Namespacing everything to /UVa.
[andmenj-acm.git] / Minimum range query using segment trees / SegmentTree.cpp
blob3182a8236eaf59023c337005dd548c65e9bef235
1 #include <vector>
2 using namespace std;
4 class SegmentTree{
5 public:
6 vector<int> arr, tree;
7 int n;
9 SegmentTree(){}
10 SegmentTree(const vector<int> &arr) : arr(arr) {
11 initialize();
14 //must be called after assigning a new arr.
15 void initialize(){
16 n = arr.size();
17 tree.resize(4*n + 1);
18 initialize(0, 0, n-1);
21 int query(int query_left, int query_right) const{
22 return query(0, 0, n-1, query_left, query_right);
25 void update(int where, int what){
26 update(0, 0, n-1, where, what);
29 private:
30 int initialize(int node, int node_left, int node_right);
31 int query(int node, int node_left, int node_right, int query_left, int query_right) const;
32 void update(int node, int node_left, int node_right, int where, int what);
35 int SegmentTree::initialize(int node, int node_left, int node_right){
36 if (node_left == node_right){
37 tree[node] = node_left;
38 return tree[node];
40 int half = (node_left + node_right) / 2;
41 int ans_left = initialize(2*node+1, node_left, half);
42 int ans_right = initialize(2*node+2, half+1, node_right);
44 if (arr[ans_left] <= arr[ans_right]){
45 tree[node] = ans_left;
46 }else{
47 tree[node] = ans_right;
49 return tree[node];
52 int SegmentTree::query(int node, int node_left, int node_right, int query_left, int query_right) const{
53 if (node_right < query_left || query_right < node_left) return -1;
54 if (query_left <= node_left && node_right <= query_right) return tree[node];
56 int half = (node_left + node_right) / 2;
57 int ans_left = query(2*node+1, node_left, half, query_left, query_right);
58 int ans_right = query(2*node+2, half+1, node_right, query_left, query_right);
60 if (ans_left == -1) return ans_right;
61 if (ans_right == -1) return ans_left;
63 return (arr[ans_left] <= arr[ans_right] ? ans_left : ans_right);
66 void SegmentTree::update(int node, int node_left, int node_right, int where, int what){
67 if (where < node_left || node_right < where) return;
68 if (node_left == where && where == node_right){
69 arr[where] = what;
70 tree[node] = where;
71 return;
73 int half = (node_left + node_right) / 2;
74 if (where <= half){
75 update(2*node+1, node_left, half, where, what);
76 }else{
77 update(2*node+2, half+1, node_right, where, what);
79 if (arr[tree[2*node+1]] <= arr[tree[2*node+2]]){
80 tree[node] = tree[2*node+1];
81 }else{
82 tree[node] = tree[2*node+2];