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I'm working on a project to recreate some of the functionality of ActiveRecord. Here's the portion that isn't working

module Associations
  def belongs_to(name, params)
    self.class.send(:define_method, :other_class) do |name, params|
      (params[:class_name] || name.camelize).constantize

    self.class.send(:define_method, :other_table_name) do |other_class|
    o_c = other_class(name, params)
    #puts this and other (working) values in a query
    query = <<-SQL
    #sends it off with db.execute(query)...

I'm building towards this testing file:

require 'all_files' #holds SQLClass & others

pets_db_file_name = File.expand_path(File.join(File.dirname(__FILE__), "pets.db"))

#class Person

class Pet < SQLClass
  set_attrs(:id, :name, :owner_id)

  belongs_to :person, :class_name => "Person", :primary_key => :id, :foreign_key => :owner_id

class Person < SQLClass
  set_attrs(:id, :name)

  has_many :pets, :foreign_key => :owner_id

Without any changes I received

.../active_support/inflector/methods.rb:230:in `block in constantize': uninitialized constant Person (NameError)

Just to make sure that it was an issue with the order of loading the classes in the file I began the file with the empty Person class, which, as predicted gave me

undefined method `table_name' for Person:Class (NoMethodError)

Since this is a learning project I don't want to change the test to make my code work (open all the classes, set all the tables/attributes then reopen them them for belongs_to. But, I'm stuck on how else to proceed.)


class SQLClass < AssignmentClass

    extend SearchMod

    extend Associations

    def self.set_table_name(table_name)
         @table_name = table_name

    def self.table_name
#some more methods for finding rows, and creating new rows in existing tables

And the relevant part of AssignmentClass uses send on attr_accessor to give functionality to set_attrs and makes sure that before you initialize a new instance of a class all the names match what was set using set_attrs.

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Well, what’s in SQLClass/how does Associations end up being in the models? –  Andrew Marshall May 26 '13 at 18:44
I use extend Associations in SQLClass, I'll edit with the relevant parts –  MCB May 26 '13 at 19:15

2 Answers 2

This highlights an important difference between dynamic, interpreted Ruby (et al) and static, compiled languages like Java/C#/C++. In Java, the compiler runs over all your source files, finds all the class/method definitions, and matches them up with usages. Ruby doesn't work like this -- a class "comes into existence" after executing its class block. Before that, the Ruby interpreter doesn't know anything about it.

In your test file, you define Pet first. Within the definition of Pet, you have belongs_to :person. belongs_to does :person.constantize, attempting to get the class object for Person. But Person doesn't exist yet! Its definition comes later in the test file.

There are a couple ways I can think that you could try to resolve this:

One would be to do what Rails does: define each class in its own file, and make the file names conform to some convention. Override constant_missing, and make it automatically load the file which defines the missing class. This will make load order problems resolve themselves automatically.

Another solution would be to make belongs_to lazy. Rather than looking up the Person class object immediately, it could just record the fact that there is an association between Pet and Person. When someone tries to call pet.person, use a missing_method hook to actually define the method. (Presumably, by that time all the class definitions will have been executed.)

Another way would be do something like:

define_method(belongs_to) do
  belongs_to_class = belongs_to.constantize
  self.class.send(:define_method, belongs_to) do
    # put actual definition here

This code is not tested, it's just to give you an idea! Though it's a pretty mind-bending idea, perhaps. Basically, you define a method which redefines itself the first time it is called. Just like using method_missing, this allows you to delay the class lookup until the first time the method is actually used.

If I can say one more thing: though you say you don't want to "overload" method_missing, I don't think that's as much of a problem as you think. It's just a matter of extracting code into helper methods to keep the definition of method_missing manageable. Maybe something like:

 def method_missing(name,*a,&b)
   if has_belongs_to_association?(name)
   elsif has_has_many_association?(name)
   # more...
share|improve this answer
If I understand correctly what you're suggesting with method_missing I have to consider that has_many and has_many_through are right around the corner. And I don't want to overburden method_missing. As for breaking them out into different files I mentioned in the question that I want to work towards the test, not change the test to work for my solution. –  MCB May 26 '13 at 21:31
up vote 0 down vote accepted

Progress! Inspired by Alex D's suggestion to use method_missing to delay the creation I instead used define_methodto create a method for the name, like so:

define_method, :other_class) do |name, params|
          (params[:class_name] || name.camelize).constantize

define_method(:other_table_name) do |other_class|


define_method(name) do #|params| turns out I didn't need to pass in `params` at all but:
        #p "---#{params} (This is line 31: when testing this out I got the strangest error
#.rb:31:in `block in belongs_to': wrong number of arguments (0 for 1) (ArgumentError)
#if anyone can explain this I would be grateful.
#I had declared an @params class instance variable and a getter for it,
#but nothing that should make params require an argument
        f_k = foreign_key(name, params)
        p f_k
        o_c = other_class(name, params)
        o_t_n = other_table_name(o_c)
        p_k = primary_key(params)

        query = <<-SQL
            SELECT *
            FROM #{o_t_n}
            WHERE #{p_k} = ?

        row = DBConnection.execute(query, self.send(f_k))
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