Example 1 with RegionKey
use of org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache.RegionKey in project ignite by apache.
the class ColumnDecisionTreeTrainer method train.
/**
* {@inheritDoc}
*/
@Override
public DecisionTreeModel train(ColumnDecisionTreeTrainerInput i) {
prjsCache = ProjectionsCache.getOrCreate(ignite);
IgniteCache<UUID, TrainingContext<D>> ctxtCache = ContextCache.getOrCreate(ignite);
SplitCache.getOrCreate(ignite);
UUID trainingUUID = UUID.randomUUID();
TrainingContext<D> ct = new TrainingContext<>(i, continuousCalculatorProvider.apply(i), categoricalCalculatorProvider.apply(i), trainingUUID, ignite);
ctxtCache.put(trainingUUID, ct);
CacheUtils.bcast(prjsCache.getName(), ignite, () -> {
Ignite ignite = Ignition.localIgnite();
IgniteCache<RegionKey, List<RegionProjection>> projCache = ProjectionsCache.getOrCreate(ignite);
IgniteCache<FeatureKey, double[]> featuresCache = FeaturesCache.getOrCreate(ignite);
Affinity<RegionKey> targetAffinity = ignite.affinity(ProjectionsCache.CACHE_NAME);
ClusterNode locNode = ignite.cluster().localNode();
Map<FeatureKey, double[]> fm = new ConcurrentHashMap<>();
Map<RegionKey, List<RegionProjection>> pm = new ConcurrentHashMap<>();
targetAffinity.mapKeysToNodes(IntStream.range(0, i.featuresCount()).mapToObj(idx -> ProjectionsCache.key(idx, 0, i.affinityKey(idx, ignite), trainingUUID)).collect(Collectors.toSet())).getOrDefault(locNode, Collections.emptyList()).forEach(k -> {
FeatureProcessor vec;
int featureIdx = k.featureIdx();
IgniteCache<UUID, TrainingContext<D>> ctxCache = ContextCache.getOrCreate(ignite);
TrainingContext ctx = ctxCache.get(trainingUUID);
double[] vals = new double[ctx.labels().length];
vec = ctx.featureProcessor(featureIdx);
i.values(featureIdx).forEach(t -> vals[t.get1()] = t.get2());
fm.put(getFeatureCacheKey(featureIdx, trainingUUID, i.affinityKey(featureIdx, ignite)), vals);
List<RegionProjection> newReg = new ArrayList<>(BLOCK_SIZE);
newReg.add(vec.createInitialRegion(getSamples(i.values(featureIdx), ctx.labels().length), vals, ctx.labels()));
pm.put(k, newReg);
});
featuresCache.putAll(fm);
projCache.putAll(pm);
return null;
});
return doTrain(i, trainingUUID);
}
Also used :
ClusterNode(org.apache.ignite.cluster.ClusterNode)
UUID(java.util.UUID)
ArrayList(java.util.ArrayList)
RegionKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache.RegionKey)
FeatureProcessor(org.apache.ignite.ml.trees.trainers.columnbased.vectors.FeatureProcessor)
Ignite(org.apache.ignite.Ignite)
List(java.util.List)
ArrayList(java.util.ArrayList)
LinkedList(java.util.LinkedList)
UUID(java.util.UUID)
ConcurrentHashMap(java.util.concurrent.ConcurrentHashMap)
FeatureKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.FeaturesCache.FeatureKey)
Example 2 with RegionKey
use of org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache.RegionKey in project ignite by apache.
the class ColumnDecisionTreeTrainer method doTrain.
/**
*/
@NotNull
private DecisionTreeModel doTrain(ColumnDecisionTreeTrainerInput input, UUID uuid) {
RootNode root = new RootNode();
// List containing setters of leaves of the tree.
List<TreeTip> tips = new LinkedList<>();
tips.add(new TreeTip(root::setSplit, 0));
int curDepth = 0;
int regsCnt = 1;
int featuresCnt = input.featuresCount();
IntStream.range(0, featuresCnt).mapToObj(fIdx -> SplitCache.key(fIdx, input.affinityKey(fIdx, ignite), uuid)).forEach(k -> SplitCache.getOrCreate(ignite).put(k, new IgniteBiTuple<>(0, 0.0)));
updateSplitCache(0, regsCnt, featuresCnt, ig -> i -> input.affinityKey(i, ig), uuid);
// regions cannot be split more and split only those that can.
while (true) {
long before = System.currentTimeMillis();
IgniteBiTuple<Integer, IgniteBiTuple<Integer, Double>> b = findBestSplitIndexForFeatures(featuresCnt, input::affinityKey, uuid);
long findBestRegIdx = System.currentTimeMillis() - before;
Integer bestFeatureIdx = b.get1();
Integer regIdx = b.get2().get1();
Double bestInfoGain = b.get2().get2();
if (regIdx >= 0 && bestInfoGain > MIN_INFO_GAIN) {
before = System.currentTimeMillis();
SplitInfo bi = ignite.compute().affinityCall(ProjectionsCache.CACHE_NAME, input.affinityKey(bestFeatureIdx, ignite), () -> {
TrainingContext<ContinuousRegionInfo> ctx = ContextCache.getOrCreate(ignite).get(uuid);
Ignite ignite = Ignition.localIgnite();
RegionKey key = ProjectionsCache.key(bestFeatureIdx, regIdx / BLOCK_SIZE, input.affinityKey(bestFeatureIdx, Ignition.localIgnite()), uuid);
RegionProjection reg = ProjectionsCache.getOrCreate(ignite).localPeek(key).get(regIdx % BLOCK_SIZE);
return ctx.featureProcessor(bestFeatureIdx).findBestSplit(reg, ctx.values(bestFeatureIdx, ignite), ctx.labels(), regIdx);
});
long findBestSplit = System.currentTimeMillis() - before;
IndexAndSplitInfo best = new IndexAndSplitInfo(bestFeatureIdx, bi);
regsCnt++;
if (log.isDebugEnabled())
log.debug("Globally best: " + best.info + " idx time: " + findBestRegIdx + ", calculate best: " + findBestSplit + " fi: " + best.featureIdx + ", regs: " + regsCnt);
// Request bitset for split region.
int ind = best.info.regionIndex();
SparseBitSet bs = ignite.compute().affinityCall(ProjectionsCache.CACHE_NAME, input.affinityKey(bestFeatureIdx, ignite), () -> {
Ignite ignite = Ignition.localIgnite();
IgniteCache<FeatureKey, double[]> featuresCache = FeaturesCache.getOrCreate(ignite);
IgniteCache<UUID, TrainingContext<D>> ctxCache = ContextCache.getOrCreate(ignite);
TrainingContext ctx = ctxCache.localPeek(uuid);
double[] values = featuresCache.localPeek(getFeatureCacheKey(bestFeatureIdx, uuid, input.affinityKey(bestFeatureIdx, Ignition.localIgnite())));
RegionKey key = ProjectionsCache.key(bestFeatureIdx, regIdx / BLOCK_SIZE, input.affinityKey(bestFeatureIdx, Ignition.localIgnite()), uuid);
RegionProjection reg = ProjectionsCache.getOrCreate(ignite).localPeek(key).get(regIdx % BLOCK_SIZE);
return ctx.featureProcessor(bestFeatureIdx).calculateOwnershipBitSet(reg, values, best.info);
});
SplitNode sn = best.info.createSplitNode(best.featureIdx);
TreeTip tipToSplit = tips.get(ind);
tipToSplit.leafSetter.accept(sn);
tipToSplit.leafSetter = sn::setLeft;
int d = tipToSplit.depth++;
tips.add(new TreeTip(sn::setRight, d));
if (d > curDepth) {
curDepth = d;
if (log.isDebugEnabled()) {
log.debug("Depth: " + curDepth);
log.debug("Cache size: " + prjsCache.size(CachePeekMode.PRIMARY));
}
}
before = System.currentTimeMillis();
// Perform split on all feature vectors.
IgniteSupplier<Set<RegionKey>> bestRegsKeys = () -> IntStream.range(0, featuresCnt).mapToObj(fIdx -> ProjectionsCache.key(fIdx, ind / BLOCK_SIZE, input.affinityKey(fIdx, Ignition.localIgnite()), uuid)).collect(Collectors.toSet());
int rc = regsCnt;
// Perform split.
CacheUtils.update(prjsCache.getName(), ignite, (Ignite ign, Cache.Entry<RegionKey, List<RegionProjection>> e) -> {
RegionKey k = e.getKey();
List<RegionProjection> leftBlock = e.getValue();
int fIdx = k.featureIdx();
int idxInBlock = ind % BLOCK_SIZE;
IgniteCache<UUID, TrainingContext<D>> ctxCache = ContextCache.getOrCreate(ign);
TrainingContext<D> ctx = ctxCache.get(uuid);
RegionProjection targetRegProj = leftBlock.get(idxInBlock);
IgniteBiTuple<RegionProjection, RegionProjection> regs = ctx.performSplit(input, bs, fIdx, best.featureIdx, targetRegProj, best.info.leftData(), best.info.rightData(), ign);
RegionProjection left = regs.get1();
RegionProjection right = regs.get2();
leftBlock.set(idxInBlock, left);
RegionKey rightKey = ProjectionsCache.key(fIdx, (rc - 1) / BLOCK_SIZE, input.affinityKey(fIdx, ign), uuid);
IgniteCache<RegionKey, List<RegionProjection>> c = ProjectionsCache.getOrCreate(ign);
List<RegionProjection> rightBlock = rightKey.equals(k) ? leftBlock : c.localPeek(rightKey);
if (rightBlock == null) {
List<RegionProjection> newBlock = new ArrayList<>(BLOCK_SIZE);
newBlock.add(right);
return Stream.of(new CacheEntryImpl<>(k, leftBlock), new CacheEntryImpl<>(rightKey, newBlock));
} else {
rightBlock.add(right);
return rightBlock.equals(k) ? Stream.of(new CacheEntryImpl<>(k, leftBlock)) : Stream.of(new CacheEntryImpl<>(k, leftBlock), new CacheEntryImpl<>(rightKey, rightBlock));
}
}, bestRegsKeys);
if (log.isDebugEnabled())
log.debug("Update of projections cache time: " + (System.currentTimeMillis() - before));
before = System.currentTimeMillis();
updateSplitCache(ind, rc, featuresCnt, ig -> i -> input.affinityKey(i, ig), uuid);
if (log.isDebugEnabled())
log.debug("Update of split cache time: " + (System.currentTimeMillis() - before));
} else {
if (log.isDebugEnabled())
log.debug("Best split [bestFeatureIdx=" + bestFeatureIdx + ", bestInfoGain=" + bestInfoGain + "]");
break;
}
}
int rc = regsCnt;
IgniteSupplier<Iterable<Cache.Entry<RegionKey, List<RegionProjection>>>> featZeroRegs = () -> {
IgniteCache<RegionKey, List<RegionProjection>> projsCache = ProjectionsCache.getOrCreate(Ignition.localIgnite());
return () -> IntStream.range(0, (rc - 1) / BLOCK_SIZE + 1).mapToObj(rBIdx -> ProjectionsCache.key(0, rBIdx, input.affinityKey(0, Ignition.localIgnite()), uuid)).map(k -> (Cache.Entry<RegionKey, List<RegionProjection>>) new CacheEntryImpl<>(k, projsCache.localPeek(k))).iterator();
};
Map<Integer, Double> vals = CacheUtils.reduce(prjsCache.getName(), ignite, (TrainingContext ctx, Cache.Entry<RegionKey, List<RegionProjection>> e, Map<Integer, Double> m) -> {
int regBlockIdx = e.getKey().regionBlockIndex();
if (e.getValue() != null) {
for (int i = 0; i < e.getValue().size(); i++) {
int regIdx = regBlockIdx * BLOCK_SIZE + i;
RegionProjection reg = e.getValue().get(i);
Double res = regCalc.apply(Arrays.stream(reg.sampleIndexes()).mapToDouble(s -> ctx.labels()[s]));
m.put(regIdx, res);
}
}
return m;
}, () -> ContextCache.getOrCreate(Ignition.localIgnite()).get(uuid), featZeroRegs, (infos, infos2) -> {
Map<Integer, Double> res = new HashMap<>();
res.putAll(infos);
res.putAll(infos2);
return res;
}, HashMap::new);
int i = 0;
for (TreeTip tip : tips) {
tip.leafSetter.accept(new Leaf(vals.get(i)));
i++;
}
ProjectionsCache.clear(featuresCnt, rc, input::affinityKey, uuid, ignite);
ContextCache.getOrCreate(ignite).remove(uuid);
FeaturesCache.clear(featuresCnt, input::affinityKey, uuid, ignite);
SplitCache.clear(featuresCnt, input::affinityKey, uuid, ignite);
return new DecisionTreeModel(root.s);
}
Also used :
Leaf(org.apache.ignite.ml.trees.nodes.Leaf)
Arrays(java.util.Arrays)
FeaturesCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.FeaturesCache)
SplitNode(org.apache.ignite.ml.trees.nodes.SplitNode)
Functions(org.apache.ignite.ml.math.functions.Functions)
RegionKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache.RegionKey)
Vector(org.apache.ignite.ml.math.Vector)
Map(java.util.Map)
Cache(javax.cache.Cache)
SparseBitSet(com.zaxxer.sparsebits.SparseBitSet)
CacheEntryImpl(org.apache.ignite.internal.processors.cache.CacheEntryImpl)
FeatureKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.FeaturesCache.FeatureKey)
CachePeekMode(org.apache.ignite.cache.CachePeekMode)
IgniteSupplier(org.apache.ignite.ml.math.functions.IgniteSupplier)
ConcurrentHashMap(java.util.concurrent.ConcurrentHashMap)
ProjectionsCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache)
Set(java.util.Set)
UUID(java.util.UUID)
Collectors(java.util.stream.Collectors)
SplitKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.SplitCache.SplitKey)
IgniteCache(org.apache.ignite.IgniteCache)
ContextCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.ContextCache)
DoubleStream(java.util.stream.DoubleStream)
IgniteBiTuple(org.apache.ignite.lang.IgniteBiTuple)
List(java.util.List)
Stream(java.util.stream.Stream)
FeatureProcessor(org.apache.ignite.ml.trees.trainers.columnbased.vectors.FeatureProcessor)
SplitCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.SplitCache)
Optional(java.util.Optional)
NotNull(org.jetbrains.annotations.NotNull)
SplitInfo(org.apache.ignite.ml.trees.trainers.columnbased.vectors.SplitInfo)
IntStream(java.util.stream.IntStream)
DecisionTreeModel(org.apache.ignite.ml.trees.models.DecisionTreeModel)
FeaturesCache.getFeatureCacheKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.FeaturesCache.getFeatureCacheKey)
IgniteFunction(org.apache.ignite.ml.math.functions.IgniteFunction)
Affinity(org.apache.ignite.cache.affinity.Affinity)
HashMap(java.util.HashMap)
IgniteLogger(org.apache.ignite.IgniteLogger)
ArrayList(java.util.ArrayList)
Trainer(org.apache.ignite.ml.Trainer)
ClusterNode(org.apache.ignite.cluster.ClusterNode)
LinkedList(java.util.LinkedList)
DecisionTreeNode(org.apache.ignite.ml.trees.nodes.DecisionTreeNode)
Ignite(org.apache.ignite.Ignite)
CacheUtils(org.apache.ignite.ml.math.distributed.CacheUtils)
IgniteCurriedBiFunction(org.apache.ignite.ml.math.functions.IgniteCurriedBiFunction)
Consumer(java.util.function.Consumer)
Ignition(org.apache.ignite.Ignition)
IgniteBiFunction(org.apache.ignite.ml.math.functions.IgniteBiFunction)
ContinuousSplitCalculator(org.apache.ignite.ml.trees.ContinuousSplitCalculator)
Comparator(java.util.Comparator)
ContinuousRegionInfo(org.apache.ignite.ml.trees.ContinuousRegionInfo)
Collections(java.util.Collections)
ConcurrentHashMap(java.util.concurrent.ConcurrentHashMap)
HashMap(java.util.HashMap)
ArrayList(java.util.ArrayList)
ContinuousRegionInfo(org.apache.ignite.ml.trees.ContinuousRegionInfo)
SplitNode(org.apache.ignite.ml.trees.nodes.SplitNode)
List(java.util.List)
ArrayList(java.util.ArrayList)
LinkedList(java.util.LinkedList)
UUID(java.util.UUID)
LinkedList(java.util.LinkedList)
Map(java.util.Map)
ConcurrentHashMap(java.util.concurrent.ConcurrentHashMap)
HashMap(java.util.HashMap)
FeaturesCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.FeaturesCache)
Cache(javax.cache.Cache)
ProjectionsCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache)
IgniteCache(org.apache.ignite.IgniteCache)
ContextCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.ContextCache)
SplitCache(org.apache.ignite.ml.trees.trainers.columnbased.caches.SplitCache)
SparseBitSet(com.zaxxer.sparsebits.SparseBitSet)
Set(java.util.Set)
UUID(java.util.UUID)
IgniteBiTuple(org.apache.ignite.lang.IgniteBiTuple)
DecisionTreeModel(org.apache.ignite.ml.trees.models.DecisionTreeModel)
RegionKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache.RegionKey)
SplitInfo(org.apache.ignite.ml.trees.trainers.columnbased.vectors.SplitInfo)
CacheEntryImpl(org.apache.ignite.internal.processors.cache.CacheEntryImpl)
Ignite(org.apache.ignite.Ignite)
Leaf(org.apache.ignite.ml.trees.nodes.Leaf)
IgniteCache(org.apache.ignite.IgniteCache)
SparseBitSet(com.zaxxer.sparsebits.SparseBitSet)
FeatureKey(org.apache.ignite.ml.trees.trainers.columnbased.caches.FeaturesCache.FeatureKey)
NotNull(org.jetbrains.annotations.NotNull)
Aggregations
ArrayList (java.util.ArrayList)2
LinkedList (java.util.LinkedList)2
List (java.util.List)2
UUID (java.util.UUID)2
ConcurrentHashMap (java.util.concurrent.ConcurrentHashMap)2
Ignite (org.apache.ignite.Ignite)2
ClusterNode (org.apache.ignite.cluster.ClusterNode)2
FeatureKey (org.apache.ignite.ml.trees.trainers.columnbased.caches.FeaturesCache.FeatureKey)2
RegionKey (org.apache.ignite.ml.trees.trainers.columnbased.caches.ProjectionsCache.RegionKey)2
FeatureProcessor (org.apache.ignite.ml.trees.trainers.columnbased.vectors.FeatureProcessor)2
SparseBitSet (com.zaxxer.sparsebits.SparseBitSet)1
Arrays (java.util.Arrays)1
Collections (java.util.Collections)1
Comparator (java.util.Comparator)1
HashMap (java.util.HashMap)1
Map (java.util.Map)1
Optional (java.util.Optional)1
Set (java.util.Set)1
Consumer (java.util.function.Consumer)1
Collectors (java.util.stream.Collectors)1
