/** * @return The smallest BloomFilter that can provide the given false * positive probability rate for the given number of elements. * * Asserts that the given probability can be satisfied using this * filter. */ public static IFilter getFilter(long numElements, double maxFalsePosProbability, boolean offheap, boolean oldBfHashOrder) { assert maxFalsePosProbability <= 1.0 : "Invalid probability"; if (maxFalsePosProbability == 1.0) return new AlwaysPresentFilter(); int bucketsPerElement = BloomCalculations.maxBucketsPerElement(numElements); BloomCalculations.BloomSpecification spec = BloomCalculations.computeBloomSpec(bucketsPerElement, maxFalsePosProbability); return createFilter(spec.K, numElements, spec.bucketsPerElement, offheap, oldBfHashOrder); }
/** * @return The smallest BloomFilter that can provide the given false * positive probability rate for the given number of elements. * * Asserts that the given probability can be satisfied using this * filter. */ public static IFilter getFilter(long numElements, double maxFalsePosProbability, boolean offheap, boolean oldBfHashOrder) { assert maxFalsePosProbability <= 1.0 : "Invalid probability"; if (maxFalsePosProbability == 1.0) return new AlwaysPresentFilter(); int bucketsPerElement = BloomCalculations.maxBucketsPerElement(numElements); BloomCalculations.BloomSpecification spec = BloomCalculations.computeBloomSpec(bucketsPerElement, maxFalsePosProbability); return createFilter(spec.K, numElements, spec.bucketsPerElement, offheap, oldBfHashOrder); }
/** * @return The smallest BloomFilter that can provide the given false * positive probability rate for the given number of elements. * * Asserts that the given probability can be satisfied using this * filter. */ public static IFilter getFilter(long numElements, double maxFalsePosProbability, boolean offheap, boolean oldBfHashOrder) { assert maxFalsePosProbability <= 1.0 : "Invalid probability"; if (maxFalsePosProbability == 1.0) return new AlwaysPresentFilter(); int bucketsPerElement = BloomCalculations.maxBucketsPerElement(numElements); BloomCalculations.BloomSpecification spec = BloomCalculations.computeBloomSpec(bucketsPerElement, maxFalsePosProbability); return createFilter(spec.K, numElements, spec.bucketsPerElement, offheap, oldBfHashOrder); }
/** * @return The smallest BloomFilter that can provide the given false * positive probability rate for the given number of elements. * * Asserts that the given probability can be satisfied using this * filter. */ public static IFilter getFilter(long numElements, double maxFalsePosProbability, boolean offheap, boolean oldBfHashOrder) { assert maxFalsePosProbability <= 1.0 : "Invalid probability"; if (maxFalsePosProbability == 1.0) return new AlwaysPresentFilter(); int bucketsPerElement = BloomCalculations.maxBucketsPerElement(numElements); BloomCalculations.BloomSpecification spec = BloomCalculations.computeBloomSpec(bucketsPerElement, maxFalsePosProbability); return createFilter(spec.K, numElements, spec.bucketsPerElement, offheap, oldBfHashOrder); }
/** * @return The smallest BloomFilter that can provide the given false * positive probability rate for the given number of elements. * * Asserts that the given probability can be satisfied using this * filter. */ public static IFilter getFilter(long numElements, double maxFalsePosProbability, boolean offheap) { assert maxFalsePosProbability <= 1.0 : "Invalid probability"; if (maxFalsePosProbability == 1.0) return new AlwaysPresentFilter(); int bucketsPerElement = BloomCalculations.maxBucketsPerElement(numElements); BloomCalculations.BloomSpecification spec = BloomCalculations.computeBloomSpec(bucketsPerElement, maxFalsePosProbability); return createFilter(spec.K, numElements, spec.bucketsPerElement, offheap); }