Example 1: segment tree
// General Segment Tree struct
// Original source: https://codeforces.com/blog/entry/18051
template struct SegTree {
int size;
T defVal;
vector tree;
T (*op)(T, T);
SegTree (int size, T defVal, T (*op)(T, T))
: size(size), defVal(defVal), tree(vector(2*size)), op(op) {}
SegTree (vector v, T defVal, T (*op)(T, T))
: SegTree(v.size()/2, defVal, op) {
for (int i = 0; i0; --i) {
tree[i] = op(tree[i<<1], tree[i<<1|1]);
}
}
T query (int l, int r) {
l += size, r += size+1;
T res;
for (res = defVal; l>= 1, r >>= 1) {
if (l&1) res = op(res, tree[l++]);
if (r&1) res = op(res, tree[--r]);
}
return res;
}
void update (int i, T val) {
i += size;
for (tree[i] = val; i>1; i >>= 1) {
tree[i>>1] = op(tree[i], tree[i^1]);
}
}
};
Example 2: segmented trees
// C++ program to show segment tree operations like construction, query
// and update
#include
using namespace std;
// A utility function to get the middle index from corner indexes.
int getMid(int s, int e) { return s + (e -s)/2; }
/* A recursive function to get the sum of values in the given range
of the array. The following are parameters for this function.
st --> Pointer to segment tree
si --> Index of current node in the segment tree. Initially
0 is passed as root is always at index 0
ss & se --> Starting and ending indexes of the segment represented
by current node, i.e., st[si]
qs & qe --> Starting and ending indexes of query range */
int getSumUtil(int *st, int ss, int se, int qs, int qe, int si)
{
// If segment of this node is a part of given range, then return
// the sum of the segment
if (qs <= ss && qe >= se)
return st[si];
// If segment of this node is outside the given range
if (se < qs || ss > qe)
return 0;
// If a part of this segment overlaps with the given range
int mid = getMid(ss, se);
return getSumUtil(st, ss, mid, qs, qe, 2*si+1) +
getSumUtil(st, mid+1, se, qs, qe, 2*si+2);
}
/* A recursive function to update the nodes which have the given
index in their range. The following are parameters
st, si, ss and se are same as getSumUtil()
i --> index of the element to be updated. This index is
in the input array.
diff --> Value to be added to all nodes which have i in range */
void updateValueUtil(int *st, int ss, int se, int i, int diff, int si)
{
// Base Case: If the input index lies outside the range of
// this segment
if (i < ss || i > se)
return;
// If the input index is in range of this node, then update
// the value of the node and its children
st[si] = st[si] + diff;
if (se != ss)
{
int mid = getMid(ss, se);
updateValueUtil(st, ss, mid, i, diff, 2*si + 1);
updateValueUtil(st, mid+1, se, i, diff, 2*si + 2);
}
}
// The function to update a value in input array and segment tree.
// It uses updateValueUtil() to update the value in segment tree
void updateValue(int arr[], int *st, int n, int i, int new_val)
{
// Check for erroneous input index
if (i < 0 || i > n-1)
{
cout<<"Invalid Input";
return;
}
// Get the difference between new value and old value
int diff = new_val - arr[i];
// Update the value in array
arr[i] = new_val;
// Update the values of nodes in segment tree
updateValueUtil(st, 0, n-1, i, diff, 0);
}
// Return sum of elements in range from index qs (quey start)
// to qe (query end). It mainly uses getSumUtil()
int getSum(int *st, int n, int qs, int qe)
{
// Check for erroneous input values
if (qs < 0 || qe > n-1 || qs > qe)
{
cout<<"Invalid Input";
return -1;
}
return getSumUtil(st, 0, n-1, qs, qe, 0);
}
// A recursive function that constructs Segment Tree for array[ss..se].
// si is index of current node in segment tree st
int constructSTUtil(int arr[], int ss, int se, int *st, int si)
{
// If there is one element in array, store it in current node of
// segment tree and return
if (ss == se)
{
st[si] = arr[ss];
return arr[ss];
}
// If there are more than one elements, then recur for left and
// right subtrees and store the sum of values in this node
int mid = getMid(ss, se);
st[si] = constructSTUtil(arr, ss, mid, st, si*2+1) +
constructSTUtil(arr, mid+1, se, st, si*2+2);
return st[si];
}
/* Function to construct segment tree from given array. This function
allocates memory for segment tree and calls constructSTUtil() to
fill the allocated memory */
int *constructST(int arr[], int n)
{
// Allocate memory for the segment tree
//Height of segment tree
int x = (int)(ceil(log2(n)));
//Maximum size of segment tree
int max_size = 2*(int)pow(2, x) - 1;
// Allocate memory
int *st = new int[max_size];
// Fill the allocated memory st
constructSTUtil(arr, 0, n-1, st, 0);
// Return the constructed segment tree
return st;
}
// Driver program to test above functions
int main()
{
int arr[] = {1, 3, 5, 7, 9, 11};
int n = sizeof(arr)/sizeof(arr[0]);
// Build segment tree from given array
int *st = constructST(arr, n);
// Print sum of values in array from index 1 to 3
cout<<"Sum of values in given range = "<
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