
Interface
An interface type specifies a method set called its interface. If a any type has the method set of the interface, that type implements the interface. All types implement the empty interface interface{}
. Interface does not have any type. Its always the underlying components type. A type can implement any number of interfaces. We will talk about interface in great details in a later post.
var y interface{} = x // y now has a type of empty since that is the type of x.
Type Alias and Type Definition
We already saw 2 examples of type aliases. byte
and rune
are type aliases of uint8
and uint32
respectively. This means every time we use byte
we are basically using an uint8
. We can also define our own type from another base type.
// type alias
type myFloat = float64
var aliasFloat myFloat = 5.0 // has type float64
// type definition
type myint int
var aliasInt myint = 1 // has type myint
Type alias is useful for moving types between packages for refactoring. Lets say we were using a struct type called coolstuff
in a package. If we move the coolstuff
to a different package, we would have to refactor all the places where coolstuff
were being used. One way to mitigate issues during the refactor type is to create a type alias in the old package where coolstuff
was.
type coolstuff = newpackage.Coolstuff
Type definition is used usually for creating enums. Or sometimes to extend existing types by attaching methods. For example:
func (m myint) double() myint {
return m * 2
}
Type int does not have any methods. But with myint
we can create a double()
method on our type. We have yet to talk about method and method receiver. We will talk about it in depth.
Type Conversion
Basic numeric types can be converted with T()
syntax. Where T
is the type to be converted to.
var i int = 355 // type int
f := float64(i) // type float64
by := byte(i) // type byte (uint8)
Struct type can be converted to and from each other as long as they have identical field names and types in identical order.
type person struct {
age int
name string
}
type student struct {
age int // try swapping these fields
name string
}
p := person{age: 20, name: "john"}
std := student{age: 15, name: "paul"}
p2 := person(std)
s2 := student(p)
There is a way to type case any struct to any other struct using the
unsafe
package. This is rarely used. If you write code that uses unsafe package, you better have a solid reasoning for it.
On function calls type conversion is automatic if the parameter can be converted to the desired type it gets converted. int
will be converted to float
but not the other way around because float to int can loose precision.
For defined types, the conversion is uni directional. You can always use the underlying type in place of the defined type but not the other way around.
func definedTypeConversion(mi myint) {
fmt.Printf("Type of mi=%T\n", mi)
}
func takesInt(i int) {
fmt.Printf("Type of i=%d", i)
}
definedTypeConversion(aliasInt)
definedTypeConversion(5) // this get converted to myint type
takesInt(5)
takesInt(aliasInt) // this does not work
Inference
We have seen example of inference a few times already. Every time we use the :=
operator, we are inferring the type of the left hand operand.
x := 5 // type inferred to int
y := x // type inferred to int because of the type of x
Type inference also happens for numeric constants when passing to a function if the compiler does not detect a loss of precision or overflow.
Next Steps
This is Part 4 of this Go crash course series.
Posted on May 6, 2021
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