4d30727811
mostly just fixing the additional instructions close #20
216 lines
7.8 KiB
Ruby
216 lines
7.8 KiB
Ruby
module Risc
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# A Builder is used to generate code, either by using it's api, or dsl
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#
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# The code is added to the method_compiler.
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#
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class Builder
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attr_reader :built , :compiler
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# pass a compiler, to which instruction are added (usually)
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# second arg determines weather instructions are added (default true)
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# call build with a block to build
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def initialize(compiler, for_source)
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raise "no compiler" unless compiler
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@compiler = compiler
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@source = for_source
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@source_used = false
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@names = {}
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end
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# make the magic: convert incoming names into registers that have the
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# type set according to the name (using resolve_type)
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# names are stored, so subsequent calls use the same register
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def method_missing(name , *args)
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super if args.length != 0
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name = name.to_s
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return @names[name] if @names.has_key?(name)
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if name == "message"
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return Risc.message_reg.set_builder(self)
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end
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if name.index("label")
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reg = Risc.label( @source , "#{name}_#{object_id}")
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@source_used = true
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else
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last_char = name[-1]
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name = name[0 ... -1]
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if last_char == "!" or last_char == "?"
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if @names.has_key?(name)
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return @names[name] if last_char == "?"
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raise "Name exists (#{@names.keys})before creating it #{name}#{last_char}"
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end
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else
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raise "Must create (with ! or ?) before using #{name}#{last_char}"
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end
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type = infer_type(name )
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reg = @compiler.use_reg( type.object_class.name ).set_builder(self)
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end
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@names[name] = reg
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reg
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end
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# Infer the type from a symbol. In the simplest case the symbol is the class name.
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# But in building, sometimes variations are needed, so next_message or caller work
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# too (and both return "Message")
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# A general "_reg"/"_obj"/"_const" or "_tmp" at the end of the name will be removed
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# An error is raised if the symbol/object can not be inferred
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def infer_type( name )
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as_string = name.to_s
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parts = as_string.split("_")
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if( ["reg" , "obj" , "tmp" , "self" , "const", "1" , "2"].include?( parts.last ) )
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parts.pop
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as_string = parts.join("_")
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end
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as_string = "word" if as_string == "name"
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as_string = "message" if as_string == "next_message"
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as_string = "message" if as_string == "caller"
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as_string = "named_list" if as_string == "arguments"
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sym = as_string.camelise.to_sym
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clazz = Parfait.object_space.get_class_by_name(sym)
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raise "Not implemented/found object #{name}:#{sym}" unless clazz
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return clazz.instance_type
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end
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def if_zero( label )
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@source_used = true
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add_code Risc::IsZero.new(@source , label)
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end
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def if_not_zero( label )
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@source_used = true
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add_code Risc::IsNotZero.new(@source , label)
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end
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def if_minus( label )
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@source_used = true
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add_code Risc::IsMinus.new(@source , label)
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end
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def branch( label )
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@source_used = true
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add_code Risc::Branch.new(@source, label)
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end
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# To avoid many an if, it can be handy to swap variable names.
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# But since the names in the builder are not variables, we need this method.
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# As it says, swap the two names around. Names must exist
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def swap_names(left , right)
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left , right = left.to_s , right.to_s
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l = @names[left]
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r = @names[right]
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raise "No such name #{left}" unless l
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raise "No such name #{right}" unless r
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@names[left] = r
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@names[right] = l
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end
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# Reset the names stored by the builder. The names are sort of variables names
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# that can be used in the build block due to method_missing magic.
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#
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# But just as the compiler has reset_regs, the builder has this reset button, to
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# start fresh. Quite crude for now, and only used in allocate_int
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#
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# Compiler regs are reset as well
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def reset_names
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@names = {}
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compiler.reset_regs
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end
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# Build code using dsl (see __init__ or MessageSetup for examples).
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# Names (that ruby would resolve to a variable/method) are converted
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# to registers. << means assignment and [] is supported both on
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# L and R values (but only one at a time). R values may also be constants.
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#
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# Basically this allows to create LoadConstant, RegToSlot, SlotToReg and
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# Transfer instructions with extremely readable code.
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# example:
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# space << Parfait.object_space # load constant
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# message[:receiver] << space #make current message's (r0) receiver the space
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#
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# build result is added to compiler directly
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#
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def build(&block)
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instance_eval(&block)
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end
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# add code straight to the compiler
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def add_code(ins)
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@compiler.add_code(ins)
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return ins
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end
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# for some methods that return an integer it is beneficial to pre allocate the
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# integer and store it in the return value. That is what this function does.
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#
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# Those (builtin) methods, mostly syscall wrappers then go on to do this and that
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# clobbering registers and so the allocate and even move would be difficult.
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# We sidestep all that by pre-allocating.
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def prepare_int_return
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integer_tmp = allocate_int
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reset_names
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build do
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message[:return_value] << integer_tmp
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end
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end
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# allocate int fetches a new int, for sure. It is a builder method, rather than
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# an inbuilt one, to avoid call overhead for 99.9%
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# The factories allocate in 1k, so only when that runs out do we really need a call.
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# Note:
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# Unfortunately (or so me thinks), this creates code bloat, as the calling is
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# included in 100%, but only needed in 0.1. Risc-level Blocks or Macros may be needed.
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# as the calling in (the same) 40-50 instructions for every basic int op.
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#
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# The method
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# - grabs a Integer instance from the Integer factory
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# - checks for nil and calls (get_more) for more if needed
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# - returns the RiscValue (Register) where the object is found
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#
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# The implicit condition is that the method is called at the entry of a method.
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# It uses a fair few registers and resets all at the end. The returned object
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# will always be in r1, because the method resets, and all others will be clobbered.
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#
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# Return RegisterValue(:r1) that will be named integer_tmp
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def allocate_int
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compiler.reset_regs
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integer = self.integer!
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build do
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factory! << Parfait.object_space.get_factory_for(:Integer)
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integer << factory[:next_object]
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object! << Parfait.object_space.nil_object
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object - integer
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if_not_zero cont_label
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integer_2! << factory[:reserve]
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factory[:next_object] << integer_2
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call_get_more
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integer << factory[:next_object]
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add_code cont_label
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integer_2 << integer[:next_integer]
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factory[:next_object] << integer_2
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end
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reset_names
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integer_tmp!
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end
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# Call_get_more calls the method get_more on the factory (see there).
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# From the callers perspective the method ensures there is a next_object.
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#
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# Calling is three step process
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# - setting up the next message
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# - moving receiver (factory) and arguments (none)
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# - issuing the call
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# These steps shadow the MomInstructions MessageSetup, ArgumentTransfer and SimpleCall
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def call_get_more
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factory = Parfait.object_space.get_factory_for( :Integer )
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calling = factory.get_type.get_method( :get_more )
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calling = Parfait.object_space.get_main #until we actually parse Factory
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Mom::MessageSetup.new( calling ).build_with( self )
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self.build do
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factory_reg! << factory
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message[:receiver] << factory_reg
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end
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Mom::SimpleCall.new(calling).to_risc(compiler)
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end
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end
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end
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