@Override
public List<FileTreeElement> filter(PatternSet patternSet) {
ImmutableList.Builder<FileTreeElement> filtered = ImmutableList.builder();
final Spec<FileTreeElement> spec = patternSet.getAsSpec();
for (FileTreeElement element : entries) {
if (spec.isSatisfiedBy(element)) {
filtered.add(element);
}
}
return filtered.build();
}
private TaskInfo getNextReadyAndMatching(Spec<TaskInfo> criteria) {
for (TaskInfo taskInfo : executionPlan.values()) {
if (taskInfo.isReady() && criteria.isSatisfiedBy(taskInfo)) {
return taskInfo;
}
}
return null;
}
public static <T, C extends Collection<T>> C filter(
Iterable<? extends T> source, C destination, Spec<? super T> filter) {
for (T item : source) {
if (filter.isSatisfiedBy(item)) {
destination.add(item);
}
}
return destination;
}
public static <T> T findFirst(T[] source, Spec<? super T> filter) {
for (T thing : source) {
if (filter.isSatisfiedBy(thing)) {
return thing;
}
}
return null;
}
public static <T> T findFirst(Iterable<? extends T> source, Spec<? super T> filter) {
for (T item : source) {
if (filter.isSatisfiedBy(item)) {
return item;
}
}
return null;
}
public static <T> boolean every(Iterable<? extends T> things, Spec<? super T> predicate) {
for (T thing : things) {
if (!predicate.isSatisfiedBy(thing)) {
return false;
}
}
return true;
}
private List<DaemonInfo> daemonInfosOfEntriesMatching(Spec<DaemonInfo> spec) {
List<DaemonInfo> matches = new ArrayList<DaemonInfo>();
for (DaemonInfo daemonInfo : daemonInfos.values()) {
if (spec.isSatisfiedBy(daemonInfo)) {
matches.add(daemonInfo);
}
}
return matches;
}
public static <E> boolean replace(
List<E> list, Spec<? super E> filter, Transformer<? extends E, ? super E> transformer) {
boolean replaced = false;
int i = 0;
for (E it : list) {
if (filter.isSatisfiedBy(it)) {
list.set(i, transformer.transform(it));
replaced = true;
}
++i;
}
return replaced;
}
public void determineExecutionPlan() {
List<TaskInfo> nodeQueue =
CollectionUtils.collect(
new ArrayList<Task>(entryTasks),
new Transformer<TaskInfo, Task>() {
public TaskInfo transform(Task original) {
return graph.getNode(original);
}
});
Set<TaskInfo> visitingNodes = new HashSet<TaskInfo>();
while (!nodeQueue.isEmpty()) {
TaskInfo taskNode = nodeQueue.get(0);
boolean filtered = !filter.isSatisfiedBy(taskNode.getTask());
if (filtered) {
taskNode.setRequired(false);
}
if (!taskNode.getRequired() || executionPlan.containsKey(taskNode.getTask())) {
nodeQueue.remove(0);
continue;
}
if (visitingNodes.add(taskNode)) {
// Have not seen this task before - add its dependencies to the head of the queue and leave
// this
// task in the queue
ArrayList<TaskInfo> dependsOnTasks = new ArrayList<TaskInfo>();
addAllReversed(dependsOnTasks, taskNode.getHardSuccessors());
addAllReversed(dependsOnTasks, taskNode.getSoftSuccessors());
for (TaskInfo dependsOnTask : dependsOnTasks) {
if (visitingNodes.contains(dependsOnTask)) {
throw new CircularReferenceException(
String.format(
"Circular dependency between tasks. Cycle includes [%s, %s].",
taskNode.getTask(), dependsOnTask.getTask()));
}
nodeQueue.add(0, dependsOnTask);
}
} else {
// Have visited this task's dependencies - add it to the end of the plan
nodeQueue.remove(0);
visitingNodes.remove(taskNode);
executionPlan.put(taskNode.getTask(), taskNode);
}
}
}
public OutputEventRenderer addStandardOutputAndError() {
boolean stdOutIsTerminal = terminalDetector.isSatisfiedBy(FileDescriptor.out);
boolean stdErrIsTerminal = terminalDetector.isSatisfiedBy(FileDescriptor.err);
if (stdOutIsTerminal) {
PrintStream outStr = org.fusesource.jansi.AnsiConsole.out();
Console console = new AnsiConsole(outStr, outStr, colourMap);
addConsole(console, true, stdErrIsTerminal);
} else if (stdErrIsTerminal) {
// Only stderr is connected to a terminal
PrintStream errStr = org.fusesource.jansi.AnsiConsole.err();
Console console = new AnsiConsole(errStr, errStr, colourMap);
addConsole(console, false, true);
}
if (!stdOutIsTerminal) {
addStandardOutput(System.out);
}
if (!stdErrIsTerminal) {
addStandardError(System.err);
}
return this;
}
private static List<Method> findAllMethodsInternal(
Class<?> target,
Spec<Method> predicate,
MultiMap<String, Method> seen,
List<Method> collector,
boolean stopAtFirst) {
for (final Method method : target.getDeclaredMethods()) {
List<Method> seenWithName = seen.get(method.getName());
Method override =
CollectionUtils.findFirst(
seenWithName,
new Spec<Method>() {
public boolean isSatisfiedBy(Method potentionOverride) {
return potentionOverride.getName().equals(method.getName())
&& Arrays.equals(
potentionOverride.getParameterTypes(), method.getParameterTypes());
}
});
if (override == null) {
seenWithName.add(method);
if (predicate.isSatisfiedBy(method)) {
collector.add(method);
if (stopAtFirst) {
return collector;
}
}
}
}
Class<?> parent = target.getSuperclass();
if (parent != null) {
return findAllMethodsInternal(parent, predicate, seen, collector, stopAtFirst);
}
return collector;
}
@Override
public boolean isSatisfiedBy(StackTraceElement element) {
return truncationPointReached |= truncationPointDetector.isSatisfiedBy(element);
}