有哪些做推送的网站,外国做动漫图片的网站叫什么名字,邢台太行中学官网,网站建设需求公司内部调查文章目录 1. container中定义的heap2. heap的使用示例3. 刷lc应用堆的示例 更多内容以及其他Go常用数据结构的实现在这里#xff0c;感谢Star#xff1a;https://github.com/acezsq/Data_Structure_Golang
1. container中定义的heap
在golang中的container/heap感谢Starhttps://github.com/acezsq/Data_Structure_Golang
1. container中定义的heap
在golang中的container/heap源码包中定义了堆的实现我们在使用时需要实现heap接口中定义的方法以此实现一个堆。在container/heap.go中的heap接口的定义如下
type Interface interface {sort.InterfacePush(x any) // add x as element Len()Pop() any // remove and return element Len() - 1.
}而sort包中的接口定义如下
type Interface interface {// Len is the number of elements in the collection.Len() int// Less reports whether the element with index i// must sort before the element with index j.//// If both Less(i, j) and Less(j, i) are false,// then the elements at index i and j are considered equal.// Sort may place equal elements in any order in the final result,// while Stable preserves the original input order of equal elements.//// Less must describe a transitive ordering:// - if both Less(i, j) and Less(j, k) are true, then Less(i, k) must be true as well.// - if both Less(i, j) and Less(j, k) are false, then Less(i, k) must be false as well.//// Note that floating-point comparison (the operator on float32 or float64 values)// is not a transitive ordering when not-a-number (NaN) values are involved.// See Float64Slice.Less for a correct implementation for floating-point values.Less(i, j int) bool// Swap swaps the elements with indexes i and j.Swap(i, j int)
}所以我们实现一个堆时需要实现这五个方法然后相当于实现了这个接口然后就可以调用container/heap.go中定义的Init方法、Push方法、Pop方法进行堆的基础入堆、出堆操作。在使用这三个方法时需要注意按照源码中定义的函数的入参和返回值的类型来使用。
// Init establishes the heap invariants required by the other routines in this package.
// Init is idempotent with respect to the heap invariants
// and may be called whenever the heap invariants may have been invalidated.
// The complexity is O(n) where n h.Len().
func Init(h Interface) {// heapifyn : h.Len()for i : n/2 - 1; i 0; i-- {down(h, i, n)}
}// Push pushes the element x onto the heap.
// The complexity is O(log n) where n h.Len().
func Push(h Interface, x any) {h.Push(x)up(h, h.Len()-1)
}// Pop removes and returns the minimum element (according to Less) from the heap.
// The complexity is O(log n) where n h.Len().
// Pop is equivalent to Remove(h, 0).
func Pop(h Interface) any {n : h.Len() - 1h.Swap(0, n)down(h, 0, n)return h.Pop()
}2. heap的使用示例
在golang的源码中也有堆的使用示例可以看到实现上我们用切片来作为heap的底层实现类型。下面的代码是定义一个小根堆的示例如果我们想定义一个存int类型数据的大根堆只需要把Less函数中的小于号换成大于号即可。
// Copyright 2012 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.// This example demonstrates an integer heap built using the heap interface.
package heap_testimport (container/heapfmt
)// An IntHeap is a min-heap of ints.
type IntHeap []intfunc (h IntHeap) Len() int { return len(h) }
func (h IntHeap) Less(i, j int) bool { return h[i] h[j] }
func (h IntHeap) Swap(i, j int) { h[i], h[j] h[j], h[i] }func (h *IntHeap) Push(x any) {// Push and Pop use pointer receivers because they modify the slices length,// not just its contents.*h append(*h, x.(int))
}func (h *IntHeap) Pop() any {old : *hn : len(old)x : old[n-1]*h old[0 : n-1]return x
}// This example inserts several ints into an IntHeap, checks the minimum,
// and removes them in order of priority.
func Example_intHeap() {h : IntHeap{2, 1, 5}heap.Init(h)heap.Push(h, 3)fmt.Printf(minimum: %d\n, (*h)[0])for h.Len() 0 {fmt.Printf(%d , heap.Pop(h))}// Output:// minimum: 1// 1 2 3 5
} 3. 刷lc应用堆的示例
我们看一下23. 合并 K 个升序链表这个题需要定义一个小根堆来存链表节点指针。
/*** Definition for singly-linked list.* type ListNode struct {* Val int* Next *ListNode* }*/
func mergeKLists(lists []*ListNode) *ListNode {h : minHeap{}for _, head : range lists {if head ! nil {h append(h, head) }} heap.Init(h) dummyhead : ListNode{}cur : dummyheadfor len(h)0 {node : heap.Pop(h).(*ListNode)if node.Next ! nil {heap.Push(h, node.Next)}cur.Next nodecur cur.Next}return dummyhead.Next
}type minHeap []*ListNode
func (h minHeap) Len() int {return len(h)}
func (h minHeap) Less(i,j int) bool {return h[i].Valh[j].Val}
func (h minHeap) Swap(i,j int) { h[i], h[j] h[j], h[i]}
func (h *minHeap) Push(x any) { *h append(*h, x.(*ListNode))}
func (h *minHeap) Pop() any { old:*h; n:len(old); x:old[n-1]; *hold[:n-1]; return x}
