/** Destroys port manager and related caches. */ public void destroy() { ignite.destroyCache(portMgrCacheName); }
/** {@inheritDoc} */ @Override public void destroyCache(String cacheName) { checkIgnite(); g.destroyCache(cacheName); }
@Override public void apply(Integer idx) { Ignite ignite = ignite(idx); ignite.destroyCache(DEFAULT_CACHE_NAME); } }, NODES, "cache-thread");
@Override public Object call() throws Exception { ignite.destroyCache(DEFAULT_CACHE_NAME); return null; } }, IgniteException.class, EXPECTED_MSG);
/** Destroys TensorFlow cluster manager and related caches. */ public void destroy() { clusterRslvr.destroy(); ignite.destroyCache(TF_CLUSTER_METADATA_CACHE_NAME); }
/** {@inheritDoc} */ @Override protected void afterTest() throws Exception { node.destroyCache(CACHE_NAME); }
@Override public void run() { srv.destroyCache(DEFAULT_CACHE_NAME); } });
@Override public void run() { srv.destroyCache("cache1"); } });
@Override public Object call() throws Exception { barrier.await(); ignite.destroyCache(DEFAULT_CACHE_NAME); return null; } });
/** * @param ignite Node. * @param cacheName Cache name. */ private void destroyCache(Ignite ignite, String cacheName) { storeMap.clear(); ignite.destroyCache(cacheName); }
@Override public Object call() throws Exception { ignite.destroyCache(CACHE_NAMES[idx.getAndIncrement()]); return null; } }, CACHE_COUNT, "cache-starter");
/** * Destroy cache. * * @param node Node. * @param cacheName Cache name. */ protected void destroyCache(Ignite node, String cacheName) throws IgniteCheckedException { node.destroyCache(cacheName); alignCacheTopologyVersion(node); }
/** * @param cacheName Cache name. */ private void destroyCache(String cacheName) { storeMap.clear(); for (Ignite ignite : G.allGrids()) { try { ignite.destroyCache(cacheName); } catch (IgniteException ignore) { // No-op. } } }
/** {@inheritDoc} */ @Override protected void afterTest() throws Exception { ignite(0).destroyCache("S2P"); ignite(0).destroyCache("I2P"); ignite(0).destroyCache("K2P"); ignite(0).destroyCache("K22P"); ignite(0).destroyCache("I2I"); ignite(0).destroyCache("I2AT"); super.afterTest(); }
@Override public void run() { srv.destroyCache(DEFAULT_CACHE_NAME); srv.getOrCreateCache(new CacheConfiguration<>(DEFAULT_CACHE_NAME)); } });
/** {@inheritDoc} */ @Override protected void afterTest() throws Exception { super.afterTest(); ignite(0).destroyCache(DEFAULT_CACHE_NAME); }
@Override public void run() { srv.destroyCache(DEFAULT_CACHE_NAME); CacheConfiguration ccfg = new CacheConfiguration(DEFAULT_CACHE_NAME); ccfg.setAtomicityMode(TRANSACTIONAL); srv.getOrCreateCache(ccfg); } });
/** {@inheritDoc} */ @Override protected void afterTest() throws Exception { super.afterTest(); try { checkInternalCleanup(); } finally { ignite(0).destroyCache(DEFAULT_CACHE_NAME); } }
/** {@inheritDoc} */ @Override protected void afterTest() throws Exception { for (CacheConfiguration ccfg : cacheConfigurations()) ignite(0).destroyCache(ccfg.getName()); super.afterTest(); }
@Override public void apply(Integer idx) { for (int i = 0; i < 100; i++) { CacheConfiguration<Object, Object> ccfg = new CacheConfiguration<>(DEFAULT_CACHE_NAME); ccfg.setName("cache-" + idx + "-" + i); ccfg.setEvictionPolicy(new LruEvictionPolicy(1000)); ccfg.setOnheapCacheEnabled(true); IgniteCache<Object, Object> cache = ignite.createCache(ccfg); for (int k = 0; k < 5000; k++) cache.put(k, new byte[1024]); ignite.destroyCache(cache.getName()); } } }, 5, "cache-thread");