module Vm # Our virtual machine has a number of registers of a given size and uses a stack # So much so standard # But our machine is oo, meaning that the register contents is typed. # Off course current hardware does not have that (a perceived issue), but for our machine we pretend. # So internally we have at least 8 word registers, one of which is used to keep track of types* # and any number of scratch registers # but externally it's all Values (see there) # * Note that register content is typed externally. Not as in mri, where int's are tagged. Floats can's # be tagged and lambda should be it's own type, so tagging does not work # A Machines main responsibility in the framework is to instantiate Instruction # Value functions are mapped to machines by concatenating the values class name + the methd name # Example: IntegerValue.plus( value ) -> Machine.signed_plus (value ) # Also, shortcuts are created to easily instantiate Instruction objects. The "standard" set of instructions # (arm-influenced) provides for normal operations on a register machine, # Example: pop -> StackInstruction.new( {:opcode => :pop}.merge(options) ) # Instructions work with options, so you can pass anything in, and the only thing the functions does # is save you typing the clazz.new. It passes the function name as the :opcode class Machine # hmm, not pretty but for now @@instance = nil attr_reader :registers attr_reader :scratch attr_reader :pc attr_reader :stack # is often a pseudo register (ie doesn't support move or other operations). # Still, using if to express tests makes sense, not just for # consistency in this code, but also because that is what is actually done attr_reader :status # here we create the shortcuts for the "standard" instructions, see above # Derived machines may use own instructions and define functions for them if so desired def initialize [:push, :pop].each do |inst| define_instruction(inst , StackInstruction) end [:adc, :add, :and, :bic, :eor, :orr, :rsb, :rsc, :sbc, :sub].each do |inst| define_instruction(inst , LogicInstruction) end [:mov, :mvn].each do |inst| define_instruction(inst , MoveInstruction) end [:cmn, :cmp, :teq, :tst].each do |inst| define_instruction(inst , CompareInstruction) end [:strb, :str , :ldrb, :ldr].each do |inst| define_instruction(inst , MemoryInstruction) end [:b, :bl , :swi].each do |inst| define_instruction(inst , CallInstruction) end end def create_method(name, &block) self.class.send(:define_method, name , &block) end def define_instruction(inst , clazz ) c_name = clazz.name my_module = self.class.name.split("::").first clazz_name = clazz.name.split("::").last if(my_module != Vm ) module_class = eval("#{my_module}::#{clazz_name}") rescue nil clazz = module_class if module_class end create_method(inst) do |options| options = {} if options == nil options[:opcode] = inst clazz.new(options) end end def self.instance @@instance end def self.instance= machine @@instance = machine end end end