/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); } }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); } }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); } }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); if (out != null) out.close(); if (socket != null) socket.close(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); out.flush(); out.close(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { log.info("Closing BobWriter ({} objects written to {} bytes)...", objects, bytes); super.finish(); dos.close(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { log.info("Closing BobWriter ({} objects written to {} bytes)...", objects, bytes); super.finish(); dos.close(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); if (out != null) out.close(); if (socket != null) socket.close(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); if (out != null) out.close(); if (socket != null) socket.close(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); server.shutdown(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); server.shutdown(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); server.shutdown(); }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); for (String learner : confusionMatrices.keySet()) { log.info(confusionMatrices.get(learner).toString()); } } }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); if (start != null) { Long now = System.currentTimeMillis(); Long sec = (now - start); log.info("DataRate processor '" + id + "' has been running for {} ms, {} items.", sec, count.doubleValue()); Double s = sec.doubleValue() / 1000.0d; if (s > 0) log.info( "Overall average data-rate for processor '{}' is: {}/second", id, fmt.format(count.doubleValue() / s)); } else { log.info("Start time not available."); } }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); if (start != null) { Long now = System.currentTimeMillis(); Long sec = (now - start); log.info("DataRate processor '" + id + "' has been running for {} ms, {} items.", sec, count.doubleValue()); Double s = sec.doubleValue() / 1000.0d; if (s > 0) log.info( "Overall average data-rate for processor '{}' is: {}/second", id, fmt.format(count.doubleValue() / s)); } else { log.info("Start time not available."); } }
/** * @see stream.AbstractProcessor#finish() */ @Override public void finish() throws Exception { super.finish(); if (start != null) { Long now = last; // System.currentTimeMillis(); Long sec = (now - start); log.info("DataRate processor '{}' has been running for {} ms, {} items.", id, sec, count.intValue()); Double s = sec.doubleValue() / 1000.0d; if (s > 0) log.info("Overall average data-rate for processor '{}' is: {}/second", id, fmt.format(count.doubleValue() / s)); if (dataRateGroup != null) { dataRateGroup.add(internalId, new Result(internalId, start, last, count)); } } else { log.info("Start time not available."); } }
super.finish();
super.finish();