rubyx/lib/risc/builtin/object.rb

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module Risc
module Builtin
class Object
module ClassMethods
include CompileHelper
# self[index] basically. Index is the first arg
# return is stored in return_value
# (this method returns a new method off course, like all builtin)
def get_internal_word( context )
compiler = compiler_for(:Object , :get_internal_word ,{at: :Integer})
source = "get_internal_word"
me , index = compiler.self_and_int_arg(source)
# reduce me to me[index]
compiler.add_slot_to_reg( source , me , index , me)
# and put it back into the return value
compiler.add_reg_to_slot( source , me , :message , :return_value)
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compiler.add_mom( Mom::ReturnSequence.new)
return compiler.method
end
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# self[index] = val basically. Index is the first arg , value the second
# no return
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def set_internal_word( context )
compiler = compiler_for(:Object , :set_internal_word , {at: :Integer, :value => :Object} )
source = "set_internal_word"
me , index = compiler.self_and_int_arg(source)
value = compiler.load_int_arg_at(source , 2)
# do the set
compiler.add_reg_to_slot( source , value , me , index)
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compiler.add_mom( Mom::ReturnSequence.new)
return compiler.method
end
# every object needs a method missing.
# Even if it's just this one, sys_exit (later raise)
def _method_missing( context )
compiler = compiler_for(:Object,:method_missing ,{})
emit_syscall( compiler , :exit )
return compiler.method
end
# 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
compiler = Risc::MethodCompiler.create_method(:Object,:__init__ ,
Parfait::NamedList.type_for({}) , Parfait::NamedList.type_for({}))
builder = Risc::Builder.new(compiler)
builder.build_and_add do
space << Parfait.object_space
message << space[:first_message]
next_message << message[:next_message]
space[:first_message] << next_message
end
risc = Mom::MessageSetup.new(Parfait.object_space.get_main).build_with( builder )
compiler.add_code(risc)
builder.build_and_add do
message << message[:next_message]
message[:receiver] << space
end
exit_label = Risc.label("_exit_label for __init__" , "#{compiler.type.object_class.name}.#{compiler.method.name}" )
ret_tmp = compiler.use_reg(:Label)
compiler.add_load_constant("__init__ load return", exit_label , ret_tmp)
compiler.add_reg_to_slot("__init__ store return", ret_tmp , :message , :return_address)
compiler.add_function_call( "__init__ issue call" , Parfait.object_space.get_main , ret_tmp)
compiler.add_code exit_label
emit_syscall( compiler , :exit )
return compiler.method
end
def exit( context )
compiler = compiler_for(:Object,:exit ,{})
emit_syscall( compiler , :exit )
return compiler.method
end
def emit_syscall( compiler , name )
save_message( compiler )
compiler.add_code Syscall.new("emit_syscall(#{name})", name )
restore_message(compiler)
return unless (@clazz and @method)
compiler.add_label( "#{@clazz.name}.#{@message.name}" , "return_syscall" )
end
# save the current message, as the syscall destroys all context
#
# This relies on linux to save and restore all registers
#
def save_message(compiler)
r8 = RiscValue.new( :r8 , :Message)
compiler.add_transfer("save_message", Risc.message_reg , r8 )
end
def restore_message(compiler)
r8 = RiscValue.new( :r8 , :Message)
return_tmp = compiler.use_reg :fixnum
source = "_restore_message"
# get the sys return out of the way
compiler.add_transfer(source, Risc.message_reg , return_tmp )
# load the stored message into the base register
compiler.add_transfer(source, r8 , Risc.message_reg )
int = compiler.use_reg(:Integer)
compiler.add_new_int(source , return_tmp , int )
# save the return value into the message
compiler.add_reg_to_slot( source , int , :message , :return_value )
end
end
extend ClassMethods
end
end
end