# $OpenBSD: hanoi.sed,v 1.1 2008/10/10 14:33:34 millert Exp $ # Towers of Hanoi in sed. # # from: @(#)hanoi.sed 8.1 (Berkeley) 6/6/93 # # # Ex: # Run "sed -f hanoi.sed", and enter: # # :abcd: : : # # note -- TWO carriage returns, a peculiarity of sed), this will output the # sequence of states involved in moving 4 rings, the largest called "a" and # the smallest called "d", from the first to the second of three towers, so # that the rings on any tower at any time are in descending order of size. # You can start with a different arrangement and a different number of rings, # say :ce:b:ax: and it will give the shortest procedure for moving them all # to the middle tower. The rules are: the names of the rings must all be # lower-case letters, they must be input within 3 fields (representing the # towers) and delimited by 4 colons, such that the letters within each field # are in alphabetical order (i.e. rings are in descending order of size). # # For the benefit of anyone who wants to figure out the script, an "internal" # line of the form # b:0abx:1a2b3 :2 :3x2 # has the following meaning: the material after the three markers :1, :2, # and :3 represents the three towers; in this case the current set-up is # ":ab : :x :". The numbers after a, b and x in these fields indicate # that the next time it gets a chance, it will move a to tower 2, move b # to tower 3, and move x to tower 2. The string after :0 just keeps track # of the alphabetical order of the names of the rings. The b at the # beginning means that it is now dealing with ring b (either about to move # it, or re-evaluating where it should next be moved to). # # Although this version is "limited" to 26 rings because of the size of the # alphabet, one could write a script using the same idea in which the rings # were represented by arbitrary [strings][within][brackets], and in place of # the built-in line of the script giving the order of the letters of the # alphabet, it would accept from the user a line giving the ordering to be # assumed, e.g. [ucbvax][decvax][hplabs][foo][bar]. # # George Bergman # Math, UC Berkeley 94720 USA # cleaning, diagnostics s/ *//g /^$/d /[^a-z:]/{a\ Illegal characters: use only a-z and ":". Try again. d } /^:[a-z]*:[a-z]*:[a-z]*:$/!{a\ Incorrect format: use\ \ : string1 : string2 : string3 :\ Try again. d } /\([a-z]\).*\1/{a\ Repeated letters not allowed. Try again. d } # initial formatting h s/[a-z]/ /g G s/^:\( *\):\( *\):\( *\):\n:\([a-z]*\):\([a-z]*\):\([a-z]*\):$/:1\4\2\3:2\5\1\3:3\6\1\2:0/ s/[a-z]/&2/g s/^/abcdefghijklmnopqrstuvwxyz/ :a s/^\(.\).*\1.*/&\1/ s/.// /^[^:]/ba s/\([^0]*\)\(:0.*\)/\2\1:/ s/^[^0]*0\(.\)/\1&/ :b # outputting current state without markers h s/.*:1/:/ s/[123]//gp g :c # establishing destinations /^\(.\).*\1:1/td /^\(.\).*:1[^:]*\11/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\31/ /^\(.\).*:1[^:]*\12/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\33/ /^\(.\).*:1[^:]*\13/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\32/ /^\(.\).*:2[^:]*\11/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\33/ /^\(.\).*:2[^:]*\12/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\32/ /^\(.\).*:2[^:]*\13/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\31/ /^\(.\).*:3[^:]*\11/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\32/ /^\(.\).*:3[^:]*\12/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\31/ /^\(.\).*:3[^:]*\13/s/^\(.\)\(.*\1\([a-z]\).*\)\3./\3\2\33/ bc # iterate back to find smallest out-of-place ring :d s/^\(.\)\(:0[^:]*\([^:]\)\1.*:\([123]\)[^:]*\1\)\4/\3\2\4/ td # move said ring (right, resp. left) s/^\(.\)\(.*\)\1\([23]\)\(.*:\3[^ ]*\) /\1\2 \4\1\3/ s/^\(.\)\(.*:\([12]\)[^ ]*\) \(.*\)\1\3/\1\2\1\3\4 / tb s/.*/Done! Try another, or end with ^D./p d