rubyx/lib/asm/arm/builder_b.rb

103 lines
3.6 KiB
Ruby

require "asm/nodes"
module Asm
module Arm
# ADDRESSING MODE 2
# Implemented: immediate offset with offset=0
class BuilderB
include Asm::Arm::InstructionTools
def initialize
@cond = 0b1110
@inst_class = 0
@i = 0 #I flag (third bit)
@pre_post_index = 0 #P flag
@add_offset = 0 #U flag
@byte_access = 0 #B flag
@w = 0 #W flag
@load_store = 0 #L flag
@rn = 0
@rd = 0
@operand = 0
end
attr_accessor :cond, :inst_class, :i, :pre_post_index, :add_offset,
:byte_access, :w, :load_store, :rn, :rd, :operand
def self.make(inst_class, byte_access, load_store)
a = new
a.inst_class = inst_class
a.byte_access = byte_access
a.load_store = load_store
a
end
# Build representation for target address
def build_operand(arg)
#str / ldr are _seruous instructions. With BIG possibilities no half are implemented
if (arg.is_a?(Asm::RegisterArgNode))
@i = 0
@pre_post_index = 0
@w = 0
@rn = reg_ref(arg)
@operand = 0
if (false ) #argr.op and argr.right.is_a?(Asm::NumLiteralArgNode))
# this if was buggy even before
# but as mentioned here we'd have to implement the options
# though a better syntax will have to be found
val = argr.right.value
if (val < 0)
@add_offset = 0
val *= -1
else
@add_offset = 1
end
if (val.abs > 4095)
raise Asm::AssemblyError.new('reference offset too large/small (max 4095)', argr.right)
end
@operand = val
else
# raise Asm::AssemblyError.new(Asm::ERRSTR_INVALID_ARG, arg)
end
elsif (arg.is_a?(Asm::LabelEquivAddrArgNode) or arg.is_a?(Asm::NumEquivAddrArgNode))
@i = 0
@pre_post_index = 1
@w = 0
@rn = 15 # pc
@operand = 0
@use_addrtable_reloc = true
@addrtable_reloc_target = arg
else
puts "Invalid #{arg.inspect}"
raise Asm::AssemblyError.new(Asm::ERRSTR_INVALID_ARG, arg.inspect)
end
end
def write(io, as, ast_asm, inst)
#not sure about these 2 constants. They produce the correct output for str r0 , r1
# but i can't help thinking that that is because they are not used in that instruction and
# so it doesn't matter. Will see
@add_offset = 1
@pre_post_index = 1
val = operand | (rd << 12 ) | (rn << 12 + 4) |
(load_store << 12+4+4) | (w << 12+4+4+1) |
(byte_access << 12+4+4+1+1) | (add_offset << 12+4+4+1+1+1) |
(pre_post_index << 12+4+4+1+1+1+1) | (i << 12+4+4+1+1+1+1+1) |
(inst_class << 12+4+4+1+1+1+1+1+1) | (cond << 12+4+4+1+1+1+1+1+1+2)
if (@use_addrtable_reloc)
closest_addrtable = Asm::Arm.closest_addrtable(as)
if (@addrtable_reloc_target.is_a?(Asm::LabelEquivAddrArgNode))
obj = ast_asm.object_for_label(@addrtable_reloc_target.label, inst)
ref_label = closest_addrtable.add_label(obj)
elsif (@addrtable_reloc_target.is_a?(Asm::NumEquivAddrArgNode))
ref_label = closest_addrtable.add_const(@addrtable_reloc_target.value)
end
as.add_relocation io.tell, ref_label, Asm::Arm::R_ARM_PC12,
Asm::Arm::Instruction::RelocHandler
end
io.write_uint32 val
end
end
end
end