Static methods and properties¶
In MuranoPL, static denotes class methods and class properties (as opposed to instance methods and instance properties). These methods and properties can be accessed without an instance present.
Static methods are often used for helper methods that are not bound to any object (that is, do not maintain a state) or as a convenient way to write a class factory.
Type objects¶
Usually static methods and properties are accessed using type object. That is, an object that represents the class rather than class instance.
For any given class foo.Bar its type object may be retrieved using any of the following ways:
- Using
ns:Bar
notation considering that ns is declared in Namespaces section (and it is foo in this case), - Using
:Bar
syntax if Bar is in the current namespace (that is, what=:Bar
would mean if=
was a valid namespace prefix), - Using
type()
function with a fully qualified class name:type('foo.Bar')
, - By obtaining a type of class instance:
type($object)
(available for packages with format version starting from 1.3), - Through reflection:
typeinfo($object).type
.
No matter what method was used to get type object, the returned object will be the same because there can be only one type object per class.
All functions that accept type name, for example new()
function, also
accept type objects.
Accessing static methods and properties¶
Static methods can be invoked using one of the two ways:
- Using type object:
ns:Bar.foo(arg)
,:Bar.foo(arg)
, and so on,- On a class instance similar to normal methods:
$obj.foo(arg)
.
- Access to properties is similar to that:
- Using type object:
ns:Bar.property
,:Bar.property
, and so on, - On a class instance:
$obj.property
.
- Using type object:
Static properties are defined on a class rather than on an instance. Therefore, their values will be the same for all class instances (for particular version of the class).
Declaration of static methods and properties¶
Methods and properties are declared to be static by specifying
Usage: Static
on them.
For example:
Properties:
property:
Contract: $.string()
Usage: Static
Methods:
foo:
Usage: Static
Body:
- Return: $.property
Static properties are never initialized from object model but can be modified
from within MuranoPL code (i.e. they are not immutable).
Static methods also can be executed as an action from outside using
Scope: Public
. Within static method Body $this
(and $
if not
set to something else in expression) are set to type object rather than to
instance, as it is for regular methods.
Static methods written in Python¶
For MuranoPL classes entirely or partially written in Python, all methods
that have either @staticmethod
or @classmethod
decorators are
automatically imported as static methods and work as they normally do in
Python.
Extension methods¶
Extension methods are a special kind of static methods that can act as if they were regular instance methods of some other type.
Extension methods enable you to “add” methods to existing types without modifying the original type.
Defining extension methods¶
Extension methods are declared with the Usage: Extension
modifier.
For example:
Name: SampleClass
Methods:
mul:
Usage: Extension
Arguments:
- self:
Contract: $.int().notNull()
- arg:
Contract: $.int().notNull()
Body:
Return: $self * $arg
Extension method are said to extend some other type and that type is deducted from the first method argument contract. Thus extension methods must have at least one argument.
Extension methods can also be written in Python just the same way as static methods. However one should be careful in method declaration and use precise YAQL specification of the type of first method argument otherwise the method will become an extension of any type.
To turn Python static method into extension method it must be decorated with
@yaql.language.specs.meta('Usage', 'Extension')
decorator.
Using extension methods¶
The example above defines a method that extends integer type. Therefore, with
the method above it becomes possible to say 2.mul(3)
. However, the most
often usage is to extend some existing MuranoPL class using class()
contract.
If the first argument contract does not have notNull()
, then the method
can be invoked on the null
object as well (like null.foo()
).
Extension methods are static methods and, therefore,can be invoked in a usual
way on type object: :SampleClass.mul(2, 3)
. However, unlike regular static
methods extensions cannot be invoked on a class instance because this can
result in ambiguity.
Using extension lookup order¶
When somewhere in the code the $foo.bar()
expression is encountered, MuranoPL
uses the following order to locate bar() implementation
:
- If there is an instance or static method in
$foo
‘s class, it will be used. - Otherwise if the current class (where this expression was encountered) has
an extension method called
bar
and$foo
satisfies the contract of its first argument, then this method will be called.
Normally, if no method was found an exception will be raised. However,
additional extension methods can be imported into the current context. This is
done using the Import
keyword on a class level. The Import
section
specifies either a list or a single type name (or type object) which extension
methods will be available anywhere within the class code:
Name: MyClass
Import:
- ns:SomeOtherType
- :ClassFomCurrentContext
- 'io.murano.foo.Bar'
If no method was found with the algorithm above, the search continues on
extension methods of all classes listed in the Import
section in the order
types are listed.