@noindent
@code{diff:edit-length} implements the algorithm:

@ifinfo
@example
S. Wu, E. Myers, U. Manber, and W. Miller,
   "An O(NP) Sequence Comparison Algorithm,"
   Information Processing Letters 35, 6 (1990), 317-323.
   @url{http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps}
@end example
@end ifinfo
@ifset html
S. Wu, <A HREF="http://www.cs.arizona.edu/people/gene/vita.html">
E. Myers,</A> U. Manber, and W. Miller,
<A HREF="http://www.cs.arizona.edu/people/gene/PAPERS/np_diff.ps">
"An O(NP) Sequence Comparison Algorithm"</A>,
Information Processing Letters 35, 6 (1990), 317-323.
@end ifset

@noindent
The values returned by @code{diff:edit-length} can be used to gauge
the degree of match between two sequences.

@noindent
@code{diff:edits} and @code{diff:longest-common-subsequence} combine
the algorithm with the divide-and-conquer method outlined in:

@ifinfo
@example
E. Myers and W. Miller,
   "Optimal alignments in linear space",
   Computer Application in the Biosciences (CABIOS), 4(1):11-17, 1988.
   @url{http://www.cs.arizona.edu/people/gene/PAPERS/linear.ps}
@end example
@end ifinfo
@ifset html
<A HREF="http://www.cs.arizona.edu/people/gene/vita.html">
E. Myers,</A> and W. Miller,
<A HREF="http://www.cs.arizona.edu/people/gene/PAPERS/linear.ps">
"Optimal alignments in linear space"</A>,
Computer Application in the Biosciences (CABIOS), 4(1):11-17, 1988.
@end ifset

@noindent
If the items being sequenced are text lines, then the computed
edit-list is equivalent to the output of the @dfn{diff} utility
@cindex diff
program.  If the items being sequenced are words, then it is like the
lesser known @dfn{spiff} program.
@cindex spiff


@defun diff:longest-common-subsequence array1 array2 p-lim


@defunx diff:longest-common-subsequence array1 array2
@var{array1} and @var{array2} are one-dimensional arrays.

The non-negative integer @var{p-lim}, if provided, is maximum number of
deletions of the shorter sequence to allow.  @code{diff:longest-common-subsequence} will return @code{#f}
if more deletions would be necessary.

@code{diff:longest-common-subsequence} returns a one-dimensional array of length @code{(quotient (- (+
len1 len2) (diff:edit-length @var{array1} @var{array2})) 2)} holding the longest sequence
common to both @var{array}s.
@end defun


@defun diff:edits array1 array2 p-lim


@defunx diff:edits array1 array2
@var{array1} and @var{array2} are one-dimensional arrays.

The non-negative integer @var{p-lim}, if provided, is maximum number of
deletions of the shorter sequence to allow.  @code{diff:edits} will return @code{#f}
if more deletions would be necessary.

@code{diff:edits} returns a vector of length @code{(diff:edit-length @var{array1} @var{array2})} composed
of a shortest sequence of edits transformaing @var{array1} to @var{array2}.

Each edit is an integer:
@table @asis
@item @var{k} > 0
Inserts @code{(array-ref @var{array1} (+ -1 @var{j}))} into the sequence.
@item @var{k} < 0
Deletes @code{(array-ref @var{array2} (- -1 @var{k}))} from the sequence.
@end table
@end defun


@defun diff:edit-length array1 array2 p-lim


@defunx diff:edit-length array1 array2
@var{array1} and @var{array2} are one-dimensional arrays.

The non-negative integer @var{p-lim}, if provided, is maximum number of
deletions of the shorter sequence to allow.  @code{diff:edit-length} will return @code{#f}
if more deletions would be necessary.

@code{diff:edit-length} returns the length of the shortest sequence of edits transformaing
@var{array1} to @var{array2}.
@end defun

@example
(diff:longest-common-subsequence "fghiejcklm" "fgehijkpqrlm")
@result{} "fghijklm"

(diff:edit-length "fghiejcklm" "fgehijkpqrlm")
@result{} 6

(diff:edits "fghiejcklm" "fgehijkpqrlm")
@result{} #A:fixZ32b(3 -5 -7 8 9 10)
       ; e  c  h p q  r
@end example