Go String(): Difference between revisions

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</syntaxhighlight>
</syntaxhighlight>


Thanks to compiler's facilities, <code>String()</code> can be invoked with both values and pointers:
<syntaxhighlight lang='go'>
type SomeType struct {
s string
}
func (s SomeType) String() string {
return "<" + s.s + ">"
}
...
t := SomeType{s: "A"}
fmt.Printf("%v\n", t)  // prints <A>
fmt.Printf("%v\n", &t) // prints <A>
fmt.Printf("%s\n", t)  // prints <A>
fmt.Printf("%s\n", &t) // prints <A>
</syntaxhighlight>
Since we use a value receiver, the implementation does not have to protect against the receiver being <code>nil</code>.


<code>fmt</code> package printing functions automatically invoke the <code>String()</code> method, if defined, on instances of the type when the "[[Go_Package_fmt#%s|%s]]" and "[[Go_Package_fmt#%v|%v]]" conversion characters are used.
<code>fmt</code> package printing functions automatically invoke the <code>String()</code> method, if defined, on instances of the type when the "[[Go_Package_fmt#%s|%s]]" and "[[Go_Package_fmt#%v|%v]]" conversion characters are used.

Revision as of 01:14, 31 August 2024

Internal

Overview

The default format of values of a custom type can be controlled by defining a method:

func String() string

and associating it with the type, by declaring the type as the method's receiver. It is said that the method defines the "native" format for that type.

The String() method's intention is to read the receiver's state and render it, never to modify it. In consequence, the String() should declare a value receiver.

func (t SomeType) String() string {
   return fmt.Stringf("...", "...")
}

Thanks to compiler's facilities, String() can be invoked with both values and pointers:

type SomeType struct {
	s string
}

func (s SomeType) String() string {
	return "<" + s.s + ">"
}


...
t := SomeType{s: "A"}

fmt.Printf("%v\n", t)  // prints <A>
fmt.Printf("%v\n", &t) // prints <A>
fmt.Printf("%s\n", t)  // prints <A>
fmt.Printf("%s\n", &t) // prints <A>

Since we use a value receiver, the implementation does not have to protect against the receiver being nil.

fmt package printing functions automatically invoke the String() method, if defined, on instances of the type when the "%s" and "%v" conversion characters are used.





type Stringer interface {
  String() string
}

Stringer is implemented by any type that has a String() method, The String() method is used to print values passed as an operand to any format that accepts a string or to an unformatted printer such as Print.

Java developers are used to declare a public String toString() {...} method in their class to get instances of that class rendered as custom Strings.

Go has a similar facility. It consists in making the type that needs this behavior implement the fmt.Stringer interface, which has only one String() method that renders the "native" string representation for the instances of that type. The print() or fmt.*Print* library code will use the method if found on the instance to be rendered as string.

Note that is important whether we declare a value or a pointer receiver type. Depending on how the receiver type is declared, we will have to pass to the rendering code either a value, or a pointer to the instance of the type to achieve the desired behavior.

Example

type SomeType struct {
	ID string
}

// String makes SomeType implement the fmt.Stringer interface. It is important whether a value or a pointer receiver type is declared.
func (e SomeType) String() string {
	return fmt.Sprintf("SomeType[%s]", e.ID)
}

...

t := SomeType{ID: "001"}
fmt.Println(t)

will render:

SomeType[001]