- Dynamic Dispatch
- Dynamic Method
- Ghost Methods
- Dynamic Proxies
- Blank Slate
- Kernel Method
- Flattening the Scope (aka Nested Lexical Scopes)
- Context Probe
- Class Eval (not really a 'spell' more just a demonstration of its usage)
- Class Macros
- Around Alias
- Hook Methods
- Class Extension Mixin
- Module Namespace Interpolation
Forked from Integralist/0. Ruby Meta Programming - spells covered.md
Created
March 14, 2017 09:08
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Ruby Meta Programming
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# Dynamic Dispatch | |
# Allows us to send messages to even private methods | |
# object.send(message, *arguments) | |
1.send(:+, 2) # => 3 |
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# Dynamic Method | |
# Allows us to dynamically create methods | |
# define_method :method_name { block that becomes method body } | |
class Foo | |
define_method :bar do | |
puts "This is a dynamic method" | |
end | |
end | |
Foo.new.bar # => "This is a dynamic method" | |
# Dynamic Method | |
# Alternative example | |
class Bar | |
# we have to define this method on `self` (see below comment) | |
def self.create_method(method) | |
define_method "my_#{method}" do | |
puts "Dynamic method called 'my_#{method}'" | |
end | |
end | |
# these methods are executed within the definition of the Bar class | |
create_method :foo | |
create_method :bar | |
create_method :baz | |
end | |
Bar.new.my_foo # => "Dynamic method called 'my_foo'" | |
Bar.new.my_bar # => "Dynamic method called 'my_bar'" | |
Bar.new.my_baz # => "Dynamic method called 'my_baz'" | |
# Dynamic Method | |
# Parse another class for data | |
class AnotherClass | |
def get_foo_stuff; end | |
def get_bar_stuff; end | |
def get_baz_stuff; end | |
end | |
class Baz | |
def initialize(a_class) | |
a_class.methods.grep(/^get_(.*)_stuff$/) { Baz.create_method $1 } | |
end | |
def self.create_method(method) | |
define_method "my_#{method}" do | |
puts "Dynamic method called 'my_#{method}'" | |
end | |
end | |
end | |
another_class = AnotherClass.new | |
Baz.new(another_class).my_foo # => "Dynamic method called 'my_foo'" | |
Baz.new(another_class).my_bar # => "Dynamic method called 'my_bar'" | |
Baz.new(another_class).my_baz # => "Dynamic method called 'my_baz'" | |
class Foo | |
def initialize(bar) | |
self.class.send(:define_method, bar) { p "hello #{bar}!" } | |
end | |
end | |
foo = Foo.new("world") | |
foo.world # => "hello world!" |
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# Ghost Methods | |
# Utilises `method_missing` | |
class Hai | |
def method_missing(method, *args) | |
puts "You called: #{method}(#{args.join(', ')})" | |
puts "You also passed a block" if block_given? | |
end | |
end | |
Hai.new.yolo # => You called: yolo() | |
Hai.new.yolo "a", 123, :c # => You called: yolo(a, 123, c) | |
Hai.new.yolo(:a, :b, :c) { puts "a block" } # => You called: yolo(a, b, c) | |
# => You also passed a block |
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# Dynamic Proxies | |
# Catching "Ghost Methods" and forwarding them onto another method | |
# Whilst possibly adding logic around the call. | |
# | |
# For example, | |
# You can provide imaginary methods by utilising `method_missing` to parse | |
# the incoming message (e.g. `get_name`, `get_age`) and to delegate off to | |
# another method such as `get(:data_type)` where `:data_type` is `:name` or `:age`. | |
def method_missing(message, *args, &block) | |
return get($1.to_sym, *args, &block) if message.to_s =~ /^get_(.*)/ | |
super # if we don't find a match then we'll call the top level `BasicObject#method_missing` | |
end | |
# If (after analysis) you discover a performance issue with using `method_missing` | |
# you can utilise the "Dynamic Method" technique to create a real method after | |
# the message has been received by `method_missing` the first time. |
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# Blank Slate | |
# Prevents issues when using "Dynamic Proxies" | |
# | |
# e.g. user calls a method that exists higher up the inheritance chain | |
# so your `method_missing` doesn't fire because the method does exist. | |
# | |
# To work around this issue, make sure your class starts with a "Blank Slate" | |
# So you remove any methods you don't want to appear at all in the inheritance chain | |
# by using `undef_method` (there is also `remove_method` which doesn't remove the named | |
# method from the inheritance chain but just the current class, but that doesn't help us | |
# fix the "Dynamic Proxy" scenario so we use `undef_method` instead). | |
# | |
# For "Dynamic Proxy" we use the parent `method_missing` so we keep that, | |
# we also might use `respond_to?` so we keep that (although you can remove it if you don't). | |
# Also the `__` in the below regex pattern is to prevent Ruby from displaying a warning | |
# about removing 'reserved' methods such as `__id__` and `__send__` | |
class ImBlank | |
instance_methods.each do |m| | |
undef_method m unless m.to_s =~ /^__|method_missing|respond_to?/ | |
end | |
# rest of your code (such as your "Dynamic Proxy" implementation) | |
end |
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# Kernel Method | |
# Add a method that gives the illusion it's a language keyword | |
# But really it's just added to the `Kernel` module which all other objects inherit from. | |
# At the top level of a Ruby program `self` is == `main`. | |
# `self.class` == `Object` and the `Kernel` sits above it in the hierarchy. | |
# You can see this by running the following code: | |
class Foo; end | |
Foo.ancestors # => [Foo, Object, Kernel, BasicObject] | |
# So we can see we can add what looks to be a language provided feature like so: | |
module Kernel | |
def foobar | |
puts "I'm not a language keyword, I'm just a fake" | |
end | |
end | |
# Now from any where in our program we can call | |
foobar # => I'm not a language keyword, I'm just a fake |
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# Flattening the Scope (aka Nested Lexical Scopes) | |
# Where you change the code in such a way that it's easier for you to pass variables through "Scope Gates". | |
# A scope gate is any block, where normally when you enter its scope the variables outside of it become unreachable. | |
# This happens in: Class definitions, Module definitions, Method definitions | |
# I'm not sure what the real life examples are of this, but if you ever wonder why some code does the following, | |
# then maybe it was that they wanted to flatten the scope so they could more easily pass around variables. | |
# I guess it's better to do it this way than to define a global variable? | |
# | |
# In the following code we want to access `my_var` from inside the method (inner scope gate) that's | |
# inside the class (outer scope gate). | |
my_var = "abc" | |
class OuterScopeGate | |
puts my_var | |
def inner_scope_gate | |
puts my_var | |
end | |
end | |
# We fix this by flattening the code into method calls (method *calls* aren't scope gates) | |
# So we turn the class keyword into a method call using `Class.new` | |
# We also turn the method inside the class from a keyword into a method call using `define_method` | |
my_var = "abc" | |
MyClass = Class.new do | |
puts "Here is 'my_var' inside my class definition: #{my_var}" | |
define_method :my_method do | |
puts "Here is 'my_var' inside my class instance method: #{my_var}" | |
end | |
end # => Here is 'my_var' inside my class definition: abc | |
MyClass.new.my_method # => Here is 'my_var' inside my class instance method: abc |
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# Context Probe | |
# Execute a code block in the context of another object using `instance_eval` | |
class Foo | |
def initialize | |
@z = 1 | |
end | |
end | |
foo = Foo.new | |
foo.instance_eval do | |
puts self # => #<Foo:0x7d15e891> | |
puts @z # => 1 | |
end | |
new_value = 2 | |
foo.instance_eval { @z = new_value } | |
foo.instance_eval { puts @z } # => 2 | |
# There is also `instance_exec` which works the same way but allows passing arguments to the block | |
class Foo | |
def initialize | |
@x, @y = 1, 2 | |
end | |
end | |
Foo.new.instance_exec(3) { |arg| (@x + @y) * arg } # => 9 |
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# Evaluate a block in the context of a class | |
# Similar to re-opening a class but more flexible in that it | |
# works on any variable that references a class, where as re-opening | |
# a class requires defining a constant. | |
# Classic class re-opening style | |
class String | |
def m; puts "hello!" end | |
end | |
# Class eval style | |
# The extra code is used to make the example a bit more re-usable/abstracted | |
def add_method_to_class(the_class) | |
the_class.class_eval do | |
def m; puts "hello!" end | |
end | |
end | |
add_method_to_class String | |
"abc".m # => hello! |
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# Class Macros are just regular class methods that are only used in a class definition | |
# e.g. not used from a new instance of the class (only at the time the class is defined) | |
# | |
# Below is an example of a Class Macro that alerts users of a publically available class | |
# that the methods they've been using are now deprecated and they should use the renamed version. | |
# | |
# It uses "Dynamic Method" to help performance by creating the old methods again and delegating off | |
# to the new methods (rather than using `method_missing` which can be quite slow as it has to spend | |
# time looking up the inheritance chain) | |
class Foo | |
def get_a; puts "I'm an A" end | |
def get_b; puts "I'm an B" end | |
def get_c; puts "I'm an C" end | |
# Defining our Class Macro | |
def self.deprecate(old_method, new_method) | |
define_method(old_method) do |*args, &block| | |
puts "Warning: #{old_method} is deprecated! Use #{new_method} instead" | |
send(new_method, *args, &block) # `self` is assumed when calling `send` | |
end | |
end | |
# Using our Class Macro | |
deprecate :a, :get_a | |
deprecate :b, :get_b | |
deprecate :c, :get_c | |
end |
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# Around Alias uses the `alias` keyword to store a copy of the original method under a new name, | |
# allowing you to redefine the original method name and to delegate off to the previous method implementation | |
class String | |
alias :orig_length :length | |
def length | |
"Length of string '#{self}' is: #{orig_length}" | |
end | |
end | |
"abc".length | |
#=> "Length of string 'abc' is: 3" |
# Hook Methods are provided by the Ruby language and let you know about certain events
# such as when a class inherits from another class or when a method has been added to an object.
class String
def self.inherited(subclass)
puts "#{self} was inherited by #{subclass}"
end
end
class MyString < String; end # => String was inherited by MyString
There are quite a few hooks which I've listed below.
Method-related hooks
method_missing
method_added
singleton_method_added
method_removed
singleton_method_removed
method_undefined
singleton_method_undefined
Class & Module Hooks
inherited
append_features
included
extend_object
extended
initialize_copy
const_missing
Marshalling Hooks
marshal_dump
marshal_load
Coercion Hooks
coerce
induced_from
to_xxx
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# Class Extension Mixin allows you to both `include` and `extend` a class | |
module MyMixin | |
def self.included(base) # Hook Method | |
base.extend(ClassMethods) | |
end | |
def a | |
puts "I'm A (an instance method)" | |
end | |
module ClassMethods # "ClassMethods" is a recognised naming pattern | |
def x | |
puts "I'm X (a class method)" | |
end | |
end | |
end | |
class Foo | |
include MyMixin | |
end | |
Foo.x # => I'm X (a class method) | |
Foo.new.a # => I'm A (an instance method) |
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type = "baz" | |
Foo::Bar.const_get(type.capitalize).new # => new instance of Foo::Bar::Baz |
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