rubyx/lib/arm/move_instruction.rb

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module Arm
class MoveInstruction < Register::MoveInstruction
include Arm::Constants
def initialize(to , from , attributes)
super(to , from , attributes)
@attributes[:update_status] = 0 if @attributes[:update_status] == nil
@attributes[:condition_code] = :al if @attributes[:condition_code] == nil
@attributes[:opcode] = attributes[:opcode]
@operand = 0
@immediate = 0
@rn = :r0 # register zero = zero bit pattern
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@from = Virtual::IntegerConstant.new( @from ) if( @from.is_a? Fixnum )
@extra = nil
end
# arm intrucions are pretty sensible, and always 4 bytes (thumb not supported)
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# but not all constants fit into the part of the instruction that is left after the instruction code,
# so large moves have to be split into two instructions.
# we handle this "transparently", just this instruction looks longer
# alas, full transparency is not achieved as we only know when to use 2 instruction once we know where the
# other object is, and that position is only set after code positions have been determined (in link) and so
# see below in assemble
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def mem_length
@extra ? 8 : 4
end
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def assemble(io)
# don't overwrite instance variables, to make assembly repeatable
rn = @rn
operand = @operand
immediate = @immediate
right = @from
if right.is_a?(Virtual::ObjectConstant)
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r_pos = right.position
# do pc relative addressing with the difference to the instuction
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# 8 is for the funny pipeline adjustment (ie pc pointing to fetch and not execute)
right = Virtual::IntegerConstant.new( r_pos - self.position - 8 )
#puts "Position #{r_pos} from #{self.position} = #{right}"
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right = Virtual::IntegerConstant.new(r_pos) if right.integer > 255
rn = :pc
end
if (right.is_a?(Virtual::IntegerConstant))
if (right.fits_u8?)
# no shifting needed
operand = right.integer
immediate = 1
elsif (op_with_rot = calculate_u8_with_rr(right))
operand = op_with_rot
immediate = 1
else
raise "No negatives implemented " if right.integer < 0
# and so it continues: when we notice that the const doesn't fit, first time we raise an
# error,but set the extra flag, to say the instruction is now 8 bytes
# then on subsequent assemlies we can assemble
unless @extra
@extra = 1
raise ::Register::LinkException.new("cannot fit numeric literal argument in operand #{right.inspect}")
end
# now we can do the actual breaking of instruction
operand = (right.integer / 256 )
immediate = 1
raise "only simple 2 byte implemented #{self.inspect}" if operand > 255
@extra = ::Register::RegisterMachine.instance.add( to , to , (right.integer && 0xFF) , shift_lsr: 8)
end
elsif (right.is_a?(Symbol))
operand = reg_code(right)
immediate = 0 # ie not immediate is register
else
raise "invalid operand argument #{right.inspect} , #{inspect}"
end
op = shift_handling
instuction_class = 0b00 # OPC_DATA_PROCESSING
val = shift(operand , 0)
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val |= shift(op , 0) # any barrel action, is already shifted
val |= shift(reg_code(@to) , 12)
val |= shift(reg_code(rn) , 12+4)
val |= shift(@attributes[:update_status] , 12+4+4)#20
val |= shift(op_bit_code , 12+4+4 +1)
val |= shift(immediate , 12+4+4 +1+4)
val |= shift(instuction_class , 12+4+4 +1+4+1)
val |= shift(cond_bit_code , 12+4+4 +1+4+1+2)
io.write_uint32 val
# by now we have the extra add so assemble that
if(@extra)
@extra.assemble(io)
puts "Assemble extra at #{self.position.to_s(16)}"
end
end
def shift val , by
raise "Not integer #{val}:#{val.class} in #{inspect}" unless val.is_a? Fixnum
val << by
end
end
end