module Mom # CallableCompiler is used to generate mom instructions. It is an abstact base # class shared by BlockCompiler and MethodCompiler # - mom_instructions: The sequence of mom level instructions that mom was compiled to # Instructions derive from class Instruction and form a linked list class CallableCompiler def initialize( callable ) @callable = callable @constants = [] @block_compilers = [] @mom_instructions = Label.new(source_name, source_name) @current = start = @mom_instructions add_code Label.new( source_name, "return_label") add_code Mom::ReturnSequence.new(source_name) add_code Label.new( source_name, "unreachable") @current = start end attr_reader :mom_instructions , :constants , :block_compilers , :callable , :current def return_label @mom_instructions.each do |ins| next unless ins.is_a?(Label) return ins if ins.name == "return_label" end end # add a constant (which get created during compilation and need to be linked) def add_constant(const) raise "Must be Parfait #{const}" unless const.is_a?(Parfait::Object) @constants << const end # translate to Risc, ie a Risc level CallableCompiler # abstract functon that needs to be implemented by Method/BlockCompiler def to_risc raise "abstract in #{self.class}" end # add a risc instruction after the current (insertion point) # the added instruction will become the new insertion point def add_code( instruction ) raise "Not an instruction:#{instruction.to_s}:#{instruction.class.name}" unless instruction.is_a?(Mom::Instruction) new_current = instruction.last #after insertion this point is lost @current.insert(instruction) #insert after current @current = new_current self end # resolve the type of the slot, by inferring from it's name, using the type # scope related slots are resolved by the compiler by method/block def slot_type( slot , type) case slot when :frame new_type = self.frame_type when :arguments new_type = self.arg_type when :receiver new_type = self.receiver_type when Symbol new_type = type.type_for(slot) raise "Not found object #{slot}: in #{type}" unless new_type else raise "Not implemented object #{slot}:#{slot.class}" end #puts "RESOLVE in #{@type.class_name} #{slot}->#{type}" return new_type end # return the frame type, ie the blocks frame type def frame_type @callable.frame_type end # return the frame type, ie the blocks arguments type def arg_type @callable.arguments_type end # return the frame type, ie the blocks self_type def receiver_type @callable.self_type end private # convert al instruction to risc # method is called by Method/BlockCompiler from to_risc def instructions_to_risc(risc_compiler) instruction = mom_instructions.next while( instruction ) raise "whats this a #{instruction}" unless instruction.is_a?(Mom::Instruction) #puts "adding mom #{instruction.to_s}:#{instruction.next.to_s}" instruction.to_risc( risc_compiler ) risc_compiler.reset_regs #puts "adding risc #{risc.to_s}:#{risc.next.to_s}" instruction = instruction.next end end end end