How to Read Signatures
Rather than providing concrete classes like other frameworks, Mithril provides methods that operate on plain old javascript objects (POJOs) that match given signatures.
A signature is a description of its static type. For functions, it shows what are the parameters of the function, its return value and their expected types. For objects and arrays, it shows the expected data structure and the expected types of their members.
Method signatures in this documentation follow a syntax similar to Java syntax, with some extra additions:
ReturnType methodName(ParameterType1 param1, ParameterType2 param2)
Optional Parameters
Square brackets denote optional parameters. In the example below, param2
and param3
can both be omitted, but passing a value to param2
is required if also passing a value to param3
:
String test(String arg1 [, String arg2 [, String arg3]])
//examples of valid function calls
test("first");
test("first", "second");
test("first", "second", "third");
Type Placeholders
The word void
is used as a type when a function does not return a value (i.e. undefined):
void test()
console.log(test()); // undefined
The word any
is used as a type if there are no type restrictions on a parameter:
void test(any value)
//examples of valid function calls
test("hello");
test(1);
test(["hello", "world"]);
Arrays
Arrays use Generics syntax to denote the expected type of array members:
void test(Array<String> values)
//example of a valid function call
test(["first", "second"]);
Objects as Key-Value Maps
Objects also use Generics syntax when they are meant to be used as a key-value map. Keys are always strings and, in key-value maps, can have any name.
void test(Object<Number> values)
//example of a valid function call
test({first: 1, second: 2});
Objects as Class Interfaces
Objects that require specific keys are denoted using curly brace syntax:
void test(Object {String first, Number second} value)
//example of a valid function call
test({first: "first", second: 2});
Type Aliasing
Some types are aliases of more complex types. For example, in the example below, we created an alias called ComplexType
for the type from the previous example
void test(ComplexType value)
where:
ComplexType :: Object {String first, Number second}
//example of a valid function call
test({first: "first", second: 2})
Mixin Types
Curly brace syntax can also appear on other base types to denote that the value contains static members. For example, in the example below, a value of type ComplexType
is a string, but it also has a boolean property called flag
:
ComplexType :: String { Boolean flag }
//an example
var a = aComplexTypeValue
typeof a == "string" // true
"flag" in a // true
a.flag = true
In the following example, a value of type ComplexType
is a function, with a property called label
ComplexType :: void test() { String label }
//an example
var a = aComplexTypeValue
typeof a == "function" // true
"label" in a // true
a.label = "first"
Polimorphic Types
When multiple (but not all) types are accepted, the pipe |
is used to delimit the list of valid types
void test(Children children, Value value)
where:
Children :: Array<String text | Number number>
Value :: String | Number
//examples of valid function calls
test(["test", 2], "second")
test([1, 2, 3], "second")
test([1, "test", 3], 2)
Pipe syntax within Object curly brace syntax means that for a specific key name has specific type requirements.
In the example below, the value
parameter should be a key-value map. This map may contain a key called config
, whose value should be a function.
void test(Object { any | void config(DOMElement) } value)
//example of a valid function call
test({ first: "first", config: function(element) { /*do stuff*/ } })