添加 problem 715

Algorithms/0715. Range Module/715. Range Module.go

@@ -0,0 +1,203 @@
+package leetcode
+
+// RangeModule define
+type RangeModule struct {
+	Root *SegmentTreeNode
+}
+
+// SegmentTreeNode define
+type SegmentTreeNode struct {
+	Start, End  int
+	Tracked     bool
+	Lazy        int
+	Left, Right *SegmentTreeNode
+}
+
+// Constructor715 define
+func Constructor715() RangeModule {
+	return RangeModule{&SegmentTreeNode{0, 1e9, false, 0, nil, nil}}
+}
+
+// AddRange define
+func (rm *RangeModule) AddRange(left int, right int) {
+	update(rm.Root, left, right-1, true)
+}
+
+// QueryRange define
+func (rm *RangeModule) QueryRange(left int, right int) bool {
+	return query(rm.Root, left, right-1)
+}
+
+// RemoveRange define
+func (rm *RangeModule) RemoveRange(left int, right int) {
+	update(rm.Root, left, right-1, false)
+}
+
+func lazyUpdate(node *SegmentTreeNode) {
+	if node.Lazy != 0 {
+		node.Tracked = node.Lazy == 2
+	}
+	if node.Start != node.End {
+		if node.Left == nil || node.Right == nil {
+			m := node.Start + (node.End-node.Start)/2
+			node.Left = &SegmentTreeNode{node.Start, m, node.Tracked, 0, nil, nil}
+			node.Right = &SegmentTreeNode{m + 1, node.End, node.Tracked, 0, nil, nil}
+		} else if node.Lazy != 0 {
+			node.Left.Lazy = node.Lazy
+			node.Right.Lazy = node.Lazy
+		}
+	}
+	node.Lazy = 0
+}
+
+func update(node *SegmentTreeNode, start, end int, track bool) {
+	lazyUpdate(node)
+	if start > end || node == nil || end < node.Start || node.End < start {
+		return
+	}
+	if start <= node.Start && node.End <= end {
+		// segment completely covered by the update range
+		node.Tracked = track
+		if node.Start != node.End {
+			if track {
+				node.Left.Lazy = 2
+				node.Right.Lazy = 2
+			} else {
+				node.Left.Lazy = 1
+				node.Right.Lazy = 1
+			}
+		}
+		return
+	}
+	update(node.Left, start, end, track)
+	update(node.Right, start, end, track)
+	node.Tracked = node.Left.Tracked && node.Right.Tracked
+}
+
+func query(node *SegmentTreeNode, start, end int) bool {
+	lazyUpdate(node)
+	if start > end || node == nil || end < node.Start || node.End < start {
+		return true
+	}
+	if start <= node.Start && node.End <= end {
+		// segment completely covered by the update range
+		return node.Tracked
+	}
+	return query(node.Left, start, end) && query(node.Right, start, end)
+}
+
+// 解法二 BST
+// type RangeModule struct {
+// 	Root *BSTNode
+// }
+
+// type BSTNode struct {
+// 	Interval    []int
+// 	Left, Right *BSTNode
+// }
+
+// func Constructor715() RangeModule {
+// 	return RangeModule{}
+// }
+
+// func (this *RangeModule) AddRange(left int, right int) {
+// 	interval := []int{left, right - 1}
+// 	this.Root = insert(this.Root, interval)
+// }
+
+// func (this *RangeModule) RemoveRange(left int, right int) {
+// 	interval := []int{left, right - 1}
+// 	this.Root = delete(this.Root, interval)
+// }
+
+// func (this *RangeModule) QueryRange(left int, right int) bool {
+// 	return query(this.Root, []int{left, right - 1})
+// }
+
+// func (this *RangeModule) insert(root *BSTNode, interval []int) *BSTNode {
+// 	if root == nil {
+// 		return &BSTNode{interval, nil, nil}
+// 	}
+// 	if root.Interval[0] <= interval[0] && interval[1] <= root.Interval[1] {
+// 		return root
+// 	}
+// 	if interval[0] < root.Interval[0] {
+// 		root.Left = insert(root.Left, []int{interval[0], min(interval[1], root.Interval[0]-1)})
+// 	}
+// 	if root.Interval[1] < interval[1] {
+// 		root.Right = insert(root.Right, []int{max(interval[0], root.Interval[1]+1), interval[1]})
+// 	}
+// 	return root
+// }
+
+// func (this *RangeModule) delete(root *BSTNode, interval []int) *BSTNode {
+// 	if root == nil {
+// 		return nil
+// 	}
+// 	if interval[0] < root.Interval[0] {
+// 		root.Left = delete(root.Left, []int{interval[0], min(interval[1], root.Interval[0]-1)})
+// 	}
+// 	if root.Interval[1] < interval[1] {
+// 		root.Right = delete(root.Right, []int{max(interval[0], root.Interval[1]+1), interval[1]})
+// 	}
+// 	if interval[1] < root.Interval[0] || root.Interval[1] < interval[0] {
+// 		return root
+// 	}
+// 	if interval[0] <= root.Interval[0] && root.Interval[1] <= interval[1] {
+// 		if root.Left == nil {
+// 			return root.Right
+// 		} else if root.Right == nil {
+// 			return root.Left
+// 		} else {
+// 			pred := root.Left
+// 			for pred.Right != nil {
+// 				pred = pred.Right
+// 			}
+// 			root.Interval = pred.Interval
+// 			root.Left = delete(root.Left, pred.Interval)
+// 			return root
+// 		}
+// 	}
+// 	if root.Interval[0] < interval[0] && interval[1] < root.Interval[1] {
+// 		left := &BSTNode{[]int{root.Interval[0], interval[0] - 1}, root.Left, nil}
+// 		right := &BSTNode{[]int{interval[1] + 1, root.Interval[1]}, nil, root.Right}
+// 		left.Right = right
+// 		return left
+// 	}
+// 	if interval[0] <= root.Interval[0] {
+// 		root.Interval[0] = interval[1] + 1
+// 	}
+// 	if root.Interval[1] <= interval[1] {
+// 		root.Interval[1] = interval[0] - 1
+// 	}
+// 	return root
+// }
+
+// func (this *RangeModule) query(root *BSTNode, interval []int) bool {
+// 	if root == nil {
+// 		return false
+// 	}
+// 	if interval[1] < root.Interval[0] {
+// 		return query(root.Left, interval)
+// 	}
+// 	if root.Interval[1] < interval[0] {
+// 		return query(root.Right, interval)
+// 	}
+// 	left := true
+// 	if interval[0] < root.Interval[0] {
+// 		left = query(root.Left, []int{interval[0], root.Interval[0] - 1})
+// 	}
+// 	right := true
+// 	if root.Interval[1] < interval[1] {
+// 		right = query(root.Right, []int{root.Interval[1] + 1, interval[1]})
+// 	}
+// 	return left && right
+// }
+
+/**
+ * Your RangeModule object will be instantiated and called as such:
+ * obj := Constructor();
+ * obj.AddRange(left,right);
+ * param_2 := obj.QueryRange(left,right);
+ * obj.RemoveRange(left,right);
+ */

Algorithms/0715. Range Module/715. Range Module_test.go

@@ -0,0 +1,36 @@
+package leetcode
+
+import (
+	"fmt"
+	"testing"
+)
+
+func Test_Problem715(t *testing.T) {
+	obj := Constructor715()
+	obj.AddRange(10, 20)
+	obj.RemoveRange(14, 16)
+	fmt.Printf("query = %v\n", obj.QueryRange(10, 14))   // returns true
+	fmt.Printf("query = %v\n", obj.QueryRange(13, 15))   // returns false
+	fmt.Printf("query = %v\n\n", obj.QueryRange(16, 17)) // returns true
+
+	obj1 := Constructor715()
+	obj1.AddRange(10, 180)
+	obj1.AddRange(150, 200)
+	obj1.AddRange(250, 500)
+	fmt.Printf("query = %v\n", obj1.QueryRange(50, 100))   // returns true
+	fmt.Printf("query = %v\n", obj1.QueryRange(180, 300))  // returns false
+	fmt.Printf("query = %v\n", obj1.QueryRange(600, 1000)) // returns false
+	obj1.RemoveRange(50, 150)
+	fmt.Printf("query = %v\n\n", obj1.QueryRange(50, 100)) // returns false
+
+	obj2 := Constructor715()
+	obj2.AddRange(6, 8)
+	obj2.RemoveRange(7, 8)
+	obj2.RemoveRange(8, 9)
+	obj2.AddRange(8, 9)
+	obj2.RemoveRange(1, 3)
+	obj2.AddRange(1, 8)
+	fmt.Printf("query = %v\n", obj2.QueryRange(2, 4)) // returns true
+	fmt.Printf("query = %v\n", obj2.QueryRange(2, 9)) // returns true
+	fmt.Printf("query = %v\n", obj2.QueryRange(4, 6)) // returns true
+}

Algorithms/0715. Range Module/README.md

@@ -0,0 +1,60 @@
+# [715. Range Module](https://leetcode.com/problems/range-module/)
+
+
+## 题目:
+
+A Range Module is a module that tracks ranges of numbers. Your task is to design and implement the following interfaces in an efficient manner.
+
+- `addRange(int left, int right)` Adds the half-open interval `[left, right)`, tracking every real number in that interval. Adding an interval that partially overlaps with currently tracked numbers should add any numbers in the interval `[left, right)` that are not already tracked.
+- `queryRange(int left, int right)` Returns true if and only if every real number in the interval `[left, right)` is currently being tracked.
+- `removeRange(int left, int right)` Stops tracking every real number currently being tracked in the interval `[left, right)`.
+
+**Example 1:**
+
+    addRange(10, 20): null
+    removeRange(14, 16): null
+    queryRange(10, 14): true (Every number in [10, 14) is being tracked)
+    queryRange(13, 15): false (Numbers like 14, 14.03, 14.17 in [13, 15) are not being tracked)
+    queryRange(16, 17): true (The number 16 in [16, 17) is still being tracked, despite the remove operation)
+
+**Note:**
+
+- A half open interval `[left, right)` denotes all real numbers `left <= x < right`.
+- `0 < left < right < 10^9` in all calls to `addRange, queryRange, removeRange`.
+- The total number of calls to `addRange` in a single test case is at most `1000`.
+- The total number of calls to `queryRange` in a single test case is at most `5000`.
+- The total number of calls to `removeRange` in a single test case is at most `1000`.
+
+## 题目大意
+
+Range 模块是跟踪数字范围的模块。你的任务是以一种有效的方式设计和实现以下接口。
+
+- addRange(int left, int right) 添加半开区间 [left, right)，跟踪该区间中的每个实数。添加与当前跟踪的数字部分重叠的区间时，应当添加在区间 [left, right) 中尚未跟踪的任何数字到该区间中。
+- queryRange(int left, int right) 只有在当前正在跟踪区间 [left, right) 中的每一个实数时，才返回 true。
+- removeRange(int left, int right) 停止跟踪区间 [left, right) 中当前正在跟踪的每个实数。
+ 
+
+示例：
+
+```
+addRange(10, 20): null
+removeRange(14, 16): null
+queryRange(10, 14): true （区间 [10, 14) 中的每个数都正在被跟踪）
+queryRange(13, 15): false （未跟踪区间 [13, 15) 中像 14, 14.03, 14.17 这样的数字）
+queryRange(16, 17): true （尽管执行了删除操作，区间 [16, 17) 中的数字 16 仍然会被跟踪）
+```
+
+提示：
+
+- 半开区间 [left, right) 表示所有满足 left <= x < right 的实数。
+- 对 addRange, queryRange, removeRange 的所有调用中 0 < left < right < 10^9。
+- 在单个测试用例中，对 addRange 的调用总数不超过 1000 次。
+- 在单个测试用例中，对  queryRange 的调用总数不超过 5000 次。
+- 在单个测试用例中，对 removeRange 的调用总数不超过 1000 次。
+
+
+## 解题思路
+
+- 设计一个数据结构，能完成添加区间 `addRange`，查询区间 `queryRange`，移除区间 `removeRange` 三种操作。查询区间的操作需要更加高效一点。
+- 这一题可以用线段树来解答，但是时间复杂度不高，最优解是用二叉排序树 BST 来解答。先来看线段树。这一题是更新区间内的值，所以需要用到懒惰更新。添加区间可以把区间内的值都赋值为 1 。由于题目中未预先确定区间范围，选用树的形式实现线段树比数组实现更加节约空间(当然用数组也可以，区间最大是 1000，点至多有 2000 个)。移除区间的时候就是把区间内的值都赋值标记为 0 。
+- 类似的题目有：第 699 题，第 218 题，第 732 题。第 715 题是区间更新定值(**不是增减**)，第 218 题可以用扫描线，第 732 题和第 699 题类似，也是俄罗斯方块的题目，但是第 732 题的俄罗斯方块的方块会“断裂”。