Exemplo n.º 1
0
        public void CompareSignature(byte[] memory, byte[] previous, long length)
        {
            diffBits.Clear();
            int[] sig = CreateSignatureTest.TestSignature;
            byte  mem;

            diffLength = 0;
            int counter = 0;

            for (int i = 0; i < sig.Length; i++)
            {
                mem = memory[sig[i]];
                if (mem != previous[sig[i]])
                {
                    diffBits.Add(true);
                    diff[diffLength] = mem;
                    diffLength++;
                    counter = i;
                }
                else
                {
                    diffBits.Add(false);
                }
            }
            diffBits.BitCount = counter;
        }
Exemplo n.º 2
0
        public void CureAll()
        {
            flags.Clear();
            oldFlags.Clear();

            ArrayUtils.Clear(remains);
            m_activeCount = 0;
        }
Exemplo n.º 3
0
        public virtual void TestIntersection()
        {
            int numBits                = TestUtil.NextInt(Random(), 100, 1 << 20);
            int numDocIdSets           = TestUtil.NextInt(Random(), 1, 4);
            IList <BitArray> fixedSets = new List <BitArray>(numDocIdSets);

            for (int i = 0; i < numDocIdSets; ++i)
            {
                fixedSets.Add(RandomSet(numBits, (float)Random().NextDouble()));
            }
            IList <WAH8DocIdSet> compressedSets = new List <WAH8DocIdSet>(numDocIdSets);

            foreach (BitArray set in fixedSets)
            {
                compressedSets.Add(CopyOf(set, numBits));
            }

            WAH8DocIdSet union    = WAH8DocIdSet.Intersect(compressedSets);
            BitArray     expected = new BitArray(numBits);

            expected.SetAll(true);
            foreach (BitArray set in fixedSets)
            {
                for (int previousDoc = -1, doc = set.NextSetBit(0); ; previousDoc = doc, doc = set.NextSetBit(doc + 1))
                {
                    if (doc == -1)
                    {
                        expected.Clear(previousDoc + 1, set.Count);
                        break;
                    }
                    else
                    {
                        expected.Clear(previousDoc + 1, doc);
                    }
                }
            }
            AssertEquals(numBits, expected, union);
        }
Exemplo n.º 4
0
        internal virtual void DoRandomSets(int maxSize, int iter, int mode)
        {
            BitArray    a0 = null;
            Int64BitSet b0 = null;

            for (int i = 0; i < iter; i++)
            {
                int         sz = TestUtil.NextInt(Random(), 2, maxSize);
                BitArray    a  = new BitArray(sz);
                Int64BitSet b  = new Int64BitSet(sz);

                // test the various ways of setting bits
                if (sz > 0)
                {
                    int nOper = Random().Next(sz);
                    for (int j = 0; j < nOper; j++)
                    {
                        int idx;

                        idx = Random().Next(sz);
                        a.SafeSet(idx, true);
                        b.Set(idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, false);
                        b.Clear(idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, !a.SafeGet(idx));
                        b.Flip(idx, idx + 1);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, !a.SafeGet(idx));
                        b.Flip(idx, idx + 1);

                        bool val2 = b.Get(idx);
                        bool val  = b.GetAndSet(idx);
                        Assert.IsTrue(val2 == val);
                        Assert.IsTrue(b.Get(idx));

                        if (!val)
                        {
                            b.Clear(idx);
                        }
                        Assert.IsTrue(b.Get(idx) == val);
                    }
                }

                // test that the various ways of accessing the bits are equivalent
                DoGet(a, b);

                // test ranges, including possible extension
                int fromIndex, toIndex;
                fromIndex = Random().Next(sz / 2);
                toIndex   = fromIndex + Random().Next(sz - fromIndex);
                BitArray aa = new BitArray(a);
                aa.Flip(fromIndex, toIndex);
                Int64BitSet bb = b.Clone();
                bb.Flip(fromIndex, toIndex);

                fromIndex = Random().Next(sz / 2);
                toIndex   = fromIndex + Random().Next(sz - fromIndex);
                aa        = new BitArray(a);
                aa.Clear(fromIndex, toIndex);
                bb = b.Clone();
                bb.Clear(fromIndex, toIndex);

                DoNextSetBit(aa, bb); // a problem here is from clear() or nextSetBit

                DoPrevSetBit(aa, bb);

                fromIndex = Random().Next(sz / 2);
                toIndex   = fromIndex + Random().Next(sz - fromIndex);
                aa        = new BitArray(a);
                aa.Set(fromIndex, toIndex);
                bb = b.Clone();
                bb.Set(fromIndex, toIndex);

                DoNextSetBit(aa, bb); // a problem here is from set() or nextSetBit

                DoPrevSetBit(aa, bb);

                if (b0 != null && b0.Length <= b.Length)
                {
                    Assert.AreEqual(a.Cardinality(), b.Cardinality());

                    BitArray a_and = new BitArray(a);
                    a_and = a_and.And_UnequalLengths(a0);
                    BitArray a_or = new BitArray(a);
                    a_or = a_or.Or_UnequalLengths(a0);
                    BitArray a_xor = new BitArray(a);
                    a_xor = a_xor.Xor_UnequalLengths(a0);
                    BitArray a_andn = new BitArray(a);
                    a_andn.AndNot(a0);

                    Int64BitSet b_and = b.Clone();
                    Assert.AreEqual(b, b_and);
                    b_and.And(b0);
                    Int64BitSet b_or = b.Clone();
                    b_or.Or(b0);
                    Int64BitSet b_xor = b.Clone();
                    b_xor.Xor(b0);
                    Int64BitSet b_andn = b.Clone();
                    b_andn.AndNot(b0);

                    Assert.AreEqual(a0.Cardinality(), b0.Cardinality());
                    Assert.AreEqual(a_or.Cardinality(), b_or.Cardinality());

                    Assert.AreEqual(a_and.Cardinality(), b_and.Cardinality());
                    Assert.AreEqual(a_or.Cardinality(), b_or.Cardinality());
                    Assert.AreEqual(a_xor.Cardinality(), b_xor.Cardinality());
                    Assert.AreEqual(a_andn.Cardinality(), b_andn.Cardinality());
                }

                a0 = a;
                b0 = b;
            }
        }
Exemplo n.º 5
0
        internal virtual void DoRandomSets(int maxSize, int iter, int mode)
        {
            BitArray   a0 = null;
            OpenBitSet b0 = null;

            for (int i = 0; i < iter; i++)
            {
                int        sz = Random().Next(maxSize);
                BitArray   a  = new BitArray(sz);
                OpenBitSet b  = new OpenBitSet(sz);

                // test the various ways of setting bits
                if (sz > 0)
                {
                    int nOper = Random().Next(sz);
                    for (int j = 0; j < nOper; j++)
                    {
                        int idx;

                        idx = Random().Next(sz);
                        a.SafeSet(idx, true);
                        b.FastSet(idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, true);
                        b.FastSet((long)idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, false);
                        b.FastClear(idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, false);
                        b.FastClear((long)idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, !a.SafeGet(idx));
                        b.FastFlip(idx);

                        bool val  = b.FlipAndGet(idx);
                        bool val2 = b.FlipAndGet(idx);
                        Assert.IsTrue(val != val2);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, !a.SafeGet(idx));
                        b.FastFlip((long)idx);

                        val  = b.FlipAndGet((long)idx);
                        val2 = b.FlipAndGet((long)idx);
                        Assert.IsTrue(val != val2);

                        val = b.GetAndSet(idx);
                        Assert.IsTrue(val2 == val);
                        Assert.IsTrue(b.Get(idx));

                        if (!val)
                        {
                            b.FastClear(idx);
                        }
                        Assert.IsTrue(b.Get(idx) == val);
                    }
                }

                // test that the various ways of accessing the bits are equivalent
                DoGet(a, b);
                DoGetFast(a, b, sz);

                // test ranges, including possible extension
                int fromIndex, toIndex;
                fromIndex = Random().Next(sz + 80);
                toIndex   = fromIndex + Random().Next((sz >> 1) + 1);

                BitArray aa = (BitArray)a.Clone();
                // C# BitArray class does not support dynamic sizing.
                // We have to explicitly change its size using the Length attribute.
                if (toIndex > aa.Length)
                {
                    aa.Length = toIndex;
                }
                aa.Flip(fromIndex, toIndex);
                OpenBitSet bb = (OpenBitSet)b.Clone();
                bb.Flip(fromIndex, toIndex);

                DoIterate(aa, bb, mode); // a problem here is from flip or doIterate

                fromIndex = Random().Next(sz + 80);
                toIndex   = fromIndex + Random().Next((sz >> 1) + 1);
                aa        = (BitArray)a.Clone();
                if (toIndex > aa.Length)
                {
                    aa.Length = toIndex;
                }
                aa.Clear(fromIndex, toIndex);
                bb = (OpenBitSet)b.Clone();
                bb.Clear(fromIndex, toIndex);

                DoNextSetBit(aa, bb); // a problem here is from clear() or nextSetBit
                DoNextSetBitLong(aa, bb);

                DoPrevSetBit(aa, bb);
                DoPrevSetBitLong(aa, bb);

                fromIndex = Random().Next(sz + 80);
                toIndex   = fromIndex + Random().Next((sz >> 1) + 1);
                aa        = (BitArray)a.Clone();
                if (toIndex > aa.Length)
                {
                    aa.Length = toIndex;
                }
                aa.Set(fromIndex, toIndex);
                bb = (OpenBitSet)b.Clone();
                bb.Set(fromIndex, toIndex);

                DoNextSetBit(aa, bb); // a problem here is from set() or nextSetBit
                DoNextSetBitLong(aa, bb);

                DoPrevSetBit(aa, bb);
                DoPrevSetBitLong(aa, bb);

                if (a0 != null)
                {
                    aa = (BitArray)a.Clone();
                    BitArray aa0     = (BitArray)a0.Clone();
                    int      largest = Math.Max(a.Length, a0.Length);
                    aa.Length = aa0.Length = largest;
                    // BitWiseEquals needs both arrays to be the same size for succeeding.
                    // We could enlarge the smallest of a and a0, but then the tests below
                    // won't test "UnequalLengths" operations.
                    Assert.AreEqual(aa.BitWiseEquals(aa0), b.Equals(b0));

                    Assert.AreEqual(a.Cardinality(), b.Cardinality());

                    BitArray a_and = (BitArray)a.Clone();
                    a_and = a_and.And_UnequalLengths(a0);
                    BitArray a_or = (BitArray)a.Clone();
                    a_or = a_or.Or_UnequalLengths(a0);
                    BitArray a_xor = (BitArray)a.Clone();
                    a_xor = a_xor.Xor_UnequalLengths(a0);
                    BitArray a_andn = (BitArray)a.Clone();
                    a_andn.AndNot(a0);

                    OpenBitSet b_and = (OpenBitSet)b.Clone();
                    Assert.AreEqual(b, b_and);
                    b_and.And(b0);
                    OpenBitSet b_or = (OpenBitSet)b.Clone();
                    b_or.Or(b0);
                    OpenBitSet b_xor = (OpenBitSet)b.Clone();
                    b_xor.Xor(b0);
                    OpenBitSet b_andn = (OpenBitSet)b.Clone();
                    b_andn.AndNot(b0);

                    DoIterate(a_and, b_and, mode);
                    DoIterate(a_or, b_or, mode);
                    DoIterate(a_xor, b_xor, mode);
                    DoIterate(a_andn, b_andn, mode);

                    Assert.AreEqual(a_and.Cardinality(), b_and.Cardinality());
                    Assert.AreEqual(a_or.Cardinality(), b_or.Cardinality());
                    Assert.AreEqual(a_xor.Cardinality(), b_xor.Cardinality());
                    Assert.AreEqual(a_andn.Cardinality(), b_andn.Cardinality());

                    // test non-mutating popcounts
                    Assert.AreEqual(b_and.Cardinality(), OpenBitSet.IntersectionCount(b, b0));
                    Assert.AreEqual(b_or.Cardinality(), OpenBitSet.UnionCount(b, b0));
                    Assert.AreEqual(b_xor.Cardinality(), OpenBitSet.XorCount(b, b0));
                    Assert.AreEqual(b_andn.Cardinality(), OpenBitSet.AndNotCount(b, b0));
                }

                a0 = a;
                b0 = b;
            }
        }
Exemplo n.º 6
0
        internal virtual void DoRandomSets(int maxSize, int iter, int mode)
        {
            BitArray   a0 = null;
            OpenBitSet b0 = null;

            for (int i = 0; i < iter; i++)
            {
                int        sz = Random().Next(maxSize);
                BitArray   a  = new BitArray(sz);
                OpenBitSet b  = new OpenBitSet(sz);

                // test the various ways of setting bits
                if (sz > 0)
                {
                    int nOper = Random().Next(sz);
                    for (int j = 0; j < nOper; j++)
                    {
                        int idx;

                        idx = Random().Next(sz);
                        a.SafeSet(idx, true);
                        b.FastSet(idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, true);
                        b.FastSet((long)idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, false);
                        b.FastClear(idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, false);
                        b.FastClear((long)idx);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, !a.SafeGet(idx));
                        b.FastFlip(idx);

                        bool val  = b.FlipAndGet(idx);
                        bool val2 = b.FlipAndGet(idx);
                        Assert.IsTrue(val != val2);

                        idx = Random().Next(sz);
                        a.SafeSet(idx, !a.SafeGet(idx));
                        b.FastFlip((long)idx);

                        val  = b.FlipAndGet((long)idx);
                        val2 = b.FlipAndGet((long)idx);
                        Assert.IsTrue(val != val2);

                        val = b.GetAndSet(idx);
                        Assert.IsTrue(val2 == val);
                        Assert.IsTrue(b.Get(idx));

                        if (!val)
                        {
                            b.FastClear(idx);
                        }
                        Assert.IsTrue(b.Get(idx) == val);
                    }
                }

                // test that the various ways of accessing the bits are equivalent
                DoGet(a, b);
                DoGetFast(a, b, sz);

                // test ranges, including possible extension
                int fromIndex, toIndex;
                fromIndex = Random().Next(sz + 80);
                toIndex   = fromIndex + Random().Next((sz >> 1) + 1);
                BitArray aa = (BitArray)a.Clone();
                aa.Flip(fromIndex, toIndex);
                OpenBitSet bb = (OpenBitSet)b.Clone();
                bb.Flip(fromIndex, toIndex);

                DoIterate(aa, bb, mode); // a problem here is from flip or doIterate

                fromIndex = Random().Next(sz + 80);
                toIndex   = fromIndex + Random().Next((sz >> 1) + 1);
                aa        = (BitArray)a.Clone();
                aa.Clear(fromIndex, toIndex);
                bb = (OpenBitSet)b.Clone();
                bb.Clear(fromIndex, toIndex);

                DoNextSetBit(aa, bb); // a problem here is from clear() or nextSetBit
                DoNextSetBitLong(aa, bb);

                DoPrevSetBit(aa, bb);
                DoPrevSetBitLong(aa, bb);

                fromIndex = Random().Next(sz + 80);
                toIndex   = fromIndex + Random().Next((sz >> 1) + 1);
                aa        = (BitArray)a.Clone();
                aa.Set(fromIndex, toIndex);
                bb = (OpenBitSet)b.Clone();
                bb.Set(fromIndex, toIndex);

                DoNextSetBit(aa, bb); // a problem here is from set() or nextSetBit
                DoNextSetBitLong(aa, bb);

                DoPrevSetBit(aa, bb);
                DoPrevSetBitLong(aa, bb);

                if (a0 != null)
                {
                    Assert.AreEqual(a.BitWiseEquals(a0), b.Equals(b0));

                    Assert.AreEqual(a.Cardinality(), b.Cardinality());

                    BitArray a_and = (BitArray)a.Clone();
                    a_and = a_and.And(a0);
                    BitArray a_or = (BitArray)a.Clone();
                    a_or = a_or.Or(a0);
                    BitArray a_xor = (BitArray)a.Clone();
                    a_xor = a_xor.Xor(a0);
                    BitArray a_andn = (BitArray)a.Clone();
                    a_andn.AndNot(a0);

                    OpenBitSet b_and = (OpenBitSet)b.Clone();
                    Assert.AreEqual(b, b_and);
                    b_and.And(b0);
                    OpenBitSet b_or = (OpenBitSet)b.Clone();
                    b_or.Or(b0);
                    OpenBitSet b_xor = (OpenBitSet)b.Clone();
                    b_xor.Xor(b0);
                    OpenBitSet b_andn = (OpenBitSet)b.Clone();
                    b_andn.AndNot(b0);

                    DoIterate(a_and, b_and, mode);
                    DoIterate(a_or, b_or, mode);
                    DoIterate(a_xor, b_xor, mode);
                    DoIterate(a_andn, b_andn, mode);

                    Assert.AreEqual(a_and.Cardinality(), b_and.Cardinality());
                    Assert.AreEqual(a_or.Cardinality(), b_or.Cardinality());
                    Assert.AreEqual(a_xor.Cardinality(), b_xor.Cardinality());
                    Assert.AreEqual(a_andn.Cardinality(), b_andn.Cardinality());

                    // test non-mutating popcounts
                    Assert.AreEqual(b_and.Cardinality(), OpenBitSet.IntersectionCount(b, b0));
                    Assert.AreEqual(b_or.Cardinality(), OpenBitSet.UnionCount(b, b0));
                    Assert.AreEqual(b_xor.Cardinality(), OpenBitSet.XorCount(b, b0));
                    Assert.AreEqual(b_andn.Cardinality(), OpenBitSet.AndNotCount(b, b0));
                }

                a0 = a;
                b0 = b;
            }
        }