use of org.apache.flink.runtime.memory.MemoryAllocationException in project flink by apache.
the class HashTableITCase method testSpillingHashJoinOneRecursionValidity.
@Test
public void testSpillingHashJoinOneRecursionValidity() throws IOException {
final int NUM_KEYS = 1000000;
final int BUILD_VALS_PER_KEY = 3;
final int PROBE_VALS_PER_KEY = 10;
// create a build input that gives 3 million pairs with 3 values sharing the same key
MutableObjectIterator<Record> buildInput = new UniformRecordGenerator(NUM_KEYS, BUILD_VALS_PER_KEY, false);
// create a probe input that gives 10 million pairs with 10 values sharing a key
MutableObjectIterator<Record> probeInput = new UniformRecordGenerator(NUM_KEYS, PROBE_VALS_PER_KEY, true);
// allocate the memory for the HashTable
List<MemorySegment> memSegments;
try {
memSegments = this.memManager.allocatePages(MEM_OWNER, 896);
} catch (MemoryAllocationException maex) {
fail("Memory for the Join could not be provided.");
return;
}
// create the map for validating the results
HashMap<Integer, Long> map = new HashMap<Integer, Long>(NUM_KEYS);
// ----------------------------------------------------------------------------------------
final MutableHashTable<Record, Record> join = new MutableHashTable<Record, Record>(this.recordBuildSideAccesssor, this.recordProbeSideAccesssor, this.recordBuildSideComparator, this.recordProbeSideComparator, this.pactRecordComparator, memSegments, ioManager);
join.open(buildInput, probeInput);
Record record;
final Record recordReuse = new Record();
while (join.nextRecord()) {
int numBuildValues = 0;
int key = 0;
MutableObjectIterator<Record> buildSide = join.getBuildSideIterator();
if ((record = buildSide.next(recordReuse)) != null) {
numBuildValues = 1;
key = record.getField(0, IntValue.class).getValue();
} else {
fail("No build side values found for a probe key.");
}
while ((record = buildSide.next(recordReuse)) != null) {
numBuildValues++;
}
if (numBuildValues != 3) {
fail("Other than 3 build values!!!");
}
Record pr = join.getCurrentProbeRecord();
Assert.assertEquals("Probe-side key was different than build-side key.", key, pr.getField(0, IntValue.class).getValue());
Long contained = map.get(key);
if (contained == null) {
contained = Long.valueOf(numBuildValues);
} else {
contained = Long.valueOf(contained.longValue() + (numBuildValues));
}
map.put(key, contained);
}
join.close();
Assert.assertEquals("Wrong number of keys", NUM_KEYS, map.size());
for (Map.Entry<Integer, Long> entry : map.entrySet()) {
long val = entry.getValue();
int key = entry.getKey();
Assert.assertEquals("Wrong number of values in per-key cross product for key " + key, PROBE_VALS_PER_KEY * BUILD_VALS_PER_KEY, val);
}
// ----------------------------------------------------------------------------------------
this.memManager.release(join.getFreedMemory());
}
use of org.apache.flink.runtime.memory.MemoryAllocationException in project flink by apache.
the class HashTableITCase method testFailingHashJoinTooManyRecursionsIntPair.
/*
* This test is basically identical to the "testSpillingHashJoinWithMassiveCollisions" test, only that the number
* of repeated values (causing bucket collisions) are large enough to make sure that their target partition no longer
* fits into memory by itself and needs to be repartitioned in the recursion again.
*/
@Test
public void testFailingHashJoinTooManyRecursionsIntPair() throws IOException {
// the following two values are known to have a hash-code collision on the first recursion level.
// we use them to make sure one partition grows over-proportionally large
final int REPEATED_VALUE_1 = 40559;
final int REPEATED_VALUE_2 = 92882;
final int REPEATED_VALUE_COUNT = 3000000;
final int NUM_KEYS = 1000000;
final int BUILD_VALS_PER_KEY = 3;
final int PROBE_VALS_PER_KEY = 10;
// create a build input that gives 3 million pairs with 3 values sharing the same key, plus 400k pairs with two colliding keys
MutableObjectIterator<IntPair> build1 = new UniformIntPairGenerator(NUM_KEYS, BUILD_VALS_PER_KEY, false);
MutableObjectIterator<IntPair> build2 = new ConstantsIntPairsIterator(REPEATED_VALUE_1, 17, REPEATED_VALUE_COUNT);
MutableObjectIterator<IntPair> build3 = new ConstantsIntPairsIterator(REPEATED_VALUE_2, 23, REPEATED_VALUE_COUNT);
List<MutableObjectIterator<IntPair>> builds = new ArrayList<MutableObjectIterator<IntPair>>();
builds.add(build1);
builds.add(build2);
builds.add(build3);
MutableObjectIterator<IntPair> buildInput = new UnionIterator<IntPair>(builds);
// create a probe input that gives 10 million pairs with 10 values sharing a key
MutableObjectIterator<IntPair> probe1 = new UniformIntPairGenerator(NUM_KEYS, PROBE_VALS_PER_KEY, true);
MutableObjectIterator<IntPair> probe2 = new ConstantsIntPairsIterator(REPEATED_VALUE_1, 17, REPEATED_VALUE_COUNT);
MutableObjectIterator<IntPair> probe3 = new ConstantsIntPairsIterator(REPEATED_VALUE_2, 23, REPEATED_VALUE_COUNT);
List<MutableObjectIterator<IntPair>> probes = new ArrayList<MutableObjectIterator<IntPair>>();
probes.add(probe1);
probes.add(probe2);
probes.add(probe3);
MutableObjectIterator<IntPair> probeInput = new UnionIterator<IntPair>(probes);
// allocate the memory for the HashTable
List<MemorySegment> memSegments;
try {
memSegments = this.memManager.allocatePages(MEM_OWNER, 896);
} catch (MemoryAllocationException maex) {
fail("Memory for the Join could not be provided.");
return;
}
// ----------------------------------------------------------------------------------------
final MutableHashTable<IntPair, IntPair> join = new MutableHashTable<IntPair, IntPair>(this.pairBuildSideAccesssor, this.pairProbeSideAccesssor, this.pairBuildSideComparator, this.pairProbeSideComparator, this.pairComparator, memSegments, ioManager);
join.open(buildInput, probeInput);
final IntPair recordReuse = new IntPair();
try {
while (join.nextRecord()) {
MutableObjectIterator<IntPair> buildSide = join.getBuildSideIterator();
if (buildSide.next(recordReuse) == null) {
fail("No build side values found for a probe key.");
}
while (buildSide.next(recordReuse) != null) ;
}
fail("Hash Join must have failed due to too many recursions.");
} catch (Exception ex) {
// expected
}
join.close();
// ----------------------------------------------------------------------------------------
this.memManager.release(join.getFreedMemory());
}
use of org.apache.flink.runtime.memory.MemoryAllocationException in project flink by apache.
the class HashTableITCase method testSpillingHashJoinWithMassiveCollisionsIntPair.
@Test
public void testSpillingHashJoinWithMassiveCollisionsIntPair() throws IOException {
// the following two values are known to have a hash-code collision on the initial level.
// we use them to make sure one partition grows over-proportionally large
final int REPEATED_VALUE_1 = 40559;
final int REPEATED_VALUE_2 = 92882;
final int REPEATED_VALUE_COUNT_BUILD = 200000;
final int REPEATED_VALUE_COUNT_PROBE = 5;
final int NUM_KEYS = 1000000;
final int BUILD_VALS_PER_KEY = 3;
final int PROBE_VALS_PER_KEY = 10;
// create a build input that gives 3 million pairs with 3 values sharing the same key, plus 400k pairs with two colliding keys
MutableObjectIterator<IntPair> build1 = new UniformIntPairGenerator(NUM_KEYS, BUILD_VALS_PER_KEY, false);
MutableObjectIterator<IntPair> build2 = new ConstantsIntPairsIterator(REPEATED_VALUE_1, 17, REPEATED_VALUE_COUNT_BUILD);
MutableObjectIterator<IntPair> build3 = new ConstantsIntPairsIterator(REPEATED_VALUE_2, 23, REPEATED_VALUE_COUNT_BUILD);
List<MutableObjectIterator<IntPair>> builds = new ArrayList<MutableObjectIterator<IntPair>>();
builds.add(build1);
builds.add(build2);
builds.add(build3);
MutableObjectIterator<IntPair> buildInput = new UnionIterator<IntPair>(builds);
// create a probe input that gives 10 million pairs with 10 values sharing a key
MutableObjectIterator<IntPair> probe1 = new UniformIntPairGenerator(NUM_KEYS, PROBE_VALS_PER_KEY, true);
MutableObjectIterator<IntPair> probe2 = new ConstantsIntPairsIterator(REPEATED_VALUE_1, 17, 5);
MutableObjectIterator<IntPair> probe3 = new ConstantsIntPairsIterator(REPEATED_VALUE_2, 23, 5);
List<MutableObjectIterator<IntPair>> probes = new ArrayList<MutableObjectIterator<IntPair>>();
probes.add(probe1);
probes.add(probe2);
probes.add(probe3);
MutableObjectIterator<IntPair> probeInput = new UnionIterator<IntPair>(probes);
// allocate the memory for the HashTable
List<MemorySegment> memSegments;
try {
memSegments = this.memManager.allocatePages(MEM_OWNER, 896);
} catch (MemoryAllocationException maex) {
fail("Memory for the Join could not be provided.");
return;
}
// create the I/O access for spilling
IOManager ioManager = new IOManagerAsync();
// create the map for validating the results
HashMap<Integer, Long> map = new HashMap<Integer, Long>(NUM_KEYS);
// ----------------------------------------------------------------------------------------
final MutableHashTable<IntPair, IntPair> join = new MutableHashTable<IntPair, IntPair>(this.pairBuildSideAccesssor, this.pairProbeSideAccesssor, this.pairBuildSideComparator, this.pairProbeSideComparator, this.pairComparator, memSegments, ioManager);
join.open(buildInput, probeInput);
IntPair record;
final IntPair recordReuse = new IntPair();
while (join.nextRecord()) {
int numBuildValues = 0;
final IntPair probeRec = join.getCurrentProbeRecord();
int key = probeRec.getKey();
MutableObjectIterator<IntPair> buildSide = join.getBuildSideIterator();
if ((record = buildSide.next(recordReuse)) != null) {
numBuildValues = 1;
Assert.assertEquals("Probe-side key was different than build-side key.", key, record.getKey());
} else {
fail("No build side values found for a probe key.");
}
while ((record = buildSide.next(recordReuse)) != null) {
numBuildValues++;
Assert.assertEquals("Probe-side key was different than build-side key.", key, record.getKey());
}
Long contained = map.get(key);
if (contained == null) {
contained = Long.valueOf(numBuildValues);
} else {
contained = Long.valueOf(contained.longValue() + numBuildValues);
}
map.put(key, contained);
}
join.close();
Assert.assertEquals("Wrong number of keys", NUM_KEYS, map.size());
for (Map.Entry<Integer, Long> entry : map.entrySet()) {
long val = entry.getValue();
int key = entry.getKey();
Assert.assertEquals("Wrong number of values in per-key cross product for key " + key, (key == REPEATED_VALUE_1 || key == REPEATED_VALUE_2) ? (PROBE_VALS_PER_KEY + REPEATED_VALUE_COUNT_PROBE) * (BUILD_VALS_PER_KEY + REPEATED_VALUE_COUNT_BUILD) : PROBE_VALS_PER_KEY * BUILD_VALS_PER_KEY, val);
}
// ----------------------------------------------------------------------------------------
this.memManager.release(join.getFreedMemory());
}
use of org.apache.flink.runtime.memory.MemoryAllocationException in project flink by apache.
the class HashTableITCase method testSpillingHashJoinWithTwoRecursionsIntPair.
/*
* This test is basically identical to the "testSpillingHashJoinWithMassiveCollisions" test, only that the number
* of repeated values (causing bucket collisions) are large enough to make sure that their target partition no longer
* fits into memory by itself and needs to be repartitioned in the recursion again.
*/
@Test
public void testSpillingHashJoinWithTwoRecursionsIntPair() throws IOException {
// the following two values are known to have a hash-code collision on the first recursion level.
// we use them to make sure one partition grows over-proportionally large
final int REPEATED_VALUE_1 = 40559;
final int REPEATED_VALUE_2 = 92882;
final int REPEATED_VALUE_COUNT_BUILD = 200000;
final int REPEATED_VALUE_COUNT_PROBE = 5;
final int NUM_KEYS = 1000000;
final int BUILD_VALS_PER_KEY = 3;
final int PROBE_VALS_PER_KEY = 10;
// create a build input that gives 3 million pairs with 3 values sharing the same key, plus 400k pairs with two colliding keys
MutableObjectIterator<IntPair> build1 = new UniformIntPairGenerator(NUM_KEYS, BUILD_VALS_PER_KEY, false);
MutableObjectIterator<IntPair> build2 = new ConstantsIntPairsIterator(REPEATED_VALUE_1, 17, REPEATED_VALUE_COUNT_BUILD);
MutableObjectIterator<IntPair> build3 = new ConstantsIntPairsIterator(REPEATED_VALUE_2, 23, REPEATED_VALUE_COUNT_BUILD);
List<MutableObjectIterator<IntPair>> builds = new ArrayList<MutableObjectIterator<IntPair>>();
builds.add(build1);
builds.add(build2);
builds.add(build3);
MutableObjectIterator<IntPair> buildInput = new UnionIterator<IntPair>(builds);
// create a probe input that gives 10 million pairs with 10 values sharing a key
MutableObjectIterator<IntPair> probe1 = new UniformIntPairGenerator(NUM_KEYS, PROBE_VALS_PER_KEY, true);
MutableObjectIterator<IntPair> probe2 = new ConstantsIntPairsIterator(REPEATED_VALUE_1, 17, 5);
MutableObjectIterator<IntPair> probe3 = new ConstantsIntPairsIterator(REPEATED_VALUE_2, 23, 5);
List<MutableObjectIterator<IntPair>> probes = new ArrayList<MutableObjectIterator<IntPair>>();
probes.add(probe1);
probes.add(probe2);
probes.add(probe3);
MutableObjectIterator<IntPair> probeInput = new UnionIterator<IntPair>(probes);
// allocate the memory for the HashTable
List<MemorySegment> memSegments;
try {
memSegments = this.memManager.allocatePages(MEM_OWNER, 896);
} catch (MemoryAllocationException maex) {
fail("Memory for the Join could not be provided.");
return;
}
// create the map for validating the results
HashMap<Integer, Long> map = new HashMap<Integer, Long>(NUM_KEYS);
// ----------------------------------------------------------------------------------------
final MutableHashTable<IntPair, IntPair> join = new MutableHashTable<IntPair, IntPair>(this.pairBuildSideAccesssor, this.pairProbeSideAccesssor, this.pairBuildSideComparator, this.pairProbeSideComparator, this.pairComparator, memSegments, ioManager);
join.open(buildInput, probeInput);
IntPair record;
final IntPair recordReuse = new IntPair();
while (join.nextRecord()) {
int numBuildValues = 0;
final IntPair probeRec = join.getCurrentProbeRecord();
int key = probeRec.getKey();
MutableObjectIterator<IntPair> buildSide = join.getBuildSideIterator();
if ((record = buildSide.next(recordReuse)) != null) {
numBuildValues = 1;
Assert.assertEquals("Probe-side key was different than build-side key.", key, record.getKey());
} else {
fail("No build side values found for a probe key.");
}
while ((record = buildSide.next(recordReuse)) != null) {
numBuildValues++;
Assert.assertEquals("Probe-side key was different than build-side key.", key, record.getKey());
}
Long contained = map.get(key);
if (contained == null) {
contained = Long.valueOf(numBuildValues);
} else {
contained = Long.valueOf(contained.longValue() + numBuildValues);
}
map.put(key, contained);
}
join.close();
Assert.assertEquals("Wrong number of keys", NUM_KEYS, map.size());
for (Map.Entry<Integer, Long> entry : map.entrySet()) {
long val = entry.getValue();
int key = entry.getKey();
Assert.assertEquals("Wrong number of values in per-key cross product for key " + key, (key == REPEATED_VALUE_1 || key == REPEATED_VALUE_2) ? (PROBE_VALS_PER_KEY + REPEATED_VALUE_COUNT_PROBE) * (BUILD_VALS_PER_KEY + REPEATED_VALUE_COUNT_BUILD) : PROBE_VALS_PER_KEY * BUILD_VALS_PER_KEY, val);
}
// ----------------------------------------------------------------------------------------
this.memManager.release(join.getFreedMemory());
}
use of org.apache.flink.runtime.memory.MemoryAllocationException in project flink by apache.
the class HashTableITCase method testInMemoryReOpen.
@Test
public void testInMemoryReOpen() throws IOException {
final int NUM_KEYS = 100000;
final int BUILD_VALS_PER_KEY = 3;
final int PROBE_VALS_PER_KEY = 10;
// create a build input that gives 3 million pairs with 3 values sharing the same key
MutableObjectIterator<IntPair> buildInput = new UniformIntPairGenerator(NUM_KEYS, BUILD_VALS_PER_KEY, false);
// create a probe input that gives 10 million pairs with 10 values sharing a key
MutableObjectIterator<IntPair> probeInput = new UniformIntPairGenerator(NUM_KEYS, PROBE_VALS_PER_KEY, true);
// allocate the memory for the HashTable
List<MemorySegment> memSegments;
try {
memSegments = this.memManager.allocatePages(MEM_OWNER, 896);
} catch (MemoryAllocationException maex) {
fail("Memory for the Join could not be provided.");
return;
}
// ----------------------------------------------------------------------------------------
final MutableHashTable<IntPair, IntPair> join = new MutableHashTable<IntPair, IntPair>(this.pairBuildSideAccesssor, this.pairProbeSideAccesssor, this.pairBuildSideComparator, this.pairProbeSideComparator, this.pairComparator, memSegments, ioManager);
join.open(buildInput, probeInput);
final IntPair recordReuse = new IntPair();
int numRecordsInJoinResult = 0;
while (join.nextRecord()) {
MutableObjectIterator<IntPair> buildSide = join.getBuildSideIterator();
while (buildSide.next(recordReuse) != null) {
numRecordsInJoinResult++;
}
}
Assert.assertEquals("Wrong number of records in join result.", NUM_KEYS * BUILD_VALS_PER_KEY * PROBE_VALS_PER_KEY, numRecordsInJoinResult);
join.close();
// ----------------------------------------------------------------------------------------
// recreate the inputs
// create a build input that gives 3 million pairs with 3 values sharing the same key
buildInput = new UniformIntPairGenerator(NUM_KEYS, BUILD_VALS_PER_KEY, false);
// create a probe input that gives 10 million pairs with 10 values sharing a key
probeInput = new UniformIntPairGenerator(NUM_KEYS, PROBE_VALS_PER_KEY, true);
join.open(buildInput, probeInput);
numRecordsInJoinResult = 0;
while (join.nextRecord()) {
MutableObjectIterator<IntPair> buildSide = join.getBuildSideIterator();
while (buildSide.next(recordReuse) != null) {
numRecordsInJoinResult++;
}
}
Assert.assertEquals("Wrong number of records in join result.", NUM_KEYS * BUILD_VALS_PER_KEY * PROBE_VALS_PER_KEY, numRecordsInJoinResult);
join.close();
// ----------------------------------------------------------------------------------------
this.memManager.release(join.getFreedMemory());
}
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