module Register # the static info of a method (with its compiled code, argument names etc ) is part of the # runtime, ie found in Parfait::Method # Code-wise Methods are made up from a list of Blocks, in a similar way blocks are made up of # Instructions. The function starts with one block, and that has a start and end (return) # Blocks can be linked in two ways: # -linear: flow continues from one to the next as they are sequential both logically and # "physically" use the block set_next for this. # This "straight line", there must be a continuous sequence from body to return # Linear blocks may be created from an existing block with new_block # - branched: You create new blocks using function.new_block which gets added "after" return # These (eg if/while) blocks may themselves have linear blocks ,but the last of these # MUST have an uncoditional branch. And remember, all roads lead to return. class MethodSource # create method does two things # first it creates the parfait method, for the given class, with given argument names # second, it creates MethodSource and attaches it to the method # # compile code then works with the method, but adds code tot the info def self.create_method( class_name , return_type , method_name , args) raise "create_method #{class_name}.#{class_name.class}" unless class_name.is_a? Symbol raise "create_method #{method_name}.#{method_name.class}" unless method_name.is_a? Symbol clazz = Register.machine.space.get_class_by_name class_name raise "No such class #{class_name}" unless clazz arguments = [] args.each_with_index do | arg , index | unless arg.is_a? Parfait::Variable raise "not type #{arg}:#{arg.class}" unless Register.machine.space.get_class_by_name arg arg = Parfait::Variable.new arg , "arg#{index}".to_sym end arguments << arg end method = clazz.create_instance_method( method_name , Register.new_list(arguments)) method.source = MethodSource.new(method , return_type) method end # just passing the method object in for Instructions to make decisions (later) def initialize method , return_type init( method , return_type) end def init method , return_type = nil set_return_type( return_type ) @instructions = @current = Label.new(self, "Method_#{method.name}") add_code enter = Register.save_return(self, :message , :return_address) add_code Label.new( method, "return") # move the current message to new_message add_code RegisterTransfer.new(self, Register.message_reg , Register.new_message_reg ) # and restore the message from saved value in new_message add_code Register.get_slot(self,:new_message , :caller , :message ) #load the return address into pc, affecting return. (other cpus have commands for this, but not arm) add_code FunctionReturn.new( self , Register.new_message_reg , Register.resolve_index(:message , :return_address) ) @current = enter @constants = [] end attr_reader :constants , :return_type attr_accessor :current , :receiver , :instructions def set_return_type type return if type.nil? raise "not type #{type}" unless Register.machine.space.get_class_by_name type @return_type = type end # add an instruction after the current (insertion point) # the added instruction will become the new insertion point def add_code instruction unless instruction.is_a?(Instruction) raise instruction.to_s end @current.insert(instruction) #insert after current @current = instruction self end # set the insertion point (where code is added with add_code) def current ins @current = ins self end def byte_length @instructions.total_byte_length end # position of the function is the position of the entry block, is where we call def set_position at at += 8 #for the 2 header words @instructions.set_position at end end end