# A Space is a collection of pages. It stores objects, the data for the objects,
# not references. See Page for more detail.
# Pages are stored by the object size they represent in a hash.
# Space and Page work together in making *new* objects available.
# "New" is slightly misleading in that normal operation only ever
# recycles objects.
module Parfait
# Make the object space globally available
def self.object_space
@@object_space
end
# TODO Must get rid of the setter (move the boot process ?)
def self.set_object_space space
@@object_space = space
end
# The Space contains all objects for a program. In functional terms it is a program, but in oo
# it is a collection of objects, some of which are data, some classes, some functions
# The main entry is a function called (of all things) "main".
# This _must be supplied by the compled code (similar to c)
# There is a start and exit block that call main, which receives an List of strings
# While data ususally would live in a .data section, we may also "inline" it into the code
# in an oo system all data is represented as objects
class Space < Object
def initialize(classes )
@classes = classes
@types = Dictionary.new
message = Message.new(nil)
50.times do
@first_message = Message.new message
#puts "INIT caller #{message.object_id} to #{@first_message.object_id}"
message.set_caller @first_message
message = @first_message
end
@classes.each do |name , cl|
add_type(cl.instance_type)
end
end
attr_reader :classes , :first_message
def each_type
@types.values.each do |type|
yield(type)
end
end
def add_type(type)
hash = type.hash
raise "upps #{hash} #{hash.class}" unless hash.is_a?(Fixnum)
was = @types[hash]
return was if was
@types[hash] = type
end
def get_type_for( hash )
@types[hash]
end
# all methods form all types
def collect_methods
methods = []
each_type do | type |
type.methods.each do |meth|
methods << meth
end
end
methods
end
def get_main
kernel = get_class_by_name :Space
kernel.instance_type.get_method :main
end
def get_init
kernel = get_class_by_name :Kernel
kernel.instance_type.get_method :__init__
end
# get a class by name (symbol)
# return nili if no such class. Use bang version if create should be implicit
def get_class_by_name( name )
raise "get_class_by_name #{name}.#{name.class}" unless name.is_a?(Symbol)
c = @classes[name]
#puts "MISS, no class #{name} #{name.class}" unless c # " #{@classes}"
#puts "CLAZZ, #{name} #{c.get_type.get_length}" if c
c
end
# get or create the class by the (symbol) name
# notice that this method of creating classes implies Object superclass
def get_class_by_name!(name , super_class = :Object)
c = get_class_by_name(name)
return c if c
create_class( name ,super_class)
end
# this is the way to instantiate classes (not Parfait::Class.new)
# so we get and keep exactly one per name
def create_class( name , superclass = nil )
raise "create_class #{name.class}" unless name.is_a? Symbol
superclass = :Object unless superclass
raise "create_class #{superclass.class}" unless superclass.is_a? Symbol
type = get_class_by_name(superclass).instance_type
c = Class.new(name , superclass , type )
@classes[name] = c
end
def sof_reference_name
"space"
end
end
# ObjectSpace
# :each_object, :garbage_collect, :define_finalizer, :undefine_finalizer, :_id2ref, :count_objects
end