freebsd-skq/usr.bin/sed/tests/hanoi.sed
jmmv 41a8d8c295 Migrate most of tools/regression/usr.bin/ to the new tests layout.
I'm starting with the easy cases.  The leftovers need to be looked at a
bit more closely.

Note that this change _does_ modify the code of the old tests.  This is
required in order to allow the code to locate the data files in the
source directory instead of the current directory, because Kyua
automatically changes the latter to a temporary directory.

Also note that at least one test is known to be broken here.  Actually,
the test is not really broken: it's marked as a TODO but unfortunately
Kyua's TAP parser currently does not understand that.  Will have to be
fixed separately.
2014-03-16 08:04:06 +00:00

104 lines
3.5 KiB
Sed

# Towers of Hanoi in sed.
#
# @(#)hanoi.sed 8.1 (Berkeley) 6/6/93
# $FreeBSD$
#
#
# Ex:
# Run "sed -f hanoi.sed", and enter:
#
# :abcd: : :<CR>
#
# note -- TWO carriage returns were once required, 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 :<CR>\
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