private void initialize(int numDimensions) { if (initialized) { return; } basisMatrix = RandomProjector.generateBasisNormal(numProjections, numDimensions); initialized = true; }
private void initialize(int numDimensions) { if (initialized) { return; } basisMatrix = RandomProjector.generateBasisNormal(numProjections, numDimensions); initialized = true; }
private void initialize(int numDimensions) { if (initialized) { return; } initialized = true; projection = RandomProjector.generateBasisNormal(BITS, numDimensions); }
private void initialize(int numDimensions) { if (initialized) { return; } initialized = true; projection = RandomProjector.generateBasisNormal(BITS, numDimensions); }
private void initialize(int numDimensions) { if (initialized) { return; } initialized = true; projection = RandomProjector.generateBasisNormal(BITS, numDimensions); }
private void initialize(int numDimensions) { if (initialized) { return; } basisMatrix = RandomProjector.generateBasisNormal(numProjections, numDimensions); initialized = true; }
private void initialize(int numDimensions) { if (initialized) { return; } initialized = true; basisMatrix = RandomProjector.generateBasisNormal(numProjections, numDimensions); scalarProjections = Lists.newArrayList(); for (int i = 0; i < numProjections; ++i) { scalarProjections.add(TreeMultiset.<WeightedThing<Vector>>create()); } }
private void initialize(int numDimensions) { if (initialized) { return; } initialized = true; basisMatrix = RandomProjector.generateBasisNormal(numProjections, numDimensions); scalarProjections = Lists.newArrayList(); for (int i = 0; i < numProjections; ++i) { scalarProjections.add(TreeMultiset.<WeightedThing<Vector>>create()); } }
private void initialize(int numDimensions) { if (initialized) { return; } initialized = true; basisMatrix = RandomProjector.generateBasisNormal(numProjections, numDimensions); scalarProjections = Lists.newArrayList(); for (int i = 0; i < numProjections; ++i) { scalarProjections.add(TreeMultiset.<WeightedThing<Vector>>create()); } }