module Builtin module Kernel module ClassMethods # this is the really really first place the machine starts (apart from the jump here) # it isn't really a function, ie it is jumped to (not called), exits and may not return # so it is responsible for initial setup def __init__ context function = Virtual::CompiledMethodInfo.create_method(:Kernel,:__init__ , []) function.info.return_type = Virtual::Integer # no method enter or return (automatically added), remove function.info.blocks.first.codes.pop # no Method enter function.info.blocks.last.codes.pop # no Method return #Set up the Space as self upon init space = Parfait::Space.object_space function.info.add_code Register::LoadConstant.new( space , Register::RegisterReference.self_reg) message_ind = space.get_layout().index_of( :next_message ) # Load the message to message register (0) function.info.add_code Register::GetSlot.new( Register::RegisterReference.self_reg , message_ind , Register::RegisterReference.new_message_reg) # And store the space as the new self (so the call can move it back as self) function.info.add_code Register::SetSlot.new( Register::RegisterReference.self_reg , Register::RegisterReference.new_message_reg , Virtual::SELF_INDEX) # now we are set up to issue a call to the main function.info.add_code Virtual::MethodCall.new(Virtual.machine.space.get_main) emit_syscall( function , :exit ) return function end def putstring context function = Virtual::CompiledMethodInfo.create_method(:Kernel , :putstring , [] ) emit_syscall( function , :putstring ) function end def exit context function = Virtual::CompiledMethodInfo.create_method(:Kernel,:exit , []) function.info.return_type = Virtual::Integer return function ret = Virtual::RegisterMachine.instance.exit(function) function.set_return ret function end def __send context function = Virtual::CompiledMethodInfo.create_method(:Kernel ,:__send , [] ) function.info.return_type = Virtual::Integer return function end private def emit_syscall function , name save_message( function ) function.info.add_code Register::Syscall.new( name ) restore_message(function) end # save the current message, as the syscall destroys all context # # currently HACKED into the space as a temporary varaible. As the space is a globally # unique object we can retrieve it from there # TODO : fix this to use global (later per thread) variable def save_message(function) space_tmp = Register::RegisterReference.tmp_reg ind = Parfait::Space.object_space.get_layout().index_of( :syscall_message ) raise "index not found for :syscall_message" unless ind function.info.add_code Register::LoadConstant.new( Parfait::Space.object_space , space_tmp) function.info.add_code Register::SetSlot.new( Register::RegisterReference.message_reg , space_tmp , ind) end def restore_message(function) # get the sys return out of the way return_tmp = Register::RegisterReference.tmp_reg # load the space into the base register function.info.add_code Register::RegisterTransfer.new( return_tmp , Register::RegisterReference.message_reg ) slot = Virtual::Slot # find the stored message ind = Parfait::Space.object_space.get_layout().index_of( :syscall_message ) raise "index not found for #{kind}.#{kind.class}" unless ind # and load it into the base RegisterMachine function.info.add_code Register::GetSlot.new( Register::RegisterReference.message_reg , ind , Register::RegisterReference.message_reg ) # and "unroll" self and frame function.info.add_code Register::GetSlot.new( Register::RegisterReference.message_reg , Virtual::SELF_INDEX, Register::RegisterReference.self_reg ) function.info.add_code Register::GetSlot.new( Register::RegisterReference.message_reg , Virtual::FRAME_INDEX, Register::RegisterReference.frame_reg ) end end extend ClassMethods end end