rubyx/lib/register/builtin/integer.rb

#integer related kernel functions
module Register
  module Builtin
    module Integer
      module ClassMethods
        def plus c
          plus_function = Virtual::MethodSource.create_method(:Integer,:plus , [:Integer] )
          plus_function.source.return_type = Virtual::Integer
          plus_function.source.receiver = Virtual::Integer
          
          tmp = Register.tmp_reg
          index = Register.arg_index 1
          plus_function.source.add_code Register.get_slot( plus_function , :message , index , tmp )
          add = Register::OperatorInstruction.new( plus_function, :add ,  tmp , Register.self_reg )
          plus_function.source.add_code add
          return plus_function
        end

        # The conversion to base10 is quite a bit more complicated than i thought.
        # The bulk of it is in div10
        # We set up variables, do the devision and write the result to the string
        # then check if were done and recurse if neccessary
        # As we write before we recurse (save a push) we write the number backwards
        # arguments: string address , integer
        # def utoa context
        #   utoa_function = Virtual::MethodSource.create_method(:Integer ,:utoa ,  [ Virtual::Integer ] )
        #   function.source.return_type = Virtual::Integer
        #   function.source.receiver = Virtual::Integer
        #   return utoa_function
        #   # str_addr = utoa_function.receiver
        #   # number = utoa_function.args.first
        #   # remainder = utoa_function.new_local
        #   # Virtual::RegisterMachine.instance.div10( utoa_function , number  , remainder )
        #   # # make char out of digit (by using ascii encoding) 48 == "0"
        #   # utoa_function.instance_eval do
        #   #   add(  remainder , remainder , 48)
        #   #   strb( remainder, str_addr )
        #   #   sub(  str_addr,  str_addr ,  1 )
        #   #   cmp(  number ,  0 )
        #   #   callne( utoa_function  )
        #   # end
        #   # return utoa_function
        # end

        def putint context
          putint_function = Virtual::MethodSource.create_method(:Integer,:putint , [] )
          putint_function.source.return_type = Virtual::Integer
          putint_function.source.receiver = Virtual::Integer
          return putint_function
          # buffer = Parfait::Word.new("           ") # create a buffer
          # context.object_space.add_object buffer              # and save it (function local variable: a no no)
          # int = putint_function.receiver
          # moved_int = putint_function.new_local
          # utoa = context.object_space.get_class_by_name(:Object).resolve_method(:utoa)
          # putint_function.instance_eval do
          #   mov( moved_int ,  int )     # move arg up
          #   add( int ,  buffer ,nil )   # string to write to (add string address to pc)
          #   add( int , int ,  buffer.length - 3) # 3 for good measure , ahem.
          #   call( utoa )
          #   after = new_block("after_call")
          #   insert_at after
          #   # And now we "just" have to print it, using the write_stdout
          #   add( int ,  buffer , nil )   # string to write to
          #   mov( moved_int ,  buffer.length )
          # end
          # Virtual::RegisterMachine.instance.write_stdout(putint_function)
          # putint_function
        end

        # testing method, hand coded fibo, expects arg in receiver_register
        # result comes in return_register
        # a hand coded version of the fibonachi numbers
        # not my hand off course, found in the net http://www.peter-cockerell.net/aalp/html/ch-5.html
        def fibo context
          fibo_function = Virtual::MethodSource.create_method(:Integer,:fibo ,  [] )
          fibo_function.source.return_type = Virtual::Integer
          fibo_function.source.receiver = Virtual::Integer
          return fibo_function
          # result = fibo_function.return_type
          # int = fibo_function.receiver
          #
          # last = fibo_function.new_block("return")
          #
          # f1 = fibo_function.new_local
          # f2 = fibo_function.new_local
          #
          # fibo_function.instance_eval do
          #   cmp  int , 1
          #   mov( result, int , condition_code: :le)
          #   ble( last ) #branch to return, rather than return (as the original)
          #   mov f1 , 1        #set up initial values
          #   mov f2 , 0
          # end
          #
          # loop = fibo_function.new_block("loop")
          # fibo_function.insert_at loop
          #
          # fibo_function.instance_eval do #loop through
          #   add f1 , f1 , f2             # f1 = f1 + f2
          #   sub f2 , f1 , f2             # f2 = f1 -f2
          #   sub int ,  int , 1  # todo: set.. should do below cmp, but doesn't , set_update_status: 1
          #   cmp int , 1
          #   bne( loop )
          #   mov( result , f1 )
          # end
          #
          # fibo_function
        end
      end
      extend ClassMethods
    end
  end
end
transformations according to todays post 2014-06-13 23:19:12 +02:00			`#integer related kernel functions`
finally scoping builtin to register had put this off because it breaks history but now the references to register stuff which builtin is off course full of, become much shorter 2015-06-29 20:03:58 +02:00			`module Register`
			`module Builtin`
			`module Integer`
			`module ClassMethods`
fxes for add test 2015-08-04 20:46:33 +02:00			`def plus c`
move to clss names as types so as not to mix ruby class names into parfait code 2015-08-06 17:28:40 +02:00			`plus_function = Virtual::MethodSource.create_method(:Integer,:plus , [:Integer] )`
fxes for add test 2015-08-04 20:46:33 +02:00			`plus_function.source.return_type = Virtual::Integer`
			`plus_function.source.receiver = Virtual::Integer`
fix test result, but not test yet 2015-08-07 15:46:55 +02:00
			`tmp = Register.tmp_reg`
			`index = Register.arg_index 1`
			`plus_function.source.add_code Register.get_slot( plus_function , :message , index , tmp )`
			`add = Register::OperatorInstruction.new( plus_function, :add , tmp , Register.self_reg )`
			`plus_function.source.add_code add`
fxes for add test 2015-08-04 20:46:33 +02:00			`return plus_function`
			`end`
fix test result, but not test yet 2015-08-07 15:46:55 +02:00
plus function, indentation 2015-08-05 17:49:37 +02:00			`# The conversion to base10 is quite a bit more complicated than i thought.`
			`# The bulk of it is in div10`
			`# We set up variables, do the devision and write the result to the string`
			`# then check if were done and recurse if neccessary`
			`# As we write before we recurse (save a push) we write the number backwards`
			`# arguments: string address , integer`
			`# def utoa context`
			`# utoa_function = Virtual::MethodSource.create_method(:Integer ,:utoa , [ Virtual::Integer ] )`
			`# function.source.return_type = Virtual::Integer`
			`# function.source.receiver = Virtual::Integer`
			`# return utoa_function`
			`# # str_addr = utoa_function.receiver`
			`# # number = utoa_function.args.first`
			`# # remainder = utoa_function.new_local`
			`# # Virtual::RegisterMachine.instance.div10( utoa_function , number , remainder )`
			`# # # make char out of digit (by using ascii encoding) 48 == "0"`
			`# # utoa_function.instance_eval do`
			`# # add( remainder , remainder , 48)`
			`# # strb( remainder, str_addr )`
			`# # sub( str_addr, str_addr , 1 )`
			`# # cmp( number , 0 )`
			`# # callne( utoa_function )`
			`# # end`
			`# # return utoa_function`
uncomment dead code it’s dead, unfair to say it’s untested. percentage wise i mean 2015-07-21 18:57:38 +02:00			`# end`
transformations according to todays post 2014-06-13 23:19:12 +02:00
plus function, indentation 2015-08-05 17:49:37 +02:00			`def putint context`
			`putint_function = Virtual::MethodSource.create_method(:Integer,:putint , [] )`
			`putint_function.source.return_type = Virtual::Integer`
			`putint_function.source.receiver = Virtual::Integer`
			`return putint_function`
			`# buffer = Parfait::Word.new(" ") # create a buffer`
			`# context.object_space.add_object buffer # and save it (function local variable: a no no)`
			`# int = putint_function.receiver`
			`# moved_int = putint_function.new_local`
			`# utoa = context.object_space.get_class_by_name(:Object).resolve_method(:utoa)`
			`# putint_function.instance_eval do`
			`# mov( moved_int , int ) # move arg up`
			`# add( int , buffer ,nil ) # string to write to (add string address to pc)`
			`# add( int , int , buffer.length - 3) # 3 for good measure , ahem.`
			`# call( utoa )`
			`# after = new_block("after_call")`
			`# insert_at after`
			`# # And now we "just" have to print it, using the write_stdout`
			`# add( int , buffer , nil ) # string to write to`
			`# mov( moved_int , buffer.length )`
			`# end`
			`# Virtual::RegisterMachine.instance.write_stdout(putint_function)`
			`# putint_function`
			`end`

			`# testing method, hand coded fibo, expects arg in receiver_register`
			`# result comes in return_register`
			`# a hand coded version of the fibonachi numbers`
			`# not my hand off course, found in the net http://www.peter-cockerell.net/aalp/html/ch-5.html`
			`def fibo context`
			`fibo_function = Virtual::MethodSource.create_method(:Integer,:fibo , [] )`
			`fibo_function.source.return_type = Virtual::Integer`
			`fibo_function.source.receiver = Virtual::Integer`
			`return fibo_function`
			`# result = fibo_function.return_type`
			`# int = fibo_function.receiver`
			`#`
			`# last = fibo_function.new_block("return")`
			`#`
			`# f1 = fibo_function.new_local`
			`# f2 = fibo_function.new_local`
			`#`
			`# fibo_function.instance_eval do`
			`# cmp int , 1`
			`# mov( result, int , condition_code: :le)`
			`# ble( last ) #branch to return, rather than return (as the original)`
			`# mov f1 , 1 #set up initial values`
			`# mov f2 , 0`
			`# end`
			`#`
			`# loop = fibo_function.new_block("loop")`
			`# fibo_function.insert_at loop`
			`#`
			`# fibo_function.instance_eval do #loop through`
			`# add f1 , f1 , f2 # f1 = f1 + f2`
			`# sub f2 , f1 , f2 # f2 = f1 -f2`
			`# sub int , int , 1 # todo: set.. should do below cmp, but doesn't , set_update_status: 1`
			`# cmp int , 1`
			`# bne( loop )`
			`# mov( result , f1 )`
			`# end`
			`#`
			`# fibo_function`
			`end`
finally scoping builtin to register had put this off because it breaks history but now the references to register stuff which builtin is off course full of, become much shorter 2015-06-29 20:03:58 +02:00			`end`
			`extend ClassMethods`
change to module style like other modules in this dir 2014-09-11 14:08:56 +02:00			`end`
transformations according to todays post 2014-06-13 23:19:12 +02:00			`end`
fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`end`