Major Section: ARRAYS
Example Form: (aset2 'delta1 a i j 27) General Form: (aset2 name alist i j val)where
name
is a symbol, alist
is a 2-dimensional array named name
,
i
and j
are legal indices into alist
, and val
is an arbitrary
object. See arrays for details. Roughly speaking this
function ``modifies'' alist
so that the value associated with
(i . j)
is val
. More precisely, it returns a new array,
alist'
, of the same name and dimension as alist
that, under
aref2
, is everywhere equal to alist
except at (i . j)
where
the result is val
. That is, (aref2 name alist' x y)
is
(aref2 name alist x y)
for all legal indices x
y
except
i
and j
where (aref2 name alist' i j)
is val
.In order to ``modify'' alist
, aset2
cons
es a new pair onto the
front. If the length of the resulting alist
exceeds the
:
maximum-length
entry in the array header, aset2
compresses the
array as with compress2
.
It is generally expected that the ``semantic value'' of name
will be
alist
(see arrays). This function operates in virtually
constant time whether this condition is true or not (unless the
compress2
operation is required). But the value returned by this
function cannot be used efficiently by subsequent aset2
operations
unless alist
is the semantic value of name
when aset2
is executed.
Thus, if the condition is not true, aset2
prints a slow array
warning to the comment window. See slow-array-warning.