rubyx/lib/vm/instruction.rb

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require_relative "code"
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module Vm
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# Because the idea of what one instruction does, does not always map one to one to real machine
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# instructions, and instruction may link to another instruction thus creating an arbitrary list
# to get the job (the original instruciton) done
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# Admittately it would be simpler just to create the (abstract) instructions and let the machine
# encode them into what-ever is neccessary, but this approach leaves more possibility to
# optimize the actual instruction stream (not just the crystal instruction stream). Makes sense?
# We have basic classes (literally) of instructions
# - Memory
# - Stack
# - Logic
# - Math
# - Control/Compare
# - Move
# - Call
# Instruction derives from Code, for the assembly api
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class Instruction < Code
def initialize options
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@attributes = options
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end
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def opcode
@attributes[:opcode]
end
# returns an array of registers (RegisterUses) that this instruction uses.
# ie for r1 = r2 + r3
# which in assembler is add r1 , r2 , r3
# it would return [r2,r3]
# for pushes the list may be longer, whereas for a jump empty
def uses
raise "abstract called for #{self.class}"
end
# returns an array of registers (RegisterUses) that this instruction assigns to.
# ie for r1 = r2 + r3
# which in assembler is add r1 , r2 , r3
# it would return [r1]
# for most instruction this is one, but comparisons and jumps 0 , and pop's as long as 16
def assigns
raise "abstract called for #{self.class}"
end
def method_missing name , *args , &block
return super unless (args.length <= 1) or block_given?
set , attribute = name.to_s.split("set_")
if set == ""
@attributes[attribute.to_sym] = args[0] || 1
return self
else
return super
end
return @attributes[name.to_sym]
end
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end
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class StackInstruction < Instruction
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def initialize first , options = {}
@first = first
super(options)
end
# when calling we place a dummy push/pop in the stream and calculate later what registers actually need saving
def set_registers regs
@first = regs.collect{ |r| r.symbol }
end
def is_push?
opcode == :push
end
def is_pop?
!is_push?
end
def uses
is_push? ? regs : []
end
def assigns
is_pop? ? regs : []
end
def regs
@first
end
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end
class MemoryInstruction < Instruction
def initialize result , left , right = nil , options = {}
@result = result
@left = left
@right = right
super(options)
end
def uses
ret = [@left.used_register ]
ret << @right.used_register unless @right.nil?
ret
end
def assigns
[@result.used_register]
end
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end
class LogicInstruction < Instruction
# result = left op right
#
# Logic instruction are your basic operator implementation. But unlike the (normal) code we write
# these Instructions must have "place" to write their results. Ie when you write 4 + 5 in ruby
# the result is sort of up in the air, but with Instructions the result must be assigned
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def initialize result , left , right , options = {}
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@result = result
@left = left
@right = right.is_a?(Fixnum) ? IntegerConstant.new(right) : right
super(options)
end
attr_accessor :result , :left , :right
def uses
ret = []
ret << @left.used_register if @left and not @left.is_a? Constant
ret << @right.used_register if @right and not @right.is_a?(Constant)
ret
end
def assigns
[@result.used_register]
end
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end
class CompareInstruction < Instruction
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def initialize left , right , options = {}
@left = left
@right = right.is_a?(Fixnum) ? IntegerConstant.new(right) : right
super(options)
end
def uses
ret = [@left.used_register ]
ret << @right.used_register unless @right.is_a? Constant
ret
end
def assigns
[]
end
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end
class MoveInstruction < Instruction
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def initialize to , from , options = {}
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@to = to
@from = from.is_a?(Fixnum) ? IntegerConstant.new(from) : from
raise "move must have from set #{inspect}" unless from
super(options)
end
attr_accessor :to , :from
def uses
@from.is_a?(Constant) ? [] : [@from.used_register]
end
def assigns
[@to.used_register]
end
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end
class CallInstruction < Instruction
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def initialize first , options = {}
@first = first
super(options)
opcode = @attributes[:opcode].to_s
if opcode.length == 3 and opcode[0] == "b"
@attributes[:condition_code] = opcode[1,2].to_sym
@attributes[:opcode] = :b
end
if opcode.length == 6 and opcode[0] == "c"
@attributes[:condition_code] = opcode[4,2].to_sym
@attributes[:opcode] = :call
end
end
def uses
[]
end
def assigns
[]
end
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end
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end