rubyx/lib/risc/risc_value.rb

130 lines
3.8 KiB
Ruby
Raw Normal View History

module Risc
# RiscValue is like a variable name, a storage location. The location is a register off course.
class RiscValue
attr_reader :symbol , :type , :value
attr_accessor :builder
2018-04-06 15:35:27 +02:00
def initialize( reg , type , value = nil)
raise "not reg #{reg}" unless self.class.look_like_reg( reg )
@type = type
2018-04-06 15:35:27 +02:00
@symbol = reg
@value = value
end
def to_s
s = "#{symbol}:#{type}"
s += ":#{value}" if value
s
end
def reg_no
@symbol.to_s[1 .. -1].to_i
end
def self.look_like_reg is_it
return true if is_it.is_a? RiscValue
return false unless is_it.is_a? Symbol
if( [:lr , :pc].include? is_it )
return true
end
if( (is_it.to_s.length <= 3) and (is_it.to_s[0] == "r"))
# could tighten this by checking that the rest is a number
return true
end
return false
end
def == other
return false if other.nil?
return false if other.class != RiscValue
symbol == other.symbol
end
#helper method to calculate with register symbols
def next_reg_use( type , value = nil )
int = @symbol[1,3].to_i
raise "No more registers #{self}" if int > 8
sym = "r#{int + 1}".to_sym
RiscValue.new( sym , type, value)
end
def sof_reference_name
@symbol
end
2018-04-06 15:08:35 +02:00
# can't overload "=" , so use shift for it.
# move the right side to the left. Left (this) is a RiscValue
# right value may be
# - constant (Parfait object) , resulting in a LoadConstant
# - another RiscValue, resulting in a Transfer instruction
# - an RValue, which gets procuced by the [] below
def <<( load )
case load
when Parfait::Object
ins = Risc.load_constant("#{load.class} to #{self.type}" , load , self)
when RiscValue
ins = Risc.transfer("#{load.type} to #{self.type}" , load , self)
else
raise "not implemented"
end
builder.add_instruction(ins) if builder
return ins
end
2018-04-06 15:08:35 +02:00
2018-04-06 19:21:14 +02:00
# create a RegToSlot instruction
# right hand must be an RValue
def >>( slot )
raise "not RValue #{slot}" unless slot.is_a?(RValue)
reg_to_slot = Risc.reg_to_slot("#{self.type} -> #{slot.register.type}[#{slot.index}]" , self, slot.register, slot.index)
builder.add_instruction(reg_to_slot) if builder
reg_to_slot
end
2018-04-06 15:08:35 +02:00
# just capture the values in an intermediary object (RValue)
# The RValue then gets used in a RegToSlot ot SlotToReg, where
# the values are unpacked to call Risc.reg_to_slot or Risc.slot_to_reg
def []( index )
2018-04-06 15:35:27 +02:00
RValue.new( self , index , builder)
2018-04-06 15:08:35 +02:00
end
end
# Just a struct, see comment for [] of RiscValue
#
class RValue
2018-04-06 15:35:27 +02:00
attr_reader :register , :index , :builder
def initialize(register, index , builder)
@register , @index , @builder = register , index , builder
end
# fullfil the objects purpose by creating a SlotToReg instruction from
# itself (the slot) and the register given
def >>( reg )
raise "not reg #{reg}" unless reg.is_a?(RiscValue)
slot = Risc.slot_to_reg("#{register.type}[#{index}] -> #{reg.type}" , @register , @index , reg)
builder.add_instruction(slot) if builder
slot
2018-04-06 15:08:35 +02:00
end
end
# The register we use to store the current message object is :r0
def self.message_reg
RiscValue.new :r0 , :Message
end
# The register we use to store the new message object is :r3
# The new message is the one being built, to be sent
def self.new_message_reg
RiscValue.new :r1 , :Message
end
# The first scratch register. There is a next_reg_use to get a next and next.
# Current thinking is that scratch is schatch between instructions
def self.tmp_reg( type , value = nil)
RiscValue.new :r1 , type , value
end
end