public TrieParserReader(boolean alwaysCompletePayloads) { this.alwaysCompletePayloads = alwaysCompletePayloads; workingPipe.initBuffers(); }
public EncodingConverter() { workingPipeA.initBuffers(); workingPipeB.initBuffers(); }
public EncodingConverter() { workingPipeA.initBuffers(); workingPipeB.initBuffers(); }
public TrieParserReader(boolean alwaysCompletePayloads) { this.alwaysCompletePayloads = alwaysCompletePayloads; workingPipe.initBuffers(); }
public EncodingConverter() { workingPipeA.initBuffers(); workingPipeB.initBuffers(); }
public TrieParserReader(boolean alwaysCompletePayloads) { this.alwaysCompletePayloads = alwaysCompletePayloads; workingPipe.initBuffers(); }
public BytesFieldConsumer(BytesFieldProcessor processor) { this.processor = processor; this.pipe.initBuffers(); Pipe.validateVarLength(pipe, 10); }
public UTF8FieldConsumer(UTF8FieldProcessor<A> processor, A target) { this.processor = processor; this.pipe.initBuffers(); this.target = target; Pipe.validateVarLength(pipe, 10); }
public UTF8FieldConsumer(UTF8FieldProcessor<A> processor, A target) { this.processor = processor; this.pipe.initBuffers(); this.target = target; Pipe.validateVarLength(pipe, 10); }
public BytesFieldConsumer(BytesFieldProcessor processor) { this.processor = processor; this.pipe.initBuffers(); Pipe.validateVarLength(pipe, 10); }
public UTF8FieldConsumer(UTF8FieldProcessor<A> processor, A target) { this.processor = processor; this.pipe.initBuffers(); this.target = target; Pipe.validateVarLength(pipe, 10); }
public static void initInputPipesAsNeeded(GraphManager m, int stageId) { int pipeIdIn; int idx = m.stageIdToInputsBeginIdx[stageId]; while (-1 != (pipeIdIn=m.multInputIds[idx++])) { if (!Pipe.isInit(m.pipeIdToPipe[pipeIdIn])) { m.pipeIdToPipe[pipeIdIn].initBuffers(); } } }
public BytesFieldConsumer(BytesFieldProcessor processor) { this.processor = processor; this.pipe.initBuffers(); Pipe.validateVarLength(pipe, 10); }
public HTTPHeaderDateTimeFormatterLowGC() { HTTP_HEADER_DATE_FORMAT = "EEE, dd MMM yyyy HH:mm:ss"; SECONDS_OFFSET = 23; //where the seconds begin SECONDS_LENGTH = 2; //where the seconds ends formatter = DateTimeFormatter .ofPattern(HTTP_HEADER_DATE_FORMAT) .withZone( ZoneOffset.UTC ); temp = RawDataSchema.instance.newPipe(2, 32); temp.initBuffers(); }
public TrieCollector(int size) { trie = new TrieParser(size, 2, false, false); reader = new TrieParserReader(); pipe.initBuffers(); }
public TrieCollector(int size) { trie = new TrieParser(size, 2, false, false); reader = new TrieParserReader(); pipe.initBuffers(); }
public TrieCollector(int size) { trie = new TrieParser(size, 2, false, false); reader = new TrieParserReader(); pipe.initBuffers(); }
public OAuth2BearerExtractor() { buffer.initBuffers(); keyParser.setUTF8Value(typeValueKey, 1); keyParser.setUTF8Value(typeAccessKey, 2); valueParser.setUTF8Value(typeValueExpected, 3); }
private void emptyReplayImpl(boolean encryption, boolean telemetry) { Pipe<PersistedBlobStoreProducerSchema> perStoreProducer = PersistedBlobStoreProducerSchema.instance.newPipe(10, 1000); Pipe<PersistedBlobStoreConsumerSchema> perStoreConsumer = PersistedBlobStoreConsumerSchema.instance.newPipe(10, 1000); perStoreProducer.initBuffers(); perStoreConsumer.initBuffers(); PipeWriter.presumeWriteFragment(perStoreConsumer, PersistedBlobStoreConsumerSchema.MSG_REQUESTREPLAY_6); PipeWriter.publishWrites(perStoreConsumer); PipeWriter.publishEOF(perStoreConsumer); String result = runGraph(perStoreProducer, perStoreConsumer, encryption, telemetry); assertTrue(result, result.indexOf("BeginReplay")>0); assertTrue(result, result.indexOf("FinishReplay")>0); }
@Test public void decodeStringTest() throws IOException{ Pipe<RawDataSchema> pipe = new Pipe<RawDataSchema>(new PipeConfig<RawDataSchema>(RawDataSchema.instance, 100, 4000)); pipe.initBuffers(); DataOutputBlobWriter<RawDataSchema> writer = new DataOutputBlobWriter<RawDataSchema>(pipe); DataOutputBlobWriter.writePackedInt(writer, -63); writer.writeUTF("This is a test"); writer.close(); DataInputBlobReader<RawDataSchema> reader = new DataInputBlobReader<RawDataSchema>(pipe); String stest = PhastDecoder.decodeString(reader, false); reader.close(); assertTrue(stest.compareTo("This is a test") == 0); }