// @Test public void realCountsInBounds() { int n = 4213; int size = 50; long key; double prob = .04; double eps = 1.0 / size; double delta = .01; int bad = 0; CountMin countmin = new CountMin(eps, delta); PositiveCountersMap realCounts = new PositiveCountersMap(); for (int i = 0; i < n; i++) { key = randomGeometricDist(prob); countmin.update(key); realCounts.increment(key); long realCount = realCounts.get(key); long upperBound = countmin.getEstimateUpperBound(key); long lowerBound = countmin.getEstimateLowerBound(key); if (upperBound >= realCount && realCount >= lowerBound) { continue; } else { System.out.format( "upperbound: %d, realCount: %d, lowerbound: %d \n", upperBound, realCount, lowerBound); bad += 1; } } // System.out.format("bad is: %d and eps * n is: %f \n", bad, eps*n); Assert.assertTrue(bad <= eps * n); }
// @Test public void realCountsInBoundsAfterUnionCU() { int n = 1000; int size = 400; double delta = .01; double eps = 1.0 / size; double prob1 = .01; double prob2 = .005; PositiveCountersMap realCounts = new PositiveCountersMap(); CountMin countmin1 = new CountMin(eps, delta); CountMin countmin2 = new CountMin(eps, delta); for (int i = 0; i < n; i++) { long key1 = randomGeometricDist(prob1); long key2 = randomGeometricDist(prob2); countmin1.conservative_update(key1); countmin2.conservative_update(key2); // Updating the real counters realCounts.increment(key1); realCounts.increment(key2); } CountMin countmin = countmin1.merge(countmin2); int bad = 0; int i = 0; for (long key : realCounts.keys()) { i = i + 1; long realCount = realCounts.get(key); long upperBound = countmin.getEstimateUpperBound(key); long lowerBound = countmin.getEstimateLowerBound(key); if (upperBound < realCount || realCount < lowerBound) { bad = bad + 1; System.out.format( "upperbound: %d, realCount: %d, lowerbound: %d \n", upperBound, realCount, lowerBound); } } Assert.assertTrue(bad <= delta * i); }