package net.pterodactylus.xdcc.ui.stdin;
+import static net.pterodactylus.xdcc.data.Download.BY_NAME;
+import static net.pterodactylus.xdcc.data.Download.BY_RUNNING;
+
import java.io.BufferedReader;
import java.io.IOException;
import java.io.Reader;
import java.io.Writer;
+import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
+import java.util.Comparator;
import java.util.List;
import java.util.Set;
+import java.util.regex.Pattern;
+import net.pterodactylus.irc.Connection;
import net.pterodactylus.irc.DccReceiver;
import net.pterodactylus.irc.util.MessageCleaner;
import net.pterodactylus.xdcc.core.Core;
import net.pterodactylus.xdcc.data.Download;
import net.pterodactylus.xdcc.data.Pack;
+import com.google.common.base.Predicate;
+import com.google.common.collect.ComparisonChain;
+import com.google.common.collect.FluentIterable;
import com.google.common.collect.Lists;
+import com.google.common.collect.Ordering;
import com.google.common.collect.Sets;
import com.google.common.eventbus.Subscribe;
import com.google.common.primitives.Ints;
String lastLine = "";
String line;
final List<Result> lastResult = Lists.newArrayList();
+ final List<Connection> lastConnections = Lists.newArrayList();
while ((line = reader.readLine()) != null) {
if (line.equals("")) {
line = lastLine;
String[] words = line.split(" +");
if (words[0].equalsIgnoreCase("search")) {
lastResult.clear();
- for (Bot bot : core.bots()) {
- for (Pack pack : bot) {
+ for (Bot bot : Lists.newArrayList(core.bots())) {
+ for (Pack pack : Lists.newArrayList(bot)) {
boolean found = true;
for (int wordIndex = 1; wordIndex < words.length; ++wordIndex) {
if (words[wordIndex].startsWith("-") && pack.name().toLowerCase().contains(words[wordIndex].toLowerCase().substring(1))) {
writeLine("End of Search.");
} else if (words[0].equalsIgnoreCase("dcc")) {
int counter = 0;
- for (DccReceiver dccReceiver : core.dccReceivers()) {
- write(String.format("[%d] %s (%s, ", counter++, dccReceiver.filename(), dccReceiver.size()));
+ for (Download download : FluentIterable.from(core.downloads()).toSortedList(Ordering.from(BY_NAME).compound(BY_RUNNING))) {
+ DccReceiver dccReceiver = download.dccReceiver();
+ if (dccReceiver == null) {
+ /* download has not even started. */
+ writer.write(String.format("[%d] %s requested from %s (not started yet)\n", counter++, download.pack().name(), download.bot().name()));
+ continue;
+ }
+ writer.write(String.format("[%d] %s from %s (%s, ", counter++, dccReceiver.filename(), download.bot().name(), f(dccReceiver.size())));
if (dccReceiver.isRunning()) {
- write(String.format("%.1f%%, %s", dccReceiver.progress() * 100.0 / dccReceiver.size(), f(dccReceiver.currentRate())));
+ writer.write(String.format("%.1f%%, %s", dccReceiver.progress() * 100.0 / dccReceiver.size(), f(dccReceiver.currentRate())));
} else {
if (dccReceiver.progress() >= dccReceiver.size()) {
- write(String.format("complete, %s", f(dccReceiver.overallRate())));
+ writer.write(String.format("complete, %s", f(dccReceiver.overallRate())));
} else {
- write(String.format("aborted at %.1f%%, %s", dccReceiver.progress() * 100.0 / dccReceiver.size(), f(dccReceiver.currentRate())));
+ writer.write(String.format("aborted at %.1f%%, %s", dccReceiver.progress() * 100.0 / dccReceiver.size(), f(dccReceiver.currentRate())));
}
}
- write("/s)\n");
+ writer.write("/s)\n");
}
writeLine("End of DCCs.");
} else if (words[0].equalsIgnoreCase("get")) {
}
writeLine(String.format("%d channels (%d joined, %d extra), %d bots offering %d packs (%d unique).", configuredChannelsCount, joinedChannelsCount, extraChannelsCount, bots.size(), packsCount, packNames.size()));
+ } else if (words[0].equalsIgnoreCase("connections")) {
+ lastConnections.clear();
+ int counter = 0;
+ for (Connection connection : core.connections()) {
+ lastConnections.add(connection);
+ writer.write(String.format("[%d] %s:%d, %s/s\n", counter++, connection.hostname(), connection.port(), f(connection.getInputRate())));
+ }
+ writeLine("End of connections.");
+ } else if (words[0].equalsIgnoreCase("disconnect")) {
+ if ((words.length == 1) || ("all".equals(words[1]))) {
+ for (Connection connection : lastConnections) {
+ core.closeConnection(connection);
+ }
+ } else {
+ Integer index = Ints.tryParse(words[1]);
+ if ((index != null) && (index < lastConnections.size())) {
+ core.closeConnection(lastConnections.get(index));
+ }
+ }
}
lastLine = line;
//
/**
- * Writes the given text to the {@link #writer}.
- *
- * @param text
- * The text to write
- * @throws IOException
- * if an I/O error occurs
- */
- private void write(String text) throws IOException {
- writer.write(text);
- writer.flush();
- }
-
- /**
* Writes the given line followed by an LF to the {@link #writer}.
*
* @param line
/** Container for result information. */
private static class Result implements Comparable<Result> {
+ /** {@link Predicate} that matches {@link Result}s that contain an archive. */
+ private static final Predicate<Result> isArchive = new Predicate<Result>() {
+
+ /** All suffixes that are recognized as archives. */
+ private final List<String> archiveSuffixes = Arrays.asList("rar", "tar", "zip", "tar.gz", "tar.bz2", "tar.lzma", "7z");
+
+ @Override
+ public boolean apply(Result result) {
+ for (String suffix : archiveSuffixes) {
+ if (result.pack().name().toLowerCase().endsWith(suffix)) {
+ return true;
+ }
+ }
+ return false;
+ }
+ };
+
+ /**
+ * {@link Comparator} for {@link Result}s that sorts archives (as per {@link
+ * #isArchive} to the back of the list.
+ */
+ private static final Comparator<Result> packArchiveComparator = new Comparator<Result>() {
+ @Override
+ public int compare(Result leftResult, Result rightResult) {
+ if (isArchive.apply(leftResult) && !isArchive.apply(rightResult)) {
+ return 1;
+ }
+ if (!isArchive.apply(leftResult) && isArchive.apply(rightResult)) {
+ return -1;
+ }
+ return 0;
+ }
+ };
+
+ /**
+ * {@link Comparator} for bot nicknames. It comprises different strategies:
+ * one name pattern is preferred (and thus listed first), one pattern is
+ * disliked (and thus listed last), the rest is sorted alphabetically.
+ */
+ private static final Comparator<Result> botNameComparator = new Comparator<Result>() {
+
+ /** Regular expression pattern for preferred names. */
+ private final Pattern preferredNames = Pattern.compile("(?i)[^\\w]EUR?[^\\w]");
+
+ /** Regular expression pattern for disliked names. */
+ private final Pattern dislikedNames = Pattern.compile("(?i)[^\\w]USA?[^\\w]");
+
+ @Override
+ public int compare(Result leftResult, Result rightResult) {
+ String leftBotName = leftResult.bot().name();
+ String rightBotName = rightResult.bot().name();
+ /* preferred names to the front! */
+ if (preferredNames.matcher(leftBotName).find() && !preferredNames.matcher(rightBotName).find()) {
+ return -1;
+ }
+ if (preferredNames.matcher(rightBotName).find() && !preferredNames.matcher(leftBotName).find()) {
+ return 1;
+ }
+ /* disliked names to the back. */
+ if (dislikedNames.matcher(leftBotName).find() && !dislikedNames.matcher(rightBotName).find()) {
+ return 1;
+ }
+ if (dislikedNames.matcher(rightBotName).find() && !dislikedNames.matcher(leftBotName).find()) {
+ return -1;
+ }
+ return 0;
+ }
+ };
+
+ /**
+ * {@link Comparator} for {@link Result}s that sorts them by the name of the
+ * {@link Pack}.
+ */
+ private static final Comparator<Result> packNameComparator = new Comparator<Result>() {
+ @Override
+ public int compare(Result leftResult, Result rightResult) {
+ return leftResult.pack().name().compareToIgnoreCase(rightResult.pack().name());
+ }
+ };
+
/** The bot carrying the pack. */
private final Bot bot;
@Override
public int compareTo(Result result) {
- return pack().name().compareToIgnoreCase(result.pack().name());
+ return ComparisonChain.start()
+ .compare(this, result, packArchiveComparator)
+ .compare(this, result, botNameComparator)
+ .compare(this, result, packNameComparator).result();
}
}