2009-07-17 04:32:33 +00:00
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class BitStruct
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# Class for unsigned integers in network order, 1-16 bits, or 8n bits.
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# Declared with BitStruct.unsigned.
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class UnsignedField < Field
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# Used in describe.
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def self.class_name
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@class_name ||= "unsigned"
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end
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def add_accessors_to(cl, attr = name) # :nodoc:
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offset_byte = offset / 8
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offset_bit = offset % 8
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length_bit = offset_bit + length
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length_byte = (length_bit/8.0).ceil
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last_byte = offset_byte + length_byte - 1
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divisor = options[:fixed] || options["fixed"]
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divisor_f = divisor && divisor.to_f
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# if divisor and not divisor.is_a? Fixnum
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# raise ArgumentError, "fixed-point divisor must be a fixnum"
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# end
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endian = (options[:endian] || options["endian"]).to_s
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case endian
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when "native"
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ctl = length_byte <= 2 ? "S" : "L"
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when "little"
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ctl = length_byte <= 2 ? "v" : "V"
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when "network", "big", ""
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ctl = length_byte <= 2 ? "n" : "N"
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else
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raise ArgumentError,
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"Unrecognized endian option: #{endian.inspect}"
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end
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data_is_big_endian =
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([1234].pack(ctl) == [1234].pack(length_byte <= 2 ? "n" : "N"))
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if length_byte == 1
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rest = 8 - length_bit
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2009-10-03 18:45:32 +00:00
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mask = ["0"*offset_bit + "1"*length + "0"*rest].pack("B8")[0].ord
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mask2 = ["1"*offset_bit + "0"*length + "1"*rest].pack("B8")[0].ord
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2009-07-17 04:32:33 +00:00
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cl.class_eval do
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if divisor
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define_method attr do ||
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2009-10-05 23:12:35 +00:00
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((self[offset_byte,1].unpack('C')[0] & mask) >> rest) / divisor_f
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2009-07-17 04:32:33 +00:00
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end
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define_method "#{attr}=" do |val|
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val = (val * divisor).round
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2009-10-05 23:12:35 +00:00
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self[offset_byte,1] = [
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(self[offset_byte,1].unpack('C')[0] & mask2) | ((val<<rest) & mask) ].pack('C')
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2009-07-17 04:32:33 +00:00
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end
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else
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define_method attr do ||
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2009-10-05 23:12:35 +00:00
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(self[offset_byte,1].unpack('C')[0] & mask) >> rest
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2009-07-17 04:32:33 +00:00
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end
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define_method "#{attr}=" do |val|
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2009-10-05 23:12:35 +00:00
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self[offset_byte,1] = [
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(self[offset_byte,1].unpack('C')[0] & mask2) | ((val<<rest) & mask) ].pack('C')
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2009-07-17 04:32:33 +00:00
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end
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end
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end
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elsif offset_bit == 0 and length % 8 == 0
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field_length = length
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byte_range = offset_byte..last_byte
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cl.class_eval do
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case field_length
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when 8
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if divisor
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define_method attr do ||
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2009-10-05 23:12:35 +00:00
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self[offset_byte,1].unpack('C')[0] / divisor_f
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2009-07-17 04:32:33 +00:00
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end
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define_method "#{attr}=" do |val|
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val = (val * divisor).round
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2009-10-05 23:12:35 +00:00
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self[offset_byte,1].unpack('C')[0] = val
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2009-07-17 04:32:33 +00:00
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end
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else
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define_method attr do ||
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2009-10-05 23:12:35 +00:00
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self[offset_byte,1].unpack('C')[0]
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2009-07-17 04:32:33 +00:00
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end
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define_method "#{attr}=" do |val|
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self[offset_byte] = val
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end
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end
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when 16, 32
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if divisor
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define_method attr do ||
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self[byte_range].unpack(ctl).first / divisor_f
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end
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define_method "#{attr}=" do |val|
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val = (val * divisor).round
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self[byte_range] = [val].pack(ctl)
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end
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else
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define_method attr do ||
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self[byte_range].unpack(ctl).first
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end
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define_method "#{attr}=" do |val|
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self[byte_range] = [val].pack(ctl)
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end
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end
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else
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reader_helper = proc do |substr|
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bytes = substr.unpack("C*")
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bytes.reverse! unless data_is_big_endian
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bytes.inject do |sum, byte|
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(sum << 8) + byte
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end
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end
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writer_helper = proc do |val|
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bytes = []
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while val > 0
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bytes.push val % 256
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val = val >> 8
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end
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if bytes.length < length_byte
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bytes.concat [0] * (length_byte - bytes.length)
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end
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bytes.reverse! if data_is_big_endian
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bytes.pack("C*")
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end
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if divisor
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define_method attr do ||
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reader_helper[self[byte_range]] / divisor_f
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end
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define_method "#{attr}=" do |val|
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self[byte_range] = writer_helper[(val * divisor).round]
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end
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else
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define_method attr do ||
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reader_helper[self[byte_range]]
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end
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define_method "#{attr}=" do |val|
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self[byte_range] = writer_helper[val]
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end
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end
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end
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end
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elsif length_byte == 2 # unaligned field that fits within two whole bytes
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byte_range = offset_byte..last_byte
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rest = 16 - length_bit
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mask = ["0"*offset_bit + "1"*length + "0"*rest]
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mask = mask.pack("B16").unpack(ctl).first
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mask2 = ["1"*offset_bit + "0"*length + "1"*rest]
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mask2 = mask2.pack("B16").unpack(ctl).first
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cl.class_eval do
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if divisor
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define_method attr do ||
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((self[byte_range].unpack(ctl).first & mask) >> rest) /
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divisor_f
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end
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define_method "#{attr}=" do |val|
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val = (val * divisor).round
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x = (self[byte_range].unpack(ctl).first & mask2) |
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((val<<rest) & mask)
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self[byte_range] = [x].pack(ctl)
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end
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else
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define_method attr do ||
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(self[byte_range].unpack(ctl).first & mask) >> rest
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end
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define_method "#{attr}=" do |val|
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x = (self[byte_range].unpack(ctl).first & mask2) |
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((val<<rest) & mask)
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self[byte_range] = [x].pack(ctl)
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end
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end
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end
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elsif length_byte == 3 # unaligned field that fits within 3 whole bytes
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byte_range = offset_byte..last_byte
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rest = 32 - length_bit
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mask = ["0"*offset_bit + "1"*length + "0"*rest]
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mask = mask.pack("B32").unpack(ctl).first
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mask2 = ["1"*offset_bit + "0"*length + "1"*rest]
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mask2 = mask2.pack("B32").unpack(ctl).first
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cl.class_eval do
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if divisor
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define_method attr do ||
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bytes = self[byte_range]
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bytes << 0
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((bytes.unpack(ctl).first & mask) >> rest) /
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divisor_f
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end
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define_method "#{attr}=" do |val|
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val = (val * divisor).round
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bytes = self[byte_range]
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bytes << 0
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x = (bytes.unpack(ctl).first & mask2) |
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((val<<rest) & mask)
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self[byte_range] = [x].pack(ctl)[0..2]
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end
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else
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define_method attr do ||
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bytes = self[byte_range]
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bytes << 0
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(bytes.unpack(ctl).first & mask) >> rest
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end
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define_method "#{attr}=" do |val|
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bytes = self[byte_range]
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bytes << 0
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x = (bytes.unpack(ctl).first & mask2) |
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((val<<rest) & mask)
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self[byte_range] = [x].pack(ctl)[0..2]
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end
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end
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end
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else
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raise "unsupported: #{inspect}"
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end
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end
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end
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end
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