module Risc # collect anything that is in the space and reachable (linker constants) # # The place we collect in is the position map in Position class module Collector # Collect all object that need to be added to the binary # This means the object_space and aby constants the linker has # we call keep on each object, see there for details # return all positions def self.collect_space(linker) keep Parfait.object_space linker.constants.each do |obj| keep(obj) end Position.positions end # keep "collects" the object for "keeping". Such objects get written to binary # keeping used to be done by adding to a hash, but now the object is # given a position, and the Position class has a hash of all positions # (the same hash has all objects, off course) def self.keep( object) collection = [] mark_1k( object , 0 , collection) collection.each do |obj| keep(obj) end end # marking object that make up the binary. # "Only" up to 1k stack depth, collect object that make up the "border" # # Collection is an empty arry that is passed on. Objects below 1k get added # So basically it "should" be a return, but then we would keep creating and adding # arrays, most of which would be empty def self.mark_1k(object , depth , collection) return if object.nil? if depth > 1000 collection << object return end return unless position!( object ) return unless object.respond_to? :has_type? type = object.get_type mark_1k(type , depth + 1 , collection) return if object.is_a? Symbol type.names.each do |name| mark_1k(name , depth + 1, collection) inst = object.get_instance_variable name mark_1k(inst , depth + 1, collection) end if object.is_a? Parfait::List object.each do |item| mark_1k(item , depth + 1, collection) end end end # Give the object a position. Position class keeps a list of all positions # and associated objects. The actual position is determined later, here a # Position object is assigned. # # All Objects that end up in the binary must have a Position. # # return if the position was assigned (true) or had been assigned already (false) def self.position!( objekt ) return false if Position.set?(objekt) return true if objekt.is_a? ::Integer return true if objekt.is_a? ::NilClass return true if objekt.is_a? ::TrueClass return true if objekt.is_a? ::FalseClass return true if objekt.is_a?( Risc::Label) #puts "ADD #{objekt.class.name}" unless objekt.is_a?( Parfait::Object) or objekt.is_a?( Symbol) raise "adding non parfait #{objekt.class}:#{objekt}" end #raise "Method #{objekt.name}" if objekt.is_a? Parfait::CallableMethod Position.get_or_create(objekt) true end end end