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diff --git a/testsuite/binary.sed b/testsuite/binary.sed
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+# A kind of clone of dc geared towards binary operations.
+# by Paolo Bonzini
+#
+# commands available:
+#   conversion commands
+#     b      convert decimal to binary
+#     d      convert binary to decimal
+#
+#   arithmetic commands
+#     <      shift left binary by decimal number of bits (11 3< gives 11000)
+#     >      shift right binary by decimal number of bits (1011 2> gives 10)
+#     &      binary AND (between two binary operands)
+#     |      binary OR (between two binary operands)
+#     ^      binary XOR (between two binary operands)
+#     ~      binary NOT (between one binary operand)
+#
+#   stack manipulation commands
+#     c      clear stack
+#     P      pop stack top
+#     D      duplicate stack top
+#     x      exchange top two elements
+#     r      rotate stack counter-clockwise (second element becomes first)
+#     R      rotate stack clockwise (last element becomes first)
+#
+#   other commands
+#     l      print stack (stack top is first)
+#     p      print stack top
+#     q      quit, print stack top if any (cq is quiet quit)
+#
+# The only shortcoming is that you'd better not attempt conversions of
+# values above 1000 or so.
+#
+# This version does everything in pattern space (a la dc.sed).
+# --------------------------------------------------------------------------
+# This was actually used in a one-disk distribution of Linux to compute
+# netmasks as follows (1 parameter => compute netmask e.g. 24 becomes
+# 255.255.255.0; 2 parameters => given host address and netmask compute
+# network and broadcast addresses):
+#
+# if [ $# = 1 ]; then 
+#   OUTPUT='$1.$2.$3.$4'
+#   set 255.255.255.255 $1
+# else
+#   OUTPUT='$1.$2.$3.$4 $5.$6.$7.$8'
+# fi
+# 
+# if [ `expr $2 : ".*\\."` -gt 0 ]; then
+#   MASK="$2 br b8<r b16<r b24< R|R|R|"
+# else
+#   MASK="$2b 31b ^d D
+#         11111111111111111111111111111111 x>1> x<1<"
+# fi
+# 
+# set `echo "$1 br b8<r b16<r b24< R|R|R| D    # Load address
+#            $MASK D ~r                        # Load mask
+# 
+#            & DDD 24>dpP 16>11111111& dpP 8>11111111& dpP 11111111& dpP
+#            | DDD 24>dpP 16>11111111& dpP 8>11111111& dpP 11111111& dpP
+#       " | sed -f binary.sed`
+#
+# eval echo $OUTPUT
+# --------------------------------------------------------------------------
+
+
+1s/^/%%/
+
+:cmd
+s/\(.*%%\) *\([0-9][0-9]*\)/\2\
+\1/
+tcmd
+s/%% *#.*/%%/
+/%%$/ {
+  $b quit
+  N
+}
+
+/^.*%%D/ s/^[^\n]*\n/&&/
+/^.*%%P/ s/^[^\n]*\n//
+/^.*%%x/ s/^\([^\n]*\n\)\([^\n]*\n\)/\2\1/
+/^.*%%r/ s/^\([^\n]*\n\)\([^%]*\)/\2\1/
+/^.*%%R/ s/^\([^%]*\n\)\([^\n]*\n\)/\2\1/
+/^.*%%c/ s/^.*%%/%%/
+/^.*%%p/ P
+
+/^.*%%l/ {
+  h
+  s/.%%.*//
+  p
+  g
+}
+
+/^.*%%q/ {
+  :quit
+  /^%%/!P
+  d
+}
+
+/^.*%%b/ {
+  # Decimal to binary via analog form
+  s/^\([^\n]*\)/-&;9876543210aaaaaaaaa/
+  :d2bloop1
+  s/\(a*\)-\(.\)\([^;]*;[0-9]*\2.\{9\}\(a*\)\)/\1\1\1\1\1\1\1\1\1\1\4-\3/
+  t d2bloop1
+  s/-;9876543210aaaaaaaaa/;a01!/
+  :d2bloop2
+  s/\(a*\)\1\(a\{0,1\}\)\(;\2.\(.\)[^!]*!\)/\1\3\4/
+  /^a/b d2bloop2
+  s/[^!]*!//
+}
+
+/^.*%%d/ {
+  # Binary to decimal via analog form
+  s/^\([^\n]*\)/-&;10a/
+  :b2dloop1
+  s/\(a*\)-\(.\)\([^;]*;[0-9]*\2.\(a*\)\)/\1\1\4-\3/
+  t b2dloop1
+  s/-;10a/;aaaaaaaaa0123456789!/
+  :b2dloop2
+  s/\(a*\)\1\1\1\1\1\1\1\1\1\(a\{0,9\}\)\(;\2.\{9\}\(.\)[^!]*!\)/\1\3\4/
+  /^a/b b2dloop2
+  s/[^!]*!//
+}
+
+/^.*%%&/ {
+  # Binary AND
+  s/\([^\n]*\)\n\([^\n]*\)/-\1-\2-111 01000/
+  :andloop
+  s/\([^-]*\)-\([^-]*\)\([^-]\)-\([^-]*\)\([^-]\)-\([01 ]*\3\5\([01]\)\)/\7\1-\2-\4-\6/
+  t andloop
+  s/^0*\([^-]*\)-[^\n]*/\1/
+  s/^\n/0&/
+}
+
+/^.*%%^/ {
+  # Binary XOR
+  s/\([^\n]*\)\n\([^\n]*\)/-\1-\2-000 01101/
+  b orloop
+}
+
+/^.*%%|/ {
+  # Binary OR
+  s/\([^\n]*\)\n\([^\n]*\)/-\1-\2-000 10111/
+  :orloop
+  s/\([^-]*\)-\([^-]*\)\([^-]\)-\([^-]*\)\([^-]\)-\([01 ]*\3\5\([01]\)\)/\7\1-\2-\4-\6/
+  t orloop
+  s/\([^-]*\)-\([^-]*\)-\([^-]*\)-[^\n]*/\2\3\1/
+}
+
+/^.*%%~/ {
+  # Binary NOT
+  s/^\(.\)\([^\n]*\n\)/\1-010-\2/
+  :notloop
+  s/\(.\)-0\{0,1\}\1\(.\)0\{0,1\}-\([01\n]\)/\2\3-010-/
+  t notloop
+
+  # If result is 00001..., \3 does not match (it looks for -10) and we just
+  # remove the table and leading zeros.  If result is 0000...0, \3 matches
+  # (it looks for -0), \4 is a zero and we leave a lone zero as top of the
+  # stack.
+
+  s/0*\(1\{0,1\}\)\([^-]*\)-\(\1\(0\)\)\{0,1\}[^-]*-/\4\1\2/
+}
+
+/^.*%%</ {
+  # Left shift, convert to analog and add a binary digit for each analog digit
+  s/^\([^\n]*\)/-&;9876543210aaaaaaaaa/
+  :lshloop1
+  s/\(a*\)-\(.\)\([^;]*;[0-9]*\2.\{9\}\(a*\)\)/\1\1\1\1\1\1\1\1\1\1\4-\3/
+  t lshloop1
+  s/^\(a*\)-;9876543210aaaaaaaaa\n\([^\n]*\)/\2\1/
+  s/a/0/g
+}
+
+/^.*%%>/ {
+  # Right shift, convert to analog and remove a binary digit for each analog digit
+  s/^\([^\n]*\)/-&;9876543210aaaaaaaaa/
+  :rshloop1
+  s/\(a*\)-\(.\)\([^;]*;[0-9]*\2.\{9\}\(a*\)\)/\1\1\1\1\1\1\1\1\1\1\4-\3/
+  t rshloop1
+  s/^\(a*\)-;9876543210aaaaaaaaa\n\([^\n]*\)/\2\1/
+  :rshloop2
+  s/.a//
+  s/^aa*/0/
+  /a\n/b rshloop2
+}
+
+
+s/%%./%%/
+tcmd