public void testSequenceOutputClassDefaultsToMapRedOutputClass() throws IOException { Job job = new Job(); // Setting Random class to test getSequenceFileOutput{Key,Value}Class job.setOutputKeyClass(FloatWritable.class); job.setOutputValueClass(BooleanWritable.class); assertEquals( "SequenceFileOutputKeyClass should default to ouputKeyClass", FloatWritable.class, SequenceFileAsBinaryOutputFormat.getSequenceFileOutputKeyClass(job)); assertEquals( "SequenceFileOutputValueClass should default to " + "ouputValueClass", BooleanWritable.class, SequenceFileAsBinaryOutputFormat.getSequenceFileOutputValueClass(job)); SequenceFileAsBinaryOutputFormat.setSequenceFileOutputKeyClass(job, IntWritable.class); SequenceFileAsBinaryOutputFormat.setSequenceFileOutputValueClass(job, DoubleWritable.class); assertEquals( "SequenceFileOutputKeyClass not updated", IntWritable.class, SequenceFileAsBinaryOutputFormat.getSequenceFileOutputKeyClass(job)); assertEquals( "SequenceFileOutputValueClass not updated", DoubleWritable.class, SequenceFileAsBinaryOutputFormat.getSequenceFileOutputValueClass(job)); }
public void testcheckOutputSpecsForbidRecordCompression() throws IOException { Job job = Job.getInstance(new Configuration(), "testcheckOutputSpecsForbidRecordCompression"); FileSystem fs = FileSystem.getLocal(job.getConfiguration()); Path outputdir = new Path(System.getProperty("test.build.data", "/tmp") + "/output"); fs.delete(outputdir, true); // Without outputpath, FileOutputFormat.checkoutputspecs will throw // InvalidJobConfException FileOutputFormat.setOutputPath(job, outputdir); // SequenceFileAsBinaryOutputFormat doesn't support record compression // It should throw an exception when checked by checkOutputSpecs SequenceFileAsBinaryOutputFormat.setCompressOutput(job, true); SequenceFileAsBinaryOutputFormat.setOutputCompressionType(job, CompressionType.BLOCK); try { new SequenceFileAsBinaryOutputFormat().checkOutputSpecs(job); } catch (Exception e) { fail( "Block compression should be allowed for " + "SequenceFileAsBinaryOutputFormat:Caught " + e.getClass().getName()); } SequenceFileAsBinaryOutputFormat.setOutputCompressionType(job, CompressionType.RECORD); try { new SequenceFileAsBinaryOutputFormat().checkOutputSpecs(job); fail("Record compression should not be allowed for " + "SequenceFileAsBinaryOutputFormat"); } catch (InvalidJobConfException ie) { // expected } catch (Exception e) { fail( "Expected " + InvalidJobConfException.class.getName() + "but caught " + e.getClass().getName()); } }
public void testBinary() throws IOException, InterruptedException { Configuration conf = new Configuration(); Job job = new Job(conf); Path outdir = new Path(System.getProperty("test.build.data", "/tmp"), "outseq"); Random r = new Random(); long seed = r.nextLong(); r.setSeed(seed); FileOutputFormat.setOutputPath(job, outdir); SequenceFileAsBinaryOutputFormat.setSequenceFileOutputKeyClass(job, IntWritable.class); SequenceFileAsBinaryOutputFormat.setSequenceFileOutputValueClass(job, DoubleWritable.class); SequenceFileAsBinaryOutputFormat.setCompressOutput(job, true); SequenceFileAsBinaryOutputFormat.setOutputCompressionType(job, CompressionType.BLOCK); BytesWritable bkey = new BytesWritable(); BytesWritable bval = new BytesWritable(); TaskAttemptContext context = MapReduceTestUtil.createDummyMapTaskAttemptContext(job.getConfiguration()); OutputFormat<BytesWritable, BytesWritable> outputFormat = new SequenceFileAsBinaryOutputFormat(); OutputCommitter committer = outputFormat.getOutputCommitter(context); committer.setupJob(job); RecordWriter<BytesWritable, BytesWritable> writer = outputFormat.getRecordWriter(context); IntWritable iwritable = new IntWritable(); DoubleWritable dwritable = new DoubleWritable(); DataOutputBuffer outbuf = new DataOutputBuffer(); LOG.info("Creating data by SequenceFileAsBinaryOutputFormat"); try { for (int i = 0; i < RECORDS; ++i) { iwritable = new IntWritable(r.nextInt()); iwritable.write(outbuf); bkey.set(outbuf.getData(), 0, outbuf.getLength()); outbuf.reset(); dwritable = new DoubleWritable(r.nextDouble()); dwritable.write(outbuf); bval.set(outbuf.getData(), 0, outbuf.getLength()); outbuf.reset(); writer.write(bkey, bval); } } finally { writer.close(context); } committer.commitTask(context); committer.commitJob(job); InputFormat<IntWritable, DoubleWritable> iformat = new SequenceFileInputFormat<IntWritable, DoubleWritable>(); int count = 0; r.setSeed(seed); SequenceFileInputFormat.setInputPaths(job, outdir); LOG.info("Reading data by SequenceFileInputFormat"); for (InputSplit split : iformat.getSplits(job)) { RecordReader<IntWritable, DoubleWritable> reader = iformat.createRecordReader(split, context); MapContext<IntWritable, DoubleWritable, BytesWritable, BytesWritable> mcontext = new MapContextImpl<IntWritable, DoubleWritable, BytesWritable, BytesWritable>( job.getConfiguration(), context.getTaskAttemptID(), reader, null, null, MapReduceTestUtil.createDummyReporter(), split); reader.initialize(split, mcontext); try { int sourceInt; double sourceDouble; while (reader.nextKeyValue()) { sourceInt = r.nextInt(); sourceDouble = r.nextDouble(); iwritable = reader.getCurrentKey(); dwritable = reader.getCurrentValue(); assertEquals( "Keys don't match: " + "*" + iwritable.get() + ":" + sourceInt + "*", sourceInt, iwritable.get()); assertTrue( "Vals don't match: " + "*" + dwritable.get() + ":" + sourceDouble + "*", Double.compare(dwritable.get(), sourceDouble) == 0); ++count; } } finally { reader.close(); } } assertEquals("Some records not found", RECORDS, count); }