Closed GoogleCodeExporter closed 9 years ago
A possibly easier implementation is to create a new FoldFunction type. And
implement
foldLeft as
static <A, B> A foldLeft(Iterable<B> xs, A z, FoldFunction<A, B> f)
{
A p = z;
for (B x : xs)
{
p = f.apply(p, x);
}
return p;
}
interface FoldFunction<A, B>
{
A apply(A a, B b);
}
Original comment by rwallace...@gmail.com
on 13 Aug 2009 at 12:07
What about a compress() function? (Maybe there's a better name.) compress()
would
have to return null in the case of failure. Like this:
static <T> Iterable<T> compress(Iterable<T> iterable, CompressFunction<T> f) {
Iterator<T> i = iterable.iterator();
if (!i.hasNext())
return Collections.emptyList();
T first = i.next();
if (!i.hasNext())
return ImmutableList.of(first);
Stack<T> compressed = new Stack<T>();
compressed.push(first);
while (i.hasNext()) {
T t = i.next();
T c = f.compress(compressed.peek(), t);
if (c != null) {
compressed.pop();
compressed.push(c);
} else {
compressed.push(t);
}
}
return ImmutableList.copyOf(compressed);
}
interface CompressFunction<T> {
T compress(T t1, T t2);
}
class Range {
int from, to;
}
class CompressRanges implements CompressFunction<Range> {
public Range compress(Range r1, Range r2) {
if (r1.from > r2.to || r1.to < r2.from)
return null;
Range r = new Range();
r.from = Math.min(r1.from, r2.from);
r.to = Math.min(r1.to, r2.to);
return r;
}
}
I'd like to hear your input on this. Do my random thoughts make sense to
anybody?
Original comment by andre.ru...@gmail.com
on 13 Aug 2009 at 8:52
I prefer the term reduce, and i'd also like to see it in the library.
{{{
/** (a, b, c, d) -> f(f(f(a, b), c), d) */
public static <T> T reduce(final Iterable<? extends T> gen, final Function2<?
super
T, ? super T, ? extends T> f) {
final Iterator<? extends T> it = gen.iterator();
if (!it.hasNext()) {
return null;
}
T result = it.next();
while (it.hasNext()) {
result = f.apply(result, it.next());
}
return result;
}
/** (a, b, c, d), initial -> f(f(f(f(initial,a), b), c), d) */
public static <X,Y> X reduce(final Iterable<? extends Y> gen, final X initial,
final
Function2<? super X, ? super Y, ? extends X> function) {
final Iterator<? extends Y> it = gen.iterator();
if (!it.hasNext()) {
return initial;
}
X acc = initial;
while (it.hasNext()) {
acc = function.apply(acc, it.next());
}
return acc;
}
}}}
Original comment by jvdne...@gmail.com
on 14 Aug 2009 at 9:42
This requires the inclusion of a two-argument functor interface. I've seen
negative
reactions on previous requests so I'm thinking there's little chance of this
one
getting accepted. The fact that it keeps coming back accounts for something
though.
Original comment by jvdne...@gmail.com
on 18 Aug 2009 at 8:42
I am not specifically declaring this to be out of scope, but it's important to
realize
that this kind of functional programming stuff has never been our core focus.
The
main reason we have Predicate at all is just that it's hard to filter an
iterator by
hand, and a filter() library method needs something like that, so there it is.
The
main reason we have Function is that MapMaker needs it.
Original comment by kevin...@gmail.com
on 18 Aug 2009 at 9:51
(remember that "Accepted" != "promise that we will do it")
Original comment by kevin...@gmail.com
on 17 Sep 2009 at 4:59
Original comment by kevin...@gmail.com
on 17 Sep 2009 at 5:45
Original comment by kevin...@gmail.com
on 17 Sep 2009 at 5:57
This issue has been moved to the Guava project (keeping the same id number).
Simply replace 'google-collections' with 'guava-libraries' in your address
bar and it should take you there.
Original comment by kevinb@google.com
on 5 Jan 2010 at 11:09
Original issue reported on code.google.com by
rwallace...@gmail.com
on 12 Aug 2009 at 11:37