Esempio n. 1
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        public void Remove()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Create and store a few elements.
            PriorityValuePair <int> elem1 = new PriorityValuePair <int>(1f, 2);
            PriorityValuePair <int> elem2 = new PriorityValuePair <int>(2f, 4);
            PriorityValuePair <int> elem3 = new PriorityValuePair <int>(3f, 6);

            // Expect Remove() to return null for an empty heap.
            Assert.That(heap.Remove(elem1), Is.EqualTo(false));

            // Insert 2 of the elements into the heap.
            heap.Push(elem2);
            heap.Push(elem3);

            // Expect Remove() to return false for elem1, indicating the element was removed
            // (since it doesn't belong to the heap and can't be found). This tests the if-else
            // case for when the provided element isn't found in the heap.
            Assert.That(heap.Remove(elem1), Is.False);

            // Expect Remove() to return true for elem2, indicating the element was removed
            // (since it belongs to the heap and can be found). This tests the if-else case for
            // when Count is 2 or greater.
            Assert.That(heap.Remove(elem2), Is.True);

            // Expect Remove() to return true for elem3, indicating the element was removed
            // (since it belongs to the heap and can be found). This tests the if-else case for
            // when Count equals 1.
            Assert.That(heap.Remove(elem3), Is.True);
        }
Esempio n. 2
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        public void Peek()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Expect Peek() to return null for an empty heap.
            Assert.That(heap.Peek(), Is.EqualTo(null));

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Store an element and insert it into the heap.
            PriorityValuePair <int> elem1 = new PriorityValuePair <int>(1f, 2);

            heap.Push(elem1);

            // Ensure that the element was inserted into the heap as the root element.
            Assert.That(heap.Count, Is.EqualTo(1));
            Assert.That(heap.Peek(), Is.EqualTo(elem1));

            // Ensure that the element was not removed from the heap.
            Assert.That(heap.Count, Is.EqualTo(1));

            // Insert another element with higher priority than the last.
            PriorityValuePair <int> elem2 = new PriorityValuePair <int>(2f, 4);

            heap.Push(elem2);

            // Ensure that Peak() returns the new root element.
            Assert.That(heap.Peek(), Is.EqualTo(elem2));
        }
Esempio n. 3
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        public void GetEnumerator()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Enqueue a few elements in the queue.
            heap.Push(1f, 2);
            heap.Push(3f, 6);
            heap.Push(2f, 4);

            // Use the enumerator of heap (using disposes it when we're finished).
            using (IEnumerator <PriorityValuePair <int> > enumerator = heap.GetEnumerator())
            {
                // Expect the first element to have the highest priority, and expect MoveNext() to
                // return true until the last element. After the end of the heap is reached, it
                // then returns false.
                // Note: Since the heap doesn't guarantee the order of elements after the first, we
                // can only be certain of the root element and after that we really can't be sure
                // of the order -- just the length.
                Assert.That(enumerator.MoveNext(), Is.True);
                Assert.That(enumerator.Current.Value, Is.EqualTo(6));
                Assert.That(enumerator.MoveNext(), Is.True);
                Assert.That(enumerator.MoveNext(), Is.True);
                Assert.That(enumerator.MoveNext(), Is.False);
            }
        }
Esempio n. 4
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        public void CopyTo()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Create a new array of size 5.
            PriorityValuePair <int>[] arrayCopy = new PriorityValuePair <int> [5];

            // Push 3 elements onto the queue.
            PriorityValuePair <int> elem = new PriorityValuePair <int>(3f, 6);

            heap.Push(1f, 2);
            heap.Push(elem);
            heap.Push(2f, 4);

            // Copy the heap data to the array, starting from index 1 (not 0).
            heap.CopyTo(arrayCopy, 1);

            // Expect the first array index to be unset, but all the rest to be set.
            // Note: The order of elements after the first can't be guaranteed, because the heap
            // doesn't store things in an exact linear order, but we can be sure that the elements
            // aren't going to be equal to null because we set them.
            Assert.That(arrayCopy[0], Is.EqualTo(null));
            Assert.That(arrayCopy[1], Is.EqualTo(elem));
            Assert.That(arrayCopy[2], Is.Not.EqualTo(null));
            Assert.That(arrayCopy[3], Is.Not.EqualTo(null));
            Assert.That(arrayCopy[4], Is.EqualTo(null));
        }
Esempio n. 5
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        public void SwapElements()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Enqueue an element into the queue.
            var elem1 = new PriorityValuePair <int>(2f, 4);

            heap.Push(elem1);

            // Ensure that the element was inserted.
            Assert.That(heap.Count, Is.EqualTo(1));
            Assert.That(heap.Peek(), Is.EqualTo(elem1));

            // Try to HeapSwapElements() while the queue only contains 1 element and expect an
            // InvalidOperationException to be thrown.
            Assert.Throws <InvalidOperationException>(() => {
                heap.SwapElements(0, 1);
            });

            // Enqueue another element with higher priority than the last.
            var elem2 = new PriorityValuePair <int>(1f, 2);

            heap.Push(elem2);

            // Ensure that the element was inserted and that the 1st (higher priority) element is
            // still at the root of the heap.
            Assert.That(heap.Count, Is.EqualTo(2));
            Assert.That(heap.Peek(), Is.EqualTo(elem1));

            // Try to HeapSwapElements() with an invalid index1 and expect an
            // ArgumentOutOfRangeException to be thrown.
            Assert.Throws <ArgumentOutOfRangeException>(() => {
                heap.SwapElements(-1, 1);
            });

            // Try to HeapSwapElements() with an invalid index2 and expect an
            // ArgumentOutOfRangeException to be thrown.
            Assert.Throws <ArgumentOutOfRangeException>(() => {
                heap.SwapElements(0, -1);
            });

            // Actually swap elements now.
            heap.SwapElements(0, 1);

            // Ensure that the elements were swapped.
            Assert.That(heap.Count, Is.EqualTo(2));
            Assert.That(heap.Peek(), Is.EqualTo(elem2));
            Assert.That(heap.Contains(elem1), Is.True);
        }
Esempio n. 6
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        public void PopValue()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Try to PopPriority() and expect an NullReferenceException to be thrown.
            Assert.Throws <NullReferenceException>(() => {
                heap.PopValue();
            });

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Store an element and insert it into the heap.
            PriorityValuePair <int> elem = new PriorityValuePair <int>(1f, 2);

            heap.Push(elem);

            // Ensure that the element was inserted into the heap.
            Assert.That(heap.Peek(), Is.EqualTo(elem));

            // Ensure that the value of the pushed element is returned.
            Assert.That(heap.PopValue(), Is.EqualTo(2));

            // Ensure that the element was removed from the heap.
            Assert.That(heap.Count, Is.EqualTo(0));
        }
Esempio n. 7
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        public void Pop()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Expect Pop() to return null for an empty heap.
            Assert.That(heap.Pop(), Is.EqualTo(null));

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Store an element and insert it into the heap.
            PriorityValuePair <int> elem = new PriorityValuePair <int>(1f, 2);

            heap.Push(elem);

            // Ensure that the element was inserted into the heap.
            Assert.That(heap.Count, Is.EqualTo(1));
            Assert.That(heap.Peek(), Is.EqualTo(elem));

            // Ensure that the returned element points to the same object we stored earlier.
            Assert.That(heap.Pop(), Is.EqualTo(elem));

            // Ensure that the element was removed from the heap.
            Assert.That(heap.Count, Is.EqualTo(0));
        }
Esempio n. 8
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        public void PropertyCount()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Ensure that Count reports 0.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Enqueue 3 elements in the queue.
            heap.Push(1f, 1);
            heap.Push(3f, 3);
            heap.Push(2f, 2);

            // Ensure that Count now reports 3.
            Assert.That(heap.Count, Is.EqualTo(3));
        }
Esempio n. 9
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        public void Clear()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Push 3 elements onto the heap.
            heap.Push(1f, 2);
            heap.Push(3f, 6);
            heap.Push(2f, 4);

            // Ensure that 3 elements have been added to the heap.
            Assert.That(heap.Count, Is.EqualTo(3));

            // Clear the heap.
            heap.Clear();

            // Ensure that all of the elements have been removed.
            Assert.That(heap.Count, Is.EqualTo(0));
        }
Esempio n. 10
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        public void PushPriorityValue()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Ensure that heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Store an element and insert it into the heap.
            heap.Push(1f, 2);

            // Ensure that the element was inserted into the heap.
            Assert.That(heap.PeekValue(), Is.EqualTo(2));

            // Store another element with higher priority and insert it as well.
            heap.Push(2f, 4);

            // Ensure that the element was inserted into the heap.
            Assert.That(heap.PeekValue(), Is.EqualTo(4));
        }
Esempio n. 11
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        public void PropertyIsEmpty()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Ensure that IsEmpty reports TRUE.
            Assert.That(heap.IsEmpty, Is.True);

            // Enqueue an element in the queue.
            heap.Push(1f, 1);

            // Ensure that IsEmpty now reports FALSE.
            Assert.That(heap.IsEmpty, Is.False);
        }
Esempio n. 12
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        public void PushElement()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Ensure that the heap is empty.
            Assert.That(heap.Count, Is.EqualTo(0));

            // Store an element and insert it into the heap.
            PriorityValuePair <int> elem = new PriorityValuePair <int>(1f, 2);

            heap.Push(elem);

            // Ensure that the element was inserted into the heap.
            Assert.That(heap.Peek(), Is.EqualTo(elem));

            // Store another element with higher priority and insert it as well.
            elem = new PriorityValuePair <int>(2f, 4);
            heap.Push(elem);

            // Ensure that the element was inserted into the queue and is at the root.
            Assert.That(heap.Peek(), Is.EqualTo(elem));
        }
Esempio n. 13
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        public void Contains()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>();

            // Create and store a new element.
            PriorityValuePair <int> elem = new PriorityValuePair <int>(1f, 2);

            // Ensure the queue contains the element.
            Assert.That(heap.Contains(elem), Is.False);

            // Push it onto the heap.
            heap.Push(elem);

            // Ensure the queue now contains the element.
            Assert.That(heap.Contains(elem), Is.True);
        }
Esempio n. 14
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        public void PropertyCapacity()
        {
            // Create a new heap.
            ConcurrentBinaryMinHeap <int> heap = new ConcurrentBinaryMinHeap <int>(15);

            // Ensure that Capacity reports 15.
            Assert.That(heap.Capacity, Is.EqualTo(15));

            // Intentionally over-fill the queue to force it to resize.
            for (int i = 0; i < 16; i++)
            {
                heap.Push(1f, 1);
            }

            // Ensure that Capacity is now greater than 15.
            Assert.That(heap.Capacity, Is.GreaterThan(15));
        }