void willResolveRecord(CacheKey cacheKey) { pathStack = new SimpleStack<>(); recordStack = new SimpleStack<>(); valueStack = new SimpleStack<>(); dependentKeys = new HashSet<>(); path = new ArrayList<>(); currentRecordBuilder = Record.builder(cacheKey.key()); recordSet = new RecordSet(); }
@Override public void willResolveObject(ResponseField field, Optional<R> objectSource) { pathStack.push(path); CacheKey cacheKey = objectSource.isPresent() ? resolveCacheKey(field, objectSource.get()) : CacheKey.NO_KEY; String cacheKeyValue = cacheKey.key(); if (cacheKey.equals(CacheKey.NO_KEY)) { cacheKeyValue = pathToString(); } else { path = new ArrayList<>(); path.add(cacheKeyValue); } recordStack.push(currentRecordBuilder.build()); currentRecordBuilder = Record.builder(cacheKeyValue); }
private Record createTestRecord(String id) { Record.Builder testRecord = Record.builder("key" + id); testRecord.addField("a", "stringValueA" + id); testRecord.addField("b", "stringValueB" + id); return testRecord.build(); } }
@Test public void testEviction() { LruNormalizedCache lruCache = new LruNormalizedCacheFactory(EvictionPolicy.builder().maxSizeBytes(2000) .build()).create(basicFieldAdapter); Record.Builder testRecord1Builder = Record.builder("key1"); testRecord1Builder.addField("a", new String(new byte[1100], Charset.defaultCharset())); Record testRecord1 = testRecord1Builder.build(); Record.Builder testRecord2Builder = Record.builder("key2"); testRecord2Builder.addField("a", new String(new byte[1100], Charset.defaultCharset())); Record testRecord2 = testRecord2Builder.build(); Record.Builder testRecord3Builder = Record.builder("key3"); testRecord3Builder.addField("a", new String(new byte[10], Charset.defaultCharset())); Record testRecord3 = testRecord3Builder.build(); List<Record> records = Arrays.asList( testRecord1, testRecord2, testRecord3 ); lruCache.merge(records, CacheHeaders.NONE); //Cache does not reveal exactly how it handles eviction, but appears //to evict more than is strictly necessary. Regardless, any sane eviction //strategy should leave the third record in this test case, and evict the first record. assertThat(lruCache.loadRecord("key1", CacheHeaders.NONE)).isNull(); assertThat(lruCache.loadRecord("key3", CacheHeaders.NONE)).isNotNull(); }
.build()).create(basicFieldAdapter); Record.Builder testRecord1Builder = Record.builder("key1"); testRecord1Builder.addField("a", new String(new byte[10], Charset.defaultCharset())); Record testRecord1 = testRecord1Builder.build(); Record.Builder testRecord2Builder = Record.builder("key2"); testRecord2Builder.addField("a", new String(new byte[10], Charset.defaultCharset())); Record testRecord2 = testRecord2Builder.build(); Record.Builder testRecord3Builder = Record.builder("key3"); testRecord3Builder.addField("a", new String(new byte[10], Charset.defaultCharset())); Record testRecord3 = testRecord3Builder.build(); assertThat(lruCache.loadRecord("key3", CacheHeaders.NONE)).isNotNull(); Record.Builder largeTestRecordBuilder = Record.builder("key1"); largeTestRecordBuilder.addField("a", new String(new byte[2000], Charset.defaultCharset())); Record largeTestRecord = largeTestRecordBuilder.build();
@Test public void testFieldsAdapterSerializationDeserialization() throws IOException { Record.Builder recordBuilder = Record.builder("root"); BigDecimal expectedBigDecimal = new BigDecimal(1.23); String expectedStringValue = "StringValue";
@Test public void testDualCacheMultipleRecord() { LruNormalizedCacheFactory secondaryCacheFactory = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION); NormalizedCache primaryCache = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION) .chain(secondaryCacheFactory).createChain(basicFieldAdapter); Record.Builder recordBuilder = Record.builder("root1"); recordBuilder.addField("bar", "bar"); final Record record1 = recordBuilder.build(); recordBuilder = Record.builder("root2"); recordBuilder.addField("bar", "bar"); final Record record2 = recordBuilder.build(); recordBuilder = Record.builder("root3"); recordBuilder.addField("bar", "bar"); final Record record3 = recordBuilder.build(); Collection<Record> records = Arrays.asList(record1, record2, record3); Collection<String> keys = Arrays.asList(record1.key(), record2.key(), record3.key()); primaryCache.merge(records, CacheHeaders.NONE); assertThat(primaryCache.loadRecords(keys, CacheHeaders.NONE).size()).isEqualTo(3); //verify write through behavior assertThat(primaryCache.loadRecords(keys, CacheHeaders.NONE).size()).isEqualTo(3); assertThat(primaryCache.nextCache().get() .loadRecords(keys, CacheHeaders.NONE).size()).isEqualTo(3); }
@Test public void testRecordWeigher() { Record.Builder recordBuilder = Record.builder("root"); BigDecimal expectedBigDecimal = new BigDecimal(1.23); String expectedStringValue = "StringValue"; Boolean expectedBooleanValue = true; CacheReference expectedCacheReference = new CacheReference("foo"); List<CacheReference> expectedCacheReferenceList = Arrays.asList(new CacheReference("bar"), new CacheReference ("baz")); List<Object> expectedScalarList = Arrays.<Object>asList("scalarOne", "scalarTwo"); recordBuilder.addField("bigDecimal", expectedBigDecimal); recordBuilder.addField("string", expectedStringValue); recordBuilder.addField("boolean", expectedBooleanValue); recordBuilder.addField("cacheReference", expectedCacheReference); recordBuilder.addField("scalarList", expectedScalarList); recordBuilder.addField("referenceList", expectedCacheReferenceList); Record record = recordBuilder.build(); record.sizeEstimateBytes(); //It's difficult to say what the "right" size estimate is, so just checking it is has been calculate at all. assertThat(record.sizeEstimateBytes()).isNotEqualTo(-1); } }
@Test public void testClearAll() { LruNormalizedCacheFactory secondaryCacheFactory = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION); NormalizedCache primaryCacheStore = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION) .chain(secondaryCacheFactory).createChain(basicFieldAdapter); Record record = Record.builder("key").build(); primaryCacheStore.merge(record, CacheHeaders.NONE); primaryCacheStore.clearAll(); assertThat(primaryCacheStore.loadRecord("key", CacheHeaders.NONE)).isNull(); }
@Test public void testClearPrimaryCache() { LruNormalizedCacheFactory secondaryCacheFactory = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION); LruNormalizedCache primaryCache = (LruNormalizedCache) new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION) .chain(secondaryCacheFactory).createChain(basicFieldAdapter); Record record = Record.builder("key").build(); primaryCache.merge(record, CacheHeaders.NONE); primaryCache.clearCurrentCache(); assertThat(primaryCache.nextCache().get() .loadRecord("key", CacheHeaders.NONE)).isNotNull(); assertThat(primaryCache.nextCache().get() .loadRecord("key", CacheHeaders.NONE)).isNotNull(); }
@Test public void testDualCacheSingleRecord() { LruNormalizedCacheFactory secondaryCacheFactory = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION); NormalizedCache primaryCache = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION) .chain(secondaryCacheFactory).createChain(basicFieldAdapter); Record.Builder recordBuilder = Record.builder("root"); recordBuilder.addField("bar", "bar"); final Record record = recordBuilder.build(); primaryCache.merge(record, CacheHeaders.NONE); //verify write through behavior assertThat(primaryCache.loadRecord("root", CacheHeaders.NONE).field("bar")).isEqualTo("bar"); assertThat(primaryCache.nextCache().get().loadRecord("root", CacheHeaders.NONE).field("bar")).isEqualTo("bar"); }
@Test public void testClearSecondaryCache() { LruNormalizedCacheFactory secondaryCacheFactory = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION); NormalizedCache primaryCache = new LruNormalizedCacheFactory(EvictionPolicy.NO_EVICTION) .chain(secondaryCacheFactory).createChain(basicFieldAdapter); Record record = Record.builder("key").build(); primaryCache.merge(record, CacheHeaders.NONE); primaryCache.nextCache().get().clearAll(); assertThat(primaryCache.nextCache().get().loadRecord("key", CacheHeaders.NONE)).isNull(); }
Record cursorToRecord(Cursor cursor) throws IOException { String key = cursor.getString(1); String jsonOfFields = cursor.getString(2); return Record.builder(key).addFields(recordFieldAdapter.from(jsonOfFields)).build(); }
void willResolveRecord(CacheKey cacheKey) { pathStack = new SimpleStack<>(); recordStack = new SimpleStack<>(); valueStack = new SimpleStack<>(); dependentKeys = new HashSet<>(); path = new ArrayList<>(); currentRecordBuilder = Record.builder(cacheKey.key()); recordSet = new RecordSet(); }
void willResolveRecord(CacheKey cacheKey) { pathStack = new SimpleStack<>(); recordStack = new SimpleStack<>(); valueStack = new SimpleStack<>(); dependentKeys = new HashSet<>(); path = new ArrayList<>(); currentRecordBuilder = Record.builder(cacheKey.key()); recordSet = new RecordSet(); }
@Override public void willResolveObject(ResponseField field, Optional<R> objectSource) { pathStack.push(path); CacheKey cacheKey = objectSource.isPresent() ? resolveCacheKey(field, objectSource.get()) : CacheKey.NO_KEY; String cacheKeyValue = cacheKey.key(); if (cacheKey == CacheKey.NO_KEY) { cacheKeyValue = pathToString(); } else { path = new ArrayList<>(); path.add(cacheKeyValue); } recordStack.push(currentRecordBuilder.build()); currentRecordBuilder = Record.builder(cacheKeyValue); }
@Override public void willResolveObject(ResponseField field, Optional<R> objectSource) { pathStack.push(path); CacheKey cacheKey = objectSource.isPresent() ? resolveCacheKey(field, objectSource.get()) : CacheKey.NO_KEY; String cacheKeyValue = cacheKey.key(); if (cacheKey == CacheKey.NO_KEY) { cacheKeyValue = pathToString(); } else { path = new ArrayList<>(); path.add(cacheKeyValue); } recordStack.push(currentRecordBuilder.build()); currentRecordBuilder = Record.builder(cacheKeyValue); }