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rubyx/lib/arm/arm_machine.rb
Torsten Ruger b3f7b66ceb coding the weird udiv10 and utoa
2014-05-16 19:55:46 +03:00

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require "vm/c_machine"
require_relative "stack_instruction"
require_relative "logic_instruction"
require_relative "move_instruction"
require_relative "compare_instruction"
require_relative "memory_instruction"
require_relative "call_instruction"
require_relative "constants"
module Arm
class ArmMachine < Vm::CMachine
def integer_less_or_equal block , first , right
block.add_code cmp( first , right: right )
Vm::Bool.new
end
def integer_plus block , result , first , right
block.add_code add( result , left: first , :extra => right )
result
end
def integer_minus block , result , first , right
block.add_code sub( result , left: first , :extra => right )
result
end
def integer_load block , first , right
block.add_code mov( first , right: right )
first
end
def integer_move block , first , right
block.add_code mov( first , right: right )
first
end
def string_load block , str_lit , reg
block.add_code add( "r#{reg}".to_sym , :extra => str_lit ) #right is pc, implicit
#second arg is a hack to get the stringlength without coding
block.add_code mov( "r#{reg+1}".to_sym , right: str_lit.length )
str_lit
end
def function_call into , call
raise "Not CallSite #{call.inspect}" unless call.is_a? Vm::CallSite
raise "Not linked #{call.inspect}" unless call.function
into.add_code call( call.function , {})
call.function.return_type
end
def main_start entry
entry.add_code mov( :fp , right: 0 )
end
def main_exit exit
syscall(exit , 1)
exit
end
def function_entry block, f_name
block.add_code push( [:lr] , {})
end
def function_exit entry , f_name
entry.add_code pop( [:pc] , {})
end
# assumes string in r0 and r1 and moves them along for the syscall
def write_stdout block
block.add_code mov( :r2 , right: :r1 )
block.add_code mov( :r1 , right: :r0 )
block.add_code mov( :r0 , right: 1 ) # 1 == stdout
syscall( block , 4 )
end
# the number (a Vm::integer) is (itself) divided by 10, ie overwritten by the result
# and the remainder is overwritten (ie an out argument)
# not really a function, more a macro, hence private
def div10 block, number , remainder
# takes argument in r1
# returns quotient in r1, remainder in r2
# SUB r2, r1, #10 # keep (x-10) for later
block.add_code sub( remainder , left: number , right: 10 )
# SUB r1, r1, r1, lsr #2
block.add_code sub( number , left: number , right: number , shift_lsr: 2)
# ADD r1, r1, r1, lsr #4
block.add_code add( number , left: number , right: number , shift_lsr: 4)
# ADD r1, r1, r1, lsr #8
block.add_code add( number , left: number , right: number , shift_lsr: 8)
# ADD r1, r1, r1, lsr #16
block.add_code add( number , left: number , right: number , shift_lsr: 16)
# MOV r1, r1, lsr #3
block.add_code mov( number , right: number , shift_lsr: 3)
# ADD r3, r1, r1, asl #2
tmp = Vm::Integer.new( remainder.register + 1)
block.add_code add( tmp , left: number , right: number , shift_lsl: 2)
# SUBS r2, r2, r3, asl #1 # calc (x-10) - (x/10)*10
block.add_code sub( remainder , left: remainder , right: tmp , shift_lsl: 1 , update_status: 1)
# ADDPL r1, r1, #1 # fix-up quotient
block.add_code add( number , left: number, right: 1 , condition_code: :pl )
# ADDMI r2, r2, #10 # fix-up remainder
block.add_code add( remainder , left: remainder , right: 10 , condition_code: :mi )
end
def syscall block , num
block.add_code mov( :r7 , right: num )
block.add_code swi( 0 , {})
Vm::Integer.new(0) #small todo, is this actually correct for all (that they return int)
end
end
end
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