module Core class Kernel #there are no Kernel instances, only class methods. # We use this module syntax to avoid the (ugly) self (also eases searching). module ClassMethods def main_start block #TODO extract args into array of strings Vm::CMachine.instance.main_start block block end def main_exit block # Machine.exit mov r7 , 0 + swi 0 Vm::CMachine.instance.main_exit block block end def function_entry block , f_name Vm::CMachine.instance.function_entry block , f_name end def function_exit block , f_name Vm::CMachine.instance.function_exit block , f_name end #TODO this is in the wrong place. It is a function that returns a function object # while all other methods add their code into some block. --> kernel def putstring context function = Vm::Function.new(:putstring , [Vm::Integer , Vm::Integer ] ) block = function.body # should be another level of indirection, ie write(io,str) ret = Vm::CMachine.instance.write_stdout(block) function.return_type = ret function end def putint context function = Vm::Function.new(:putint , [Vm::Integer , Vm::Integer ] ) block = function.body buffer = Vm::StringConstant.new(" ") context.program.add_object buffer str_addr = Vm::Integer.new(0) # address of the context.str_addr = str_addr reg1 = Vm::Integer.new(1) itos_fun = context.program.get_or_create_function(:utoa) block.instance_eval do mov( reg1 , right: str_addr ) #move arg up add( str_addr , buffer ,nil ) # string to write to add( str_addr , str_addr , (buffer.length-3)) call( itos_fun , {}) # And now we "just" have to print it, using the write_stdout add( str_addr , left: buffer ) # string to write to mov( reg1 , right: buffer.length ) end ret = Vm::CMachine.instance.write_stdout(block) 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 def utoa context function = Vm::Function.new(:utoa , [Vm::Integer , Vm::Integer ] ) block = function.body str_addr = context.str_addr number = Vm::Integer.new(str_addr.register + 1) remainder = Vm::Integer.new( number.register + 1) Vm::CMachine.instance.div10( block , number , remainder ) # make char out of digit (by using ascii encoding) 48 == "0" block.instance_eval do add( remainder , remainder , 48 ) strb( remainder, right: str_addr ) sub( str_addr, str_addr , 1 ) cmp( number , 0 ) callne( function , {} ) end return function end end extend ClassMethods end end