URLS

http://rubyforge.org/projects/codeforpeople/
http://codeforpeople.com/lib/ruby/traits

ABOUT

traits.rb is set of attr_* like methods on steroids, caffeine, and botox.  it
encourages better living through meta-programming and uniform access
priciples. traits.rb supports smart inheritence of class attributes and a
fistful of hooks for veryifying and munging attr values.

VERSION

0.9.1

HISTORY

0.9.0
  - luke kaines made quite a few suggestions and bug reports that enabled this
    release including making a few methods indifferent about string/symbol
    args/keys and the introduction of a simple method 'trait_init' that can be
    used to create keyword based initializers, eg:

      require 'traits'

      class C
        include TraitInit

        trait :a, :type => Integer
        trait :b, :type => Integer

        def initialize opts = {}
          trait_init opts
        end
      end

      C::new :a => 4, :b => 2

0.8.0
  - traits now supports a whole slew of hooks that can be registered to fire
    pre or post setting an attribute, to cast a value to another type, to
    munge a value destructively, to require only certain types, to require a
    certain ducktype signature, and to validate arguments passed.  check out
    sample/m.rb, sample/n.rb, or sample.o.rb to see it in action.  the
    mechanism is quite flexible allowing method names, lambdas of varying
    arity, and lists of either/or to be passed to any hook.

  - you can find a gem for trais on codeforpeople - but i've still not coded
    up automated updating from codeforpeople to rubyforge so it won't show up
    as a remote gem yet.

0.7.0
 - patched in the support i had written eariler for 'hooks' to be called
   pre/post setting a trait. plus shortcut to 'validate' traits which simply
   sets up a 'pre' hook which is used as a predicate.  eg:

      class C; trait 'number', 'validate' => proc{|n| Numeric === n}

   pre and post hooks are used in the same way, eg:

      class C
        trait 'a', 
          'pre' => proc{|val| p "#{ val } to set with"},
          'post' => proc{|val| p "#{ val } set"},
      end

   but the really cool thing is that all of these blocks are both passed the
   value in question but also evaluate with 'self' set appropriately.  eg

      class Car
        positive_int = lambda{|n| Fixnum === n and n > 0}
        legal = proc{|s| s < speed_limit}

        trait 'speed_limit', 'validate' => positive_int, 'default' => 42
        trait 'speed', 'validate' => legal
      end

      c = Car::new
      c.speed = 115

    works as you'd expect:

      (eval):14:in `speed=': validation of speed=(115) failed! (ArgumentError)
              from a.rb:13

0.6.0
  - fixed bug in where a default trait given as an empty array, eg:

      class C;  has 'a' => [];  end

    was exploded into the empty list when passed to the setter to initialize
    the default value.

0.5.0
  - general code cleanup

0.4.0
  - tweaked writer code so multiple values can be passed to setters
  - tweaked method of running blocks to use instance_eval so explicit 'this'
    arg is no longer needed (though it can still be used)

0.3.0
  added ability of default values to be specified with block for deferred
  context sensitive initialization (see sample/c.rb)

0.1.0

  completely reworked impl so NO parsing of inspect strings is required -
  it's all straight methods (albeit quite confusing ones) now.  the
  interface is unchanged.

0.0.0

  initial version

AUTHOR

ara [dot] t [dot] howard [at] noaa [dot] gov

SAMPLES

<========< sample/a.rb >========>

~ > cat sample/a.rb

  require 'traits'
  #
  # defining a trait is like attr_accessor in the simple case 
  #
  class C
    trait :t
  end

  o = C::new
  o.t = 42
  p o.t

  #
  # and can be made even shorter
  # 

  class B; has :x; end

  o = B::new
  o.x = 42
  p o.x 

~ > ruby sample/a.rb

  42
  42

<========< sample/b.rb >========>

~ > cat sample/b.rb

  require 'traits'
  #
  # multiple traits can be defined at once using a list/array of string/sybmol
  # arguments
  #
  class C
    has :t0, :t1
    has %w( t2 t3 ) 
  end

  obj = C::new
  obj.t0 = 4 
  obj.t3 = 2 
  print obj.t0, obj.t3, "\n"

~ > ruby sample/b.rb

  42

<========< sample/c.rb >========>

~ > cat sample/c.rb

  require 'traits'
  #
  # a hash argument can be used to specify default values
  #
  class C
    has 'a' => 4, :b => 2 
  end

  o = C::new
  print o.a, o.b, "\n"

  #
  # and these traits are smartly inherited
  #
  class K < C; end

  o = K::new
  o.a = 40
  p( o.a + o.b ) # note that we pick up a default b from C class here since it
                 # has not been set

  o.a = 42
  o.b = nil
  p( o.b || o.a ) # but not here since we've explicitly set it to nil

  #
  # if a block is specifed as the default the initialization of the default value
  # is deferred until needed which makes for quite natural trait definitions.  the
  # block is passed 'self' so references to the current object can be made. (if
  # this were not done 'self' in the block would be bound to the class!)
  #

  class C
    class << self
      has('classname'){ name.upcase }
    end

    has('classname'){ self.class.classname.downcase }
  end

  class B < C; end

  o = C::new
  p C::classname
  p o.classname

  o = B::new
  p B::classname
  p o.classname

~ > ruby sample/c.rb

  42
  42
  42
  "C"
  "c"
  "B"
  "b"

<========< sample/d.rb >========>

~ > cat sample/d.rb

  require 'traits'
  #
  # all behaviours work within class scope (metal/singleton-class) to define
  # class methods
  #
  class C
    class << self
      traits 'a' => 4, 'b' => 2
    end
  end

  print C::a, C::b, "\n"

  #
  # singleton methods can even be defined on objects
  #

  class << (a = %w[dog cat ostrich])
    has 'category' => 'pets' 
  end
  p a.category

  #
  # and modules
  #
  module Mmmm
    class << self; trait 'good' => 'bacon'; end 
  end

  p Mmmm.good

~ > ruby sample/d.rb

  42
  "pets"
  "bacon"

<========< sample/e.rb >========>

~ > cat sample/e.rb

  require 'traits'
  #
  # shorhands exit to enter 'class << self' in order to define class traits
  #
  class C
    class_trait 'a' => 4
    c_has :b => 2 
  end

  print C::a, C::b, "\n"

~ > ruby sample/e.rb

  42

<========< sample/f.rb >========>

~ > cat sample/f.rb

  require 'traits'
  #
  # as traits are defined they are remembered and can be accessed 
  #
  class C
    class_trait :first_class_method
    trait :first_instance_method
  end

  class C
    class_trait :second_class_method
    trait :second_instance_method
  end

  #
  # readers and writers are remembered separatedly
  #
  p C::class_reader_traits 
  p C::instance_writer_traits 

  #
  # and can be gotten together at class or instance level
  #
  p C::class_traits
  p C::traits

~ > ruby sample/f.rb

  ["first_class_method", "second_class_method"]
  ["first_instance_method=", "second_instance_method="]
  [["first_class_method", "first_class_method="], ["second_class_method", "second_class_method="]]
  [["first_instance_method", "first_instance_method="], ["second_instance_method", "second_instance_method="]]

<========< sample/g.rb >========>

~ > cat sample/g.rb

  require 'traits'
  #
  # another neat feature is that they are remembered per hierarchy 
  #
  class C
    class_traits :base_class_method
    trait :base_instance_method
  end

  class K < C
    class_traits :derived_class_method
    trait :derived_instance_method
  end

  p C::class_traits 
  p K::class_traits 

~ > ruby sample/g.rb

  [["base_class_method", "base_class_method="]]
  [["derived_class_method", "derived_class_method="], ["base_class_method", "base_class_method="]]

<========< sample/h.rb >========>

~ > cat sample/h.rb

  require 'traits'
  #
  # a depth first search path is used to find defaults 
  #
  class C
    has 'a' => 42 
  end
  class K < C; end

  k = K::new
  p k.a 

  #
  # once assigned this is short-circuited
  #
  k.a = 'forty-two'
  p k.a 

~ > ruby sample/h.rb

  42
  "forty-two"

<========< sample/i.rb >========>

~ > cat sample/i.rb

  require 'traits'
  #
  # getters and setters can be defined separately 
  #
  class C
    has_r :r
  end
  class D
    has_w :w
  end

  #
  # defining a reader trait still defines __public__ query and __private__ writer
  # methods
  #
  class C
    def using_private_writer_and_query
      p r?
      self.r = 42
      p r
    end
  end
  C::new.using_private_writer_and_query

  #
  # defining a writer trait still defines __private__ query and __private__ reader
  # methods
  #
  class D
    def using_private_reader
      p w?
      self.w = 'forty-two' 
      p w
    end
  end
  D::new.using_private_reader

~ > ruby sample/i.rb

  false
  42
  false
  "forty-two"

<========< sample/j.rb >========>

~ > cat sample/j.rb

  require 'traits'
  #
  # getters delegate to setters iff called with arguments 
  #
  class AbstractWidget
    class_trait 'color' => 'pinky-green'
    class_trait 'size' => 42
    class_trait 'shape' => 'square'

    # we define instance traits which get their default from the class
    %w( color size shape ).each{|t| trait(t){self.class.send t}}

    def inspect
      "color <#{ color }> size <#{ size }> shape <#{ shape }>"
    end
  end

  class BlueWidget < AbstractWidget
    color 'blue'
    size 420
  end

  p BlueWidget::new

~ > ruby sample/j.rb

  color <blue> size <420> shape <square>

<========< sample/k.rb >========>

~ > cat sample/k.rb

  require 'traits'
  #
  # the rememberance of traits can make generic intializers pretty slick 
  #
  class C 
    #
    # define class traits with defaults
    #
    class_traits(
      'a' => 40,
      'b' => 1,
      'c' => 0
    ) 

    #
    # define instance traits whose defaults come from readable class ones
    #
    class_rtraits.each{|ct| instance_trait ct => send(ct)}

    #
    # any option we respond_to? clobbers defaults
    #
    def initialize opts = {}
      opts.each{|k,v| send(k,v) if respond_to? k}
    end

    #
    # show anything we can read
    #
    def inspect
      self.class.rtraits.inject(0){|n,t| n += send(t)}
    end
  end

  c = C::new 'c' => 1
  p c

~ > ruby sample/k.rb

  42

<========< sample/l.rb >========>

~ > cat sample/l.rb

  require 'traits'
  #
  # even defining single methods on object behaves
  #
  a = [] 

  class << a
    trait 'singleton_class' => class << self;self;end

    class << self 
      class_trait 'x' => 42
    end
  end

  p a.singleton_class.x

~ > ruby sample/l.rb

  42

<========< sample/m.rb >========>

~ > cat sample/m.rb

  require 'traits'
  #
  # pre and post hooks can be passed a proc or the name of a method, the arity is
  # detected and the proc/method sent either the value, or the name/value pair
  #

  class C
    HOOK_A = lambda{|value| puts "HOOK_A : #{ value }"}
    HOOK_B = lambda{|name, value| puts "HOOK_B : #{ name } = #{ value }"}

    def hook_a value
      puts "hook_a : #{ value }"
    end
    def hook_b name, value
      puts "hook_b : #{ name } = #{ value }"
    end

    trait 'x', 'pre' => HOOK_A, 'post' => 'hook_b'
    trait 'y', 'pre' => HOOK_B, 'post' => 'hook_a'
  end

  c = C::new
  c.x = 42
  c.y = 'forty-two'

~ > ruby sample/m.rb

  HOOK_A : 42
  hook_b : x = 42
  HOOK_B : y = forty-two
  hook_a : forty-two

<========< sample/n.rb >========>

~ > cat sample/n.rb

  require 'traits'
  #
  # two kinds of in-place modifications are supported : casting and munging. 
  # casting is a hook that requires either a proc or the name of a method that
  # will be used to convert the objects type.  munging is similar execpt the
  # method is called on the object itself.  like all hooks, lists may be provided
  # instead of a single argument
  #
  # you'll notice that the hooks and methods defined here are not strictly needed,
  # but are for illustration purposes only.  note that all hooks operate in the
  # context of self - they have access to instance vars, etc., like instance_eval
  #

  class C
    INT = lambda{|i| int i}
    def int i
      Integer i
    end
    trait 'a', 'cast' => 'int'
    trait 'b', 'cast' => INT 
    trait 'c', 'munge' => 'to_i' 
    trait 'd', 'cast' => 'Integer' 
    trait 'e', 'munge' => %w( to_i abs )
  end

  c = C::new

  c.a = '42'
  p c.a
  c.b = '42'
  p c.b
  c.c = '42'
  p c.c
  c.d = '42'
  p c.d
  c.e = '-42'
  p c.e

~ > ruby sample/n.rb

  42
  42
  42
  42
  42

<========< sample/p.rb >========>

~ > cat sample/p.rb

  require 'traits'
  #
  # the TraitInit module provide a simple method for initializing an object's
  # traits from an options hash
  #

  class C
    include TraitInit

    LIST_OF_INTS = lambda{|a| Array === a and a.map{|i| Integer === i}.all?}
    LIST_OF_STRINGS = lambda{|a| Array === a and a.map{|s| String === s}.all?}

    trait :li, :validate => LIST_OF_INTS
    trait :ls, :validate => LIST_OF_STRINGS

    def initialize opts = {}
      trait_init opts
    end
  end

  c = C::new "li" => [4, 2], "ls" => %w[4 2]
  p c.li.join
  p c.ls.join

~ > ruby sample/p.rb

  "42"
  "42"

CAVEATS

this library is experimental and subject to change - though it has not for
several versions and much of my code hinges is on it now so you can expect the
interface to be stable in the near future - the only changes planned are those
that fix bugs or add features.

LICENSE

same as ruby's