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The goal of bandicoot
is to provide a set of tools for
building light-weight object oriented system, which has Python-like
syntax and duner methods for simplicity, but uses static dispatch for
less overhead. This system also allows multiple inheritances and
provides Python-like method resolution order for the possibility of
implementing dynamic dispatch by users.
This system is inspired by the OOP systems implemented in R6 and Python.
library(bandicoot)
1.1. Define a new class
A class can be defined with the new_class
function. All
positional arguments are for specifying parent classes,
BASE
is the base object class provided by the package, you
don’t need to manually specify it. But if you would like to have
advanced behaviour, you can try to implement your own
object
class.
Class name is mandatory and should be unique.
# You don't actually need to specify BASE here. This is only for demonstration.
<- new_class(BASE, class_name = "DEMO")
DEMO
DEMO#>
#> ── <DEMO class>
The object is an environment containing some useful attributes and methods.
OBJECT$..type..
gives the current class name.OBJECT$..class..
gives the current class name and
parent class names.$..type..
DEMO#> [1] "DEMO"
$..class..
DEMO#> [1] "DEMO" "BASE"
OBJECT$..dir..()
returns all names of attribute and
method of the object.OBJECT$..methods..()
returns all names of method of the
object$..dir..()
DEMO#> [1] "..mro.." "..bases.." "..str.." "..len.."
#> [5] "..class.." "..new.." "has_attr" "del_attr"
#> [9] "..repr.." "set_attr" "..type.." "get_attr"
#> [13] "..dir.." "..methods.." "..method_env.." "..instantiated.."
#> [17] "..init.." "..class_tree.." "instantiate"
$..methods..()
DEMO#> [1] "..str.." "..len.." "..new.." "has_attr" "del_attr"
#> [6] "..repr.." "set_attr" "get_attr" "..dir.." "..methods.."
#> [11] "..init.." "instantiate"
OBJECT$..str..()
returns a string representation of the
object, which will be used by the S3 print()
method. This
method usually needs to be overridden in subclass to give short summary
of the object.$..str..()
DEMO#> [1] "<DEMO class>"
1.2. Register a method for the class
Methods can be registered by using register_method()
.
The first argument is the object you want to bind the function to, the
rest of the positional arguments are for specifying method names and
functions. The syntax is method_name = function
.
You can choose to write inline function or pass pre-defined function.
The associative environment of the function doesn’t matter, it will be
modified by the register_method()
function.
<- function() 1 + 2
pre_defined_fn
register_method(DEMO, inline_fn = function() 1 + 1, pre_defined_fn = pre_defined_fn)
$inline_fn()
DEMO#> [1] 2
$pre_defined_fn()
DEMO#> [1] 3
For method that needs to access the object itself, just simply use
self
in your method. It is an reference to the object.
$val <- 5
DEMO
register_method(DEMO, get_val = function() self$val)
$get_val()
DEMO#> [1] 5
1.3. Override the ..init..()
method
..init..()
method is for instance initialization. To
override the ..init..()
method, you need to use the
register_method()
to register it again.
<- function(first_name, employee_id) {
init $first_name <- first_name
self$employee_id <- employee_id
self
}
register_method(DEMO, ..init.. = init)
Now the class requires two two arguments first_name
and
employee_id
to initialize the instance.
1.4. Build an instance
To new and initialize an instance, you need to use the
instantiate()
method. The output will show it is an
object.
<- DEMO$instantiate("Mike", 25)
mike
mike#>
#> ── <DEMO object>
first_name
and employee_id
are stored in
the object because of the ..init..()
method.
$first_name
mike#> [1] "Mike"
$employee_id
mike#> [1] 25
1.5. A complete workflow
It is recommend to write your class definition in a function to make
debugging easier. The following example new a class DEMO_2
,
defines its own ..init..()
method, defines a
get_email()
function for retrieving the email address,
defines its own ..str..()
method such that when we print
the object, it will provide us with a nicely formatted summary.
super()
returns the next class of the method resolution
order, which will always be the parent class in single inheritance, but
not necessary in multiple inheritance.
use_method()
is used to run methods from other classes,
which in this case, the ..str..()
method from the parent
class (BASE
).
<- function(env = new.env(parent = parent.frame())) {
class_DEMO_2
new_class(env = env, class_name = "DEMO_2")
<- function(first_name, employee_id) {
init_ $first_name <- first_name
self$employee_id <- employee_id
self
}
<- function() {
get_email_ paste0(self$first_name, "_", self$employee_id, "@company.com")
}
<- function() {
str_ paste(use_method(self, super()$..str..)(),
paste("Name:", self$first_name,
"\nEmployee ID:", self$employee_id,
"\nEmail:", self$get_email()),
sep = "\n")
}
register_method(env,
..init.. = init_,
get_email = get_email_,
..str.. = str_)
return(env)
}
<- class_DEMO_2()
DEMO_2 <- DEMO_2$instantiate("Mike", 25)
mike $get_email()
mike#> [1] "Mike_25@company.com"
$..str..()
mike#> [1] "<DEMO_2 object>\nName: Mike \nEmployee ID: 25 \nEmail: Mike_25@company.com"
mike#>
#> ── <DEMO_2 object>
#> Name: Mike
#> Employee ID: 25
#> Email: Mike_25@company.com
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.
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