+@defun rassq-delete-all value alist
+This function deletes from @var{alist} all the elements whose @sc{cdr}
+is @code{eq} to @var{value}. It returns the shortened alist, and
+often modifies the original list structure of @var{alist}.
+@code{rassq-delete-all} is like @code{assq-delete-all} except that it
+compares the @sc{cdr} of each @var{alist} association instead of the
+@sc{car}.
+@end defun
+
+@node Rings
+@section Managing a Fixed-Size Ring of Objects
+
+@cindex ring data structure
+ This section describes functions for operating on rings. A
+@dfn{ring} is a fixed-size data structure that supports insertion,
+deletion, rotation, and modulo-indexed reference and traversal.
+
+@defun make-ring size
+This returns a new ring capable of holding @var{size} objects.
+@var{size} should be an integer.
+@end defun
+
+@defun ring-p object
+This returns @code{t} if @var{object} is a ring, @code{nil} otherwise.
+@end defun
+
+@defun ring-size ring
+This returns the maximum capacity of the @var{ring}.
+@end defun
+
+@defun ring-length ring
+This returns the number of objects that @var{ring} currently contains.
+The value will never exceed that returned by @code{ring-size}.
+@end defun
+
+@defun ring-elements ring
+This returns a list of the objects in @var{ring}, in order, newest first.
+@end defun
+
+@defun ring-copy ring
+This returns a new ring which is a copy of @var{ring}.
+The new ring contains the same (@code{eq}) objects as @var{ring}.
+@end defun
+
+@defun ring-empty-p ring
+This returns @code{t} if @var{ring} is empty, @code{nil} otherwise.
+@end defun
+
+ The newest element in the ring always has index 0. Higher indices
+correspond to older elements. Indices are computed modulo the ring
+length. Index @minus{}1 corresponds to the oldest element, @minus{}2
+to the next-oldest, and so forth.
+
+@defun ring-ref ring index
+This returns the object in @var{ring} found at index @var{index}.
+@var{index} may be negative or greater than the ring length. If
+@var{ring} is empty, @code{ring-ref} signals an error.
+@end defun
+
+@defun ring-insert ring object
+This inserts @var{object} into @var{ring}, making it the newest
+element, and returns @var{object}.
+
+If the ring is full, insertion removes the oldest element to
+make room for the new element.
+@end defun
+
+@defun ring-remove ring &optional index
+Remove an object from @var{ring}, and return that object. The
+argument @var{index} specifies which item to remove; if it is
+@code{nil}, that means to remove the oldest item. If @var{ring} is
+empty, @code{ring-remove} signals an error.
+@end defun
+
+@defun ring-insert-at-beginning ring object
+This inserts @var{object} into @var{ring}, treating it as the oldest
+element. The return value is not significant.
+
+If the ring is full, this function removes the newest element to make
+room for the inserted element.
+@end defun
+
+@cindex fifo data structure
+ If you are careful not to exceed the ring size, you can
+use the ring as a first-in-first-out queue. For example:
+
+@lisp
+(let ((fifo (make-ring 5)))
+ (mapc (lambda (obj) (ring-insert fifo obj))
+ '(0 one "two"))
+ (list (ring-remove fifo) t
+ (ring-remove fifo) t
+ (ring-remove fifo)))
+ @result{} (0 t one t "two")
+@end lisp
+