# Segment Tree | Sum of given range

• Difficulty Level : Hard
• Last Updated : 13 Dec, 2022

Let us consider the following problem to understand Segment Trees.
We have an array arr[0 . . . n-1]. We should be able to

• Find the sum of elements from index l to r where 0 <= l <= r <= n-1
• Change the value of a specified element of the array to a new value x. We need to do arr[i] = x where 0 <= i <= n-1.
Recommended Practice

## Sum of range using Nested Loop :

A simple solution is to run a loop from l to r and calculate the sum of elements in the given range. To update a value, simply do arr[i] = x. The first operation takes O(n) time and the second operation takes O(1) time.

## Sum of range using Prefix Sum :

Another solution is to create another array and store the sum from start to i ,at the ith index in this array. The sum of a given range can now be calculated in O(1) time, but update operation takes O(n) time now. This works well if the number of query operations is large and very few updates.

## Sum of range using Segment Tree :

The most efficient way is to use a segment tree, we can use a Segment Tree to do both operations in O(log(N)) time.

### Representation of Segment trees

• Leaf Nodes are the elements of the input array.
• Each internal node represents some merging of the leaf nodes. The merging may be different for different problems. For this problem, merging is sum of leaf nodes under a node.
• An array representation of tree is used to represent Segment Trees. For each node at index i, the left child is at index (2*i+1), right child at (2*i+2) and the parent is at  (âŒŠ(i – 1) / 2âŒ‹).

### Construction of Segment Tree from the given array:

We start with a segment arr[0 . . . n-1]. and every time we divide the current segment into two (if it has not yet become a segment of length 1), and then call the same procedure on both halves, and for each such segment, we store the sum in the corresponding node.
All levels of the constructed segment tree will be completely filled except the last level. Also, the tree will be a Full Binary Tree because we always divide segment in two, at every level. Since the constructed tree is always a full binary tree with n leaves, there will be n-1 internal nodes. So the total number of nodes will be 2*n – 1.

#### What is the height of the segment tree for a given array:

Height of the segment tree will be âŒˆlogâ‚‚NâŒ‰. Since the tree is represented using array and relation between parent and child indexes must be maintained, size of memory allocated for segment tree will be (2 * 2âŒˆlog2nâŒ‰  – 1).

### Query for Sum of a given range

Once the tree is constructed, how to get the sum using the constructed segment tree. The following is the algorithm to get the sum of elements.

```int getSum(node, l, r)
{
if the range of the node is within l and r
return value in the node
else if the range of the node is completely outside l and r
return 0
else
return getSum(node's left child, l, r) +
getSum(node's right child, l, r)
}```

In the above implementation, there are three cases we need to take into consideration

• If the range of the current node while traversing the tree is not in the given range then did not add the value of that node in ans
• If the range of node is partially overlapped with the given range then move either left or right according to the overlapping
• If the range is completely overlapped by the given range then add it to the ans

### Update a value:

Like tree construction and query operations, the update can also be done recursively. We are given an index which needs to be updated. Let diff be the value to be added. We start from the root of the segment tree and add diff to all nodes which have given index in their range. If a node doesn’t have a given index in its range, we don’t make any changes to that node.

Below is the implementation of the above approach:

## C++

 `// 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 (query 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 = "``<

## C

 `// C program to show segment tree operations like construction, query``// and update``#include ``#include ` `// 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 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)``    ``{``        ``printf``(``"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 (query 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)``    ``{``        ``printf``(``"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``    ``printf``(``"Sum of values in given range = %dn"``,``            ``getSum(st, n, 1, 3));` `    ``// Update: set arr[1] = 10 and update corresponding``    ``// segment tree nodes``    ``updateValue(arr, st, n, 1, 10);` `    ``// Find sum after the value is updated``    ``printf``(``"Updated sum of values in given range = %dn"``,``             ``getSum(st, n, 1, 3));``    ``return` `0;``}`

## Java

 `// Java Program to show segment tree operations like construction,``// query and update``import` `java.io.*;``public` `class` `SegmentTree``{``    ``int` `st[]; ``// The array that stores segment tree nodes` `    ``/* Constructor to construct segment tree from given array. This``       ``constructor  allocates memory for segment tree and calls``       ``constructSTUtil() to  fill the allocated memory */``    ``SegmentTree(``int` `arr[], ``int` `n)``    ``{``        ``// Allocate memory for segment tree``        ``//Height of segment tree``        ``int` `x = (``int``) (Math.ceil(Math.log(n) / Math.log(``2``)));` `        ``//Maximum size of segment tree``        ``int` `max_size = ``2` `* (``int``) Math.pow(``2``, x) - ``1``;` `        ``st = ``new` `int``[max_size]; ``// Memory allocation` `        ``constructSTUtil(arr, ``0``, n - ``1``, ``0``);``    ``}` `    ``// 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 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` `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(ss, mid, qs, qe, ``2` `* si + ``1``) +``                ``getSumUtil(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``                 ``input array.``       ``diff --> Value to be added to all nodes which have i in range */``    ``void` `updateValueUtil(``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(ss, mid, i, diff, ``2` `* si + ``1``);``            ``updateValueUtil(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` `n, ``int` `i, ``int` `new_val)``    ``{``        ``// Check for erroneous input index``        ``if` `(i < ``0` `|| i > n - ``1``) {``            ``System.out.println(``"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(``0``, n - ``1``, i, diff, ``0``);``    ``}` `    ``// Return sum of elements in range from index qs (query start) to``   ``// qe (query end).  It mainly uses getSumUtil()``    ``int` `getSum(``int` `n, ``int` `qs, ``int` `qe)``    ``{``        ``// Check for erroneous input values``        ``if` `(qs < ``0` `|| qe > n - ``1` `|| qs > qe) {``            ``System.out.println(``"Invalid Input"``);``            ``return` `-``1``;``        ``}``        ``return` `getSumUtil(``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` `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, si * ``2` `+ ``1``) +``                 ``constructSTUtil(arr, mid + ``1``, se, si * ``2` `+ ``2``);``        ``return` `st[si];``    ``}` `    ``// Driver program to test above functions``    ``public` `static` `void` `main(String args[])``    ``{``        ``int` `arr[] = {``1``, ``3``, ``5``, ``7``, ``9``, ``11``};``        ``int` `n = arr.length;``        ``SegmentTree  tree = ``new` `SegmentTree(arr, n);` `        ``// Build segment tree from given array` `        ``// Print sum of values in array from index 1 to 3``        ``System.out.println(``"Sum of values in given range = "` `+``                           ``tree.getSum(n, ``1``, ``3``));` `        ``// Update: set arr[1] = 10 and update corresponding segment``        ``// tree nodes``        ``tree.updateValue(arr, n, ``1``, ``10``);` `        ``// Find sum after the value is updated``        ``System.out.println(``"Updated sum of values in given range = "` `+``                ``tree.getSum(n, ``1``, ``3``));``    ``}``}``//This code is contributed by Ankur Narain Verma`

## Python3

 `# Python3 program to show segment tree operations like``# construction, query and update``from` `math ``import` `ceil, log2;` `# A utility function to get the``# middle index from corner indexes.``def` `getMid(s, 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 """``def` `getSumUtil(st, ss, se, qs, qe, si) :` `    ``# If segment of this node is a part of given range,``    ``# then return the sum of the segment``    ``if` `(qs <``=` `ss ``and` `qe >``=` `se) :``        ``return` `st[si];` `    ``# If segment of this node is``    ``# outside the given range``    ``if` `(se < qs ``or` `ss > qe) :``        ``return` `0``;` `    ``# If a part of this segment overlaps``    ``# with the given range``    ``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 """``def` `updateValueUtil(st, ss, se, i, diff, si) :` `    ``# Base Case: If the input index lies``    ``# outside the range of this segment``    ``if` `(i < ss ``or` `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) :``    ` `        ``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``def` `updateValue(arr, st, n, i, new_val) :` `    ``# Check for erroneous input index``    ``if` `(i < ``0` `or` `i > n ``-` `1``) :``        ` `        ``print``(``"Invalid Input"``, end ``=` `"");``        ``return``;` `    ``# Get the difference between``    ``# new value and old value``    ``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 (query start) to qe (query end).``# It mainly uses getSumUtil()``def` `getSum(st, n, qs, qe) :` `    ``# Check for erroneous input values``    ``if` `(qs < ``0` `or` `qe > n ``-` `1` `or` `qs > qe) :` `        ``print``(``"Invalid Input"``, end ``=` `"");``        ``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``def` `constructSTUtil(arr, ss, se, st, 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``    ``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 """``def` `constructST(arr, n) :` `    ``# Allocate memory for the segment tree` `    ``# Height of segment tree``    ``x ``=` `(``int``)(ceil(log2(n)));` `    ``# Maximum size of segment tree``    ``max_size ``=` `2` `*` `(``int``)(``2``*``*``x) ``-` `1``;``    ` `    ``# Allocate memory``    ``st ``=` `[``0``] ``*` `max_size;` `    ``# Fill the allocated memory st``    ``constructSTUtil(arr, ``0``, n ``-` `1``, st, ``0``);` `    ``# Return the constructed segment tree``    ``return` `st;` `# Driver Code``if` `__name__ ``=``=` `"__main__"` `:` `    ``arr ``=` `[``1``, ``3``, ``5``, ``7``, ``9``, ``11``];``    ``n ``=` `len``(arr);` `    ``# Build segment tree from given array``    ``st ``=` `constructST(arr, n);` `    ``# Print sum of values in array from index 1 to 3``    ``print``(``"Sum of values in given range = "``,``                       ``getSum(st, n, ``1``, ``3``));` `    ``# Update: set arr[1] = 10 and update``    ``# corresponding segment tree nodes``    ``updateValue(arr, st, n, ``1``, ``10``);` `    ``# Find sum after the value is updated``    ``print``(``"Updated sum of values in given range = "``,``                     ``getSum(st, n, ``1``, ``3``), end ``=` `"");``    ` `# This code is contributed by AnkitRai01`

## C#

 `// C# Program to show segment tree``// operations like construction,``// query and update``using` `System;` `class` `SegmentTree``{``    ``int` `[]st; ``// The array that stores segment tree nodes` `    ``/* Constructor to construct segment``    ``tree from given array. This constructor``    ``allocates memory for segment tree and calls``    ``constructSTUtil() to fill the allocated memory */``    ``SegmentTree(``int` `[]arr, ``int` `n)``    ``{``        ``// Allocate memory for segment tree``        ``//Height of segment tree``        ``int` `x = (``int``) (Math.Ceiling(Math.Log(n) / Math.Log(2)));` `        ``//Maximum size of segment tree``        ``int` `max_size = 2 * (``int``) Math.Pow(2, x) - 1;` `        ``st = ``new` `int``[max_size]; ``// Memory allocation` `        ``constructSTUtil(arr, 0, n - 1, 0);``    ``}` `    ``// 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 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` `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(ss, mid, qs, qe, 2 * si + 1) +``                ``getSumUtil(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 input array. diff --> Value``    ``to be added to all nodes which have i in range */``    ``void` `updateValueUtil(``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(ss, mid, i, diff, 2 * si + 1);``            ``updateValueUtil(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` `n, ``int` `i, ``int` `new_val)``    ``{``        ``// Check for erroneous input index``        ``if` `(i < 0 || i > n - 1)``        ``{``            ``Console.WriteLine(``"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(0, n - 1, i, diff, 0);``    ``}` `    ``// Return sum of elements in range``    ``// from index qs (query start) to``    ``// qe (query end). It mainly uses getSumUtil()``    ``int` `getSum(``int` `n, ``int` `qs, ``int` `qe)``    ``{``        ``// Check for erroneous input values``        ``if` `(qs < 0 || qe > n - 1 || qs > qe)``        ``{``            ``Console.WriteLine(``"Invalid Input"``);``            ``return` `-1;``        ``}``        ``return` `getSumUtil(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` `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, si * 2 + 1) +``                ``constructSTUtil(arr, mid + 1, se, si * 2 + 2);``        ``return` `st[si];``    ``}` `    ``// Driver code``    ``public` `static` `void` `Main()``    ``{``        ``int` `[]arr = {1, 3, 5, 7, 9, 11};``        ``int` `n = arr.Length;``        ``SegmentTree tree = ``new` `SegmentTree(arr, n);` `        ``// Build segment tree from given array` `        ``// Print sum of values in array from index 1 to 3``        ``Console.WriteLine(``"Sum of values in given range = "` `+``                                        ``tree.getSum(n, 1, 3));` `        ``// Update: set arr[1] = 10 and update``        ``// corresponding segment tree nodes``        ``tree.updateValue(arr, n, 1, 10);` `        ``// Find sum after the value is updated``        ``Console.WriteLine(``"Updated sum of values in given range = "` `+``                ``tree.getSum(n, 1, 3));``    ``}``}` `/* This code contributed by PrinciRaj1992 */`

## Javascript

 ``

Output

```Sum of values in given range = 15
Updated sum of values in given range = 22```

Time complexity: O(N*log(N))
Auxiliary Space: O(N)

Segment Tree | Set 2 (Range Minimum Query)

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