The docstrings for
rest say that these functions call
seq on their arguments to convey the idea that you don't have to call
seq yourself when passing in a seqable collection which is not in itself a seq, like, say, a vector or set. For example,
(first [1 2 3])
would not work if
first didn't call
seq on its argument; you'd have to say
(first (seq [1 2 3]))
instead, which would be inconvenient.
drop also call
seq on their arguments, otherwise you couldn't call them on vectors and the like as explained above. In fact this is true of all standard seq collections -- those which do not call
seq directly are built upon lower-level components which do.
In no way does this impair the laziness of lazy seqs. The forcing / realization which happens as a result of a
rest call is the smallest amount possible to obtain the requested result. (How much that is depends on the type of the argument; if it is not in fact lazy, there is no extra realization involved in the
first call; if it is partly lazy -- that is, chunked -- there will be some extra realization (up to 32 initial elements will be computed at once); if it's fully lazy, only the first element will be computed.)
first, when passed a lazy seq, must force the realization of its first element -- that's the whole point.
rest is actually somewhat lazy in that it actually doesn't force the realization of the "rest" part of the seq (that's in contrast to
next, which is basically equivalent to
(seq (rest ...))). The fact that it does force the first element to be realized so that it can skip over it immediately is a conscious design choice which avoids unnecessary layering of lazy seq objects and holding the head of the original seq; you could say something like
(lazy-seq (rest xs)) to defer even this initial realization, at the cost of holding on to
xs until realized the lazy seq wrapper is realized.