use of co.cask.cdap.api.dataset.lib.PartitionFilter in project cdap by caskdata.
the class ConditionCodecTest method testSerDe.
@Test
public void testSerDe() {
PartitionFilter filter = PartitionFilter.builder().addValueCondition("i", 42).addValueCondition("l", 17L).addValueCondition("s", "x").build();
testSerDe(filter);
filter = PartitionFilter.builder().addRangeCondition("i", 30, 40).addValueCondition("l", 17L).addValueCondition("s", "x").build();
testSerDe(filter);
filter = PartitionFilter.builder().addRangeCondition("i", 30, 40).addValueCondition("s", "x").build();
testSerDe(filter);
testSerDe(PartitionFilter.ALWAYS_MATCH);
}
use of co.cask.cdap.api.dataset.lib.PartitionFilter in project cdap by caskdata.
the class MapReduceWithPartitionedTest method testPartitionedFileSetWithMR.
private void testPartitionedFileSetWithMR(boolean useCombineFileInputFormat) throws Exception {
ApplicationWithPrograms app = deployApp(AppWithPartitionedFileSet.class, new AppWithPartitionedFileSet.AppConfig(useCombineFileInputFormat));
// write a value to the input table
final Table table = datasetCache.getDataset(AppWithPartitionedFileSet.INPUT);
Transactions.createTransactionExecutor(txExecutorFactory, (TransactionAware) table).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() {
table.put(Bytes.toBytes("x"), AppWithPartitionedFileSet.ONLY_COLUMN, Bytes.toBytes("1"));
}
});
// a partition key for the map/reduce output
final PartitionKey keyX = PartitionKey.builder().addStringField("type", "x").addLongField("time", 150000L).build();
// run the partition writer m/r with this output partition time
Map<String, String> runtimeArguments = Maps.newHashMap();
Map<String, String> outputArgs = Maps.newHashMap();
PartitionedFileSetArguments.setOutputPartitionKey(outputArgs, keyX);
runtimeArguments.putAll(RuntimeArguments.addScope(Scope.DATASET, PARTITIONED, outputArgs));
Assert.assertTrue(runProgram(app, AppWithPartitionedFileSet.PartitionWriter.class, new BasicArguments(runtimeArguments)));
// this should have created a partition in the tpfs
final PartitionedFileSet dataset = datasetCache.getDataset(PARTITIONED);
Transactions.createTransactionExecutor(txExecutorFactory, (TransactionAware) dataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() {
Partition partition = dataset.getPartition(keyX);
Assert.assertNotNull(partition);
String path = partition.getRelativePath();
Assert.assertTrue(path.contains("x"));
Assert.assertTrue(path.contains("150000"));
}
});
// delete the data in the input table and write a new row
Transactions.createTransactionExecutor(txExecutorFactory, (TransactionAware) table).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() {
table.delete(Bytes.toBytes("x"));
table.put(Bytes.toBytes("y"), AppWithPartitionedFileSet.ONLY_COLUMN, Bytes.toBytes("2"));
}
});
// a new partition key for the next map/reduce
final PartitionKey keyY = PartitionKey.builder().addStringField("type", "y").addLongField("time", 200000L).build();
// now run the m/r again with a new partition time, say 5 minutes later
PartitionedFileSetArguments.setOutputPartitionKey(outputArgs, keyY);
runtimeArguments.putAll(RuntimeArguments.addScope(Scope.DATASET, PARTITIONED, outputArgs));
Assert.assertTrue(runProgram(app, AppWithPartitionedFileSet.PartitionWriter.class, new BasicArguments(runtimeArguments)));
// this should have created a partition in the tpfs
Transactions.createTransactionExecutor(txExecutorFactory, (TransactionAware) dataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() {
Partition partition = dataset.getPartition(keyY);
Assert.assertNotNull(partition);
String path = partition.getRelativePath();
Assert.assertNotNull(path);
Assert.assertTrue(path.contains("y"));
Assert.assertTrue(path.contains("200000"));
}
});
// a partition filter that matches the outputs of both map/reduces
PartitionFilter filterXY = PartitionFilter.builder().addRangeCondition("type", "x", "z").build();
// now run a map/reduce that reads all the partitions
runtimeArguments = Maps.newHashMap();
Map<String, String> inputArgs = Maps.newHashMap();
PartitionedFileSetArguments.setInputPartitionFilter(inputArgs, filterXY);
runtimeArguments.putAll(RuntimeArguments.addScope(Scope.DATASET, PARTITIONED, inputArgs));
runtimeArguments.put(AppWithPartitionedFileSet.ROW_TO_WRITE, "a");
Assert.assertTrue(runProgram(app, AppWithPartitionedFileSet.PartitionReader.class, new BasicArguments(runtimeArguments)));
// this should have read both partitions - and written both x and y to row a
final Table output = datasetCache.getDataset(AppWithPartitionedFileSet.OUTPUT);
Transactions.createTransactionExecutor(txExecutorFactory, (TransactionAware) output).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() {
Row row = output.get(Bytes.toBytes("a"));
Assert.assertEquals("1", row.getString("x"));
Assert.assertEquals("{type=x, time=150000}", row.getString("x_key"));
Assert.assertEquals("2", row.getString("y"));
Assert.assertEquals("{type=y, time=200000}", row.getString("y_key"));
}
});
// a partition filter that matches the output key of the first map/reduce
PartitionFilter filterX = PartitionFilter.builder().addValueCondition("type", "x").addRangeCondition("time", null, 160000L).build();
// now run a map/reduce that reads a range of the partitions, namely the first one
inputArgs.clear();
PartitionedFileSetArguments.setInputPartitionFilter(inputArgs, filterX);
runtimeArguments.putAll(RuntimeArguments.addScope(Scope.DATASET, PARTITIONED, inputArgs));
runtimeArguments.put(AppWithPartitionedFileSet.ROW_TO_WRITE, "b");
Assert.assertTrue(runProgram(app, AppWithPartitionedFileSet.PartitionReader.class, new BasicArguments(runtimeArguments)));
// this should have read the first partition only - and written only x to row b
Transactions.createTransactionExecutor(txExecutorFactory, (TransactionAware) output).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() {
Row row = output.get(Bytes.toBytes("b"));
Assert.assertEquals("1", row.getString("x"));
Assert.assertEquals("{type=x, time=150000}", row.getString("x_key"));
Assert.assertNull(row.get("y"));
Assert.assertNull(row.get("y_key"));
}
});
// a partition filter that matches no key
PartitionFilter filterMT = PartitionFilter.builder().addValueCondition("type", "nosuchthing").build();
// now run a map/reduce that reads an empty range of partitions (the filter matches nothing)
inputArgs.clear();
PartitionedFileSetArguments.setInputPartitionFilter(inputArgs, filterMT);
runtimeArguments.putAll(RuntimeArguments.addScope(Scope.DATASET, PARTITIONED, inputArgs));
runtimeArguments.put(AppWithPartitionedFileSet.ROW_TO_WRITE, "n");
Assert.assertTrue(runProgram(app, AppWithPartitionedFileSet.PartitionReader.class, new BasicArguments(runtimeArguments)));
// this should have read no partitions - and written nothing to row n
Transactions.createTransactionExecutor(txExecutorFactory, (TransactionAware) output).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() {
Row row = output.get(Bytes.toBytes("n"));
Assert.assertTrue(row.isEmpty());
}
});
}
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