/** {@inheritDoc} */ @Override public void onCollision( Collection<GridCollisionJobContext> waitJobs, Collection<GridCollisionJobContext> activeJobs) { assert waitJobs != null; assert activeJobs != null; int activeSize = F.size(activeJobs, RUNNING_JOBS); waitingCnt.set(waitJobs.size()); runningCnt.set(activeSize); heldCnt.set(activeJobs.size() - activeSize); int waitSize = waitJobs.size(); int activateCnt = parallelJobsNum - activeSize; if (activateCnt > 0 && !waitJobs.isEmpty()) { if (waitJobs.size() <= activateCnt) { for (GridCollisionJobContext waitJob : waitJobs) { waitJob.activate(); waitSize--; } } else { List<GridCollisionJobContext> passiveList = new ArrayList<GridCollisionJobContext>(waitJobs); Collections.sort( passiveList, new Comparator<GridCollisionJobContext>() { /** {@inheritDoc} */ @Override public int compare(GridCollisionJobContext o1, GridCollisionJobContext o2) { int p1 = getJobPriority(o1); int p2 = getJobPriority(o2); return p1 < p2 ? 1 : p1 == p2 ? 0 : -1; } }); if (preventStarvation) bumpPriority(waitJobs, passiveList); for (int i = 0; i < activateCnt; i++) { passiveList.get(i).activate(); waitSize--; } } } if (waitSize > waitJobsNum) { List<GridCollisionJobContext> waitList = new ArrayList<GridCollisionJobContext>(waitJobs); // Put jobs with highest priority first. Collections.sort( waitList, new Comparator<GridCollisionJobContext>() { /** {@inheritDoc} */ @Override public int compare(GridCollisionJobContext o1, GridCollisionJobContext o2) { int p1 = getJobPriority(o1); int p2 = getJobPriority(o2); return p1 < p2 ? 1 : p1 == p2 ? 0 : -1; } }); int skip = waitJobs.size() - waitSize; int i = 0; for (GridCollisionJobContext waitCtx : waitList) { if (++i >= skip) { waitCtx.cancel(); if (--waitSize <= waitJobsNum) break; } } } }
/** {@inheritDoc} */ @Override protected List<String> getConsistentAttributeNames() { return Collections.singletonList(createSpiAttributeName(PRIORITY_ATTRIBUTE_KEY)); }
/** @throws Exception If failed. */ public void testEmptyProjections() throws Exception { final GridClientCompute dflt = client.compute(); Collection<? extends GridClientNode> nodes = dflt.nodes(); assertEquals(NODES_CNT, nodes.size()); Iterator<? extends GridClientNode> iter = nodes.iterator(); final GridClientCompute singleNodePrj = dflt.projection(Collections.singletonList(iter.next())); final GridClientNode second = iter.next(); final GridClientPredicate<GridClientNode> noneFilter = new GridClientPredicate<GridClientNode>() { @Override public boolean apply(GridClientNode node) { return false; } }; final GridClientPredicate<GridClientNode> targetFilter = new GridClientPredicate<GridClientNode>() { @Override public boolean apply(GridClientNode node) { return node.nodeId().equals(second.nodeId()); } }; GridTestUtils.assertThrows( log(), new Callable<Object>() { @Override public Object call() throws Exception { return dflt.projection(noneFilter).log(-1, -1); } }, GridServerUnreachableException.class, null); GridTestUtils.assertThrows( log(), new Callable<Object>() { @Override public Object call() throws Exception { return singleNodePrj.projection(second); } }, GridClientException.class, null); GridTestUtils.assertThrows( log(), new Callable<Object>() { @Override public Object call() throws Exception { return singleNodePrj.projection(targetFilter); } }, GridClientException.class, null); }