Пример #1
0
// Removes and returns the minimum element of h.
func PopMin(h heap.Interface) interface{} {
	n := h.Len() - 1
	h.Swap(0, n)
	x := h.Pop()
	siftDownMin(h, 0, n)
	return x
}
func TestBasicDBHeapBehavior(t *testing.T) {
	var dbheap heap.Interface

	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With an empty dbHeap", t, func() {
		dbheap = &DBHeap{}
		heap.Init(dbheap)

		Convey("when inserting unordered dbCounters with different active counts", func() {
			heap.Push(dbheap, &dbCounter{75, nil})
			heap.Push(dbheap, &dbCounter{121, nil})
			heap.Push(dbheap, &dbCounter{76, nil})
			heap.Push(dbheap, &dbCounter{51, nil})
			heap.Push(dbheap, &dbCounter{82, nil})
			heap.Push(dbheap, &dbCounter{117, nil})
			heap.Push(dbheap, &dbCounter{49, nil})
			heap.Push(dbheap, &dbCounter{101, nil})
			heap.Push(dbheap, &dbCounter{122, nil})
			heap.Push(dbheap, &dbCounter{33, nil})
			heap.Push(dbheap, &dbCounter{0, nil})

			Convey("they should pop in active order, least to greatest", func() {
				prev := -1
				for dbheap.Len() > 0 {
					popped := heap.Pop(dbheap).(*dbCounter)
					So(popped.active, ShouldBeGreaterThan, prev)
					prev = popped.active
				}
			})
		})

		Convey("when inserting unordered dbCounters with different bson sizes", func() {
			heap.Push(dbheap, &dbCounter{0, []*Intent{&Intent{Size: 70}}})
			heap.Push(dbheap, &dbCounter{0, []*Intent{&Intent{Size: 1024}}})
			heap.Push(dbheap, &dbCounter{0, []*Intent{&Intent{Size: 97}}})
			heap.Push(dbheap, &dbCounter{0, []*Intent{&Intent{Size: 3}}})
			heap.Push(dbheap, &dbCounter{0, []*Intent{&Intent{Size: 1024 * 1024}}})

			Convey("they should pop in bson size order, greatest to least", func() {
				prev := int64(1024*1024 + 1) // Maximum
				for dbheap.Len() > 0 {
					popped := heap.Pop(dbheap).(*dbCounter)
					So(popped.collections[0].Size, ShouldBeLessThan, prev)
					prev = popped.collections[0].Size
				}
			})
		})
	})
}
Пример #3
0
// Index of maximum element in h.
//
// There's no MinInd because the minimum of a heap is always at index zero.
func MaxInd(h heap.Interface) (maxind int) {
	switch h.Len() {
	case 1:
		maxind = 0
	case 2:
		maxind = 1
	default:
		maxind = 1
		if h.Less(1, 2) {
			maxind = 2
		}
	}
	return
}
Пример #4
0
// Removes and returns the maximum element of h.
func PopMax(h heap.Interface) interface{} {
	n := h.Len()
	if n <= 2 {
		return h.Pop()
	}

	i := 1
	if h.Less(1, 2) {
		i = 2
	}
	h.Swap(i, n-1)
	x := h.Pop()
	siftDownMax(h, i, n-1)
	return x
}
Пример #5
0
// Adds x to the heap x.
func Push(h heap.Interface, x interface{}) {
	h.Push(x)
	siftUp(h, h.Len()-1)
}
Пример #6
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// Establishes heap order in h.
//
// Every non-empty heap must be initialized using this function before any of
// the other functions of this package is used on it.
//
// Note that, although this package uses the interface from container/heap,
// you must not mix operations from both packages.
func Init(h heap.Interface) {
	n := h.Len()
	for i := parent(n); i >= 0; i-- {
		siftDown(h, i, n)
	}
}