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@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } }
List<ImportCandidate> candidates() { return Ordering.natural().sortedCopy(importCandidates.values()); } }
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } };
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); } })
@Override public Iterable<Integer> order(List<Integer> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); }
@Override public Iterable<BigInteger> order(List<BigInteger> insertionOrder) { return Ordering.natural().sortedCopy(insertionOrder); }
@Override public String apply(final ServicePorts input) { return Joiner.on(", ").join(Ordering.natural().sortedCopy(input.getPorts().keySet())); } };
public static <K extends Comparable<K>, V> void printMap(final PrintStream out, final String name, final Function<V, String> transform, final Map<K, V> values) { out.print(name); boolean first = true; for (final K key : Ordering.natural().sortedCopy(values.keySet())) { if (!first) { out.print(Strings.repeat(" ", name.length())); } final V value = values.get(key); out.printf("%s=%s%n", key, transform.apply(value)); first = false; } if (first) { out.println(); } }
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().nullsFirst().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().nullsFirst().sortedCopy(insertionOrder); } })
@Override public List<String> order(List<String> insertionOrder) { return Ordering.natural().nullsFirst().sortedCopy(insertionOrder); } })
@GET @Timed @RequiresGuest @ApiOperation(value = "Get the initial permissions assigned to a reader account") @Path("reader/{username}") @Produces(APPLICATION_JSON) public ReaderPermissionResponse readerPermissions( @ApiParam(name = "username", required = true) @PathParam("username") String username) { return ReaderPermissionResponse.create( Ordering.natural().sortedCopy(permissions.userSelfEditPermissions(username))); } }
public void testMergeSorted_skipping_pyramid() { List<Iterable<Integer>> iterables = Lists.newLinkedList(); List<Integer> allIntegers = Lists.newArrayList(); for (int i = 0; i < 20; i++) { List<Integer> list = Lists.newLinkedList(); for (int j = 0; j < i; j++) { list.add(j * i); allIntegers.add(j * i); } iterables.add(Ordering.natural().sortedCopy(list)); } verifyMergeSorted(iterables, allIntegers); }