# Query for ancestor-descendant relationship in a tree

• Difficulty Level : Medium
• Last Updated : 01 Jul, 2021

Given a rooted tree with N vertices and N-1 edges. We will be given many pairs of vertices u and v, we need to tell whether u is an ancestor of v or not. Given tree will be rooted at the vertex with index 0.

Examples:

```u = 1    v = 6
we can see from above tree that node
1 is ancestor of node 6 so the answer
will be yes.

u = 1    v = 7
we can see from above tree that node 1
is not an ancestor of node 7 so the

We can solve this problem using depth first search of the tree. While doing dfs we can observe a relation between the order in which we visit a node and its ancestors. If we assign in-time and out-time to each node when entering and leaving that node in dfs then we can see that for each pair of ancestor-descendant the in-time of ancestor is less than that of descendant and out-time of ancestor is more than that of descendant, so using this relation we can find the result for each pair of node in O(1) time.

So time complexity for preprocessing will be O(N) and for the query it will be O(1).

## C++

 `// C++ program to query whether two node has` `// ancestor-descendant relationship or not` `#include ` `using` `namespace` `std;`   `// Utility dfs method to assign in and out time` `// to each node` `void` `dfs(vector<``int``> g[], ``int` `u, ``int` `parent,` `         ``int` `timeIn[], ``int` `timeOut[], ``int``& cnt)` `{` `    ``// assign In-time to node u` `    ``timeIn[u] = cnt++;`   `    ``// call dfs over all neighbors except parent` `    ``for` `(``int` `i = 0; i < g[u].size(); i++) {` `        ``int` `v = g[u][i];` `        ``if` `(v != parent)` `            ``dfs(g, v, u, timeIn, timeOut, cnt);` `    ``}`   `    ``// assign Out-time to node u` `    ``timeOut[u] = cnt++;` `}`   `// method to preprocess all nodes for assigning time` `void` `preProcess(``int` `edges[][2], ``int` `V, ``int` `timeIn[],` `                ``int` `timeOut[])` `{` `    ``vector<``int``> g[V];`   `    ``// construct array of vector data structure` `    ``// for tree` `    ``for` `(``int` `i = 0; i < V - 1; i++) {` `        ``int` `u = edges[i][0];` `        ``int` `v = edges[i][1];`   `        ``g[u].push_back(v);` `        ``g[v].push_back(u);` `    ``}`   `    ``int` `cnt = 0;`   `    ``// call dfs method from root` `    ``dfs(g, 0, -1, timeIn, timeOut, cnt);` `}`   `// method returns "yes" if u is a ancestor` `// node of v` `string isAncestor(``int` `u, ``int` `v, ``int` `timeIn[],` `                  ``int` `timeOut[])` `{` `    ``bool` `b = (timeIn[u] <= timeIn[v] && ` `             ``timeOut[v] <= timeOut[u]);` `    ``return` `(b ? ``"yes"` `: ``"no"``);` `}`   `// Driver code to test abovea methods` `int` `main()` `{` `    ``int` `edges[][2] = {` `        ``{ 0, 1 },` `        ``{ 0, 2 },` `        ``{ 1, 3 },` `        ``{ 1, 4 },` `        ``{ 2, 5 },` `        ``{ 4, 6 },` `        ``{ 5, 7 }` `    ``};`   `    ``int` `E = ``sizeof``(edges) / ``sizeof``(edges[0]);` `    ``int` `V = E + 1;`   `    ``int` `timeIn[V], timeOut[V];` `    ``preProcess(edges, V, timeIn, timeOut);`   `    ``int` `u = 1;` `    ``int` `v = 6;` `    ``cout << isAncestor(u, v, timeIn, timeOut) << endl;`   `    ``u = 1;` `    ``v = 7;` `    ``cout << isAncestor(u, v, timeIn, timeOut) << endl;`   `    ``return` `0;` `}`

## Java

 `// Java program to query whether two node has` `// ancestor-descendant relationship or not` `import` `java.util.Vector;`   `class` `GFG` `{` `  ``static` `int` `cnt;`   `  ``// Utility dfs method to assign in and out time` `  ``// to each node` `  ``static` `void` `dfs(Vector []g, ``int` `u, ``int` `parent,` `                  ``int` `[]timeIn, ``int` `[]timeOut)` `  ``{`   `    ``// Assign In-time to node u` `    ``timeIn[u] = cnt++;`   `    ``// Call dfs over all neighbors except parent` `    ``for``(``int` `i = ``0``; i < g[u].size(); i++) ` `    ``{` `      ``int` `v = g[u].get(i);        ` `      ``if` `(v != parent)` `        ``dfs(g, v, u, timeIn, timeOut);` `    ``}`   `    ``// Assign Out-time to node u` `    ``timeOut[u] = cnt++;` `  ``}`   `  ``// Method to preprocess all nodes for assigning time` `  ``static` `void` `preProcess(``int` `[][]edges, ``int` `V,` `                         ``int` `[]timeIn, ``int` `[]timeOut)` `  ``{` `    ``@SuppressWarnings``(``"unchecked"``)` `    ``Vector []g = ``new` `Vector[V];` `    ``for` `(``int` `i = ``0``; i < g.length; i++)` `      ``g[i] = ``new` `Vector();`   `    ``// Conarray of vector data structure` `    ``// for tree` `    ``for``(``int` `i = ``0``; i < V - ``1``; i++)` `    ``{` `      ``int` `u = edges[i][``0``];` `      ``int` `v = edges[i][``1``];` `      ``g[u].add(v);` `      ``g[v].add(u);` `    ``} ` `    ``cnt = ``0``;`   `    ``// Call dfs method from root` `    ``dfs(g, ``0``, -``1``, timeIn, timeOut);` `  ``}`   `  ``// Method returns "yes" if u is a ancestor` `  ``// node of v` `  ``static` `String isAncestor(``int` `u, ``int` `v, ``int` `[]timeIn,` `                           ``int` `[]timeOut)` `  ``{` `    ``boolean` `b = (timeIn[u] <= timeIn[v] && ` `                 ``timeOut[v] <= timeOut[u]);` `    ``return` `(b ? ``"yes"` `: ``"no"``);` `  ``}`   `  ``// Driver code    ` `  ``public` `static` `void` `main(String[] args)` `  ``{` `    ``int` `edges[][] = { { ``0``, ``1` `},` `                     ``{ ``0``, ``2` `},` `                     ``{ ``1``, ``3` `},` `                     ``{ ``1``, ``4` `},` `                     ``{ ``2``, ``5` `},` `                     ``{ ``4``, ``6` `},` `                     ``{ ``5``, ``7` `} };    ` `    ``int` `E = edges.length;` `    ``int` `V = E + ``1``;   ` `    ``int` `[]timeIn = ``new` `int``[V];` `    ``int` `[]timeOut = ``new` `int``[V];   ` `    ``preProcess(edges, V, timeIn, timeOut);    ` `    ``int` `u = ``1``;` `    ``int` `v = ``6``;` `    ``System.out.println(isAncestor(u, v, timeIn, ` `                                  ``timeOut));    ` `    ``u = ``1``;` `    ``v = ``7``;` `    ``System.out.println(isAncestor(u, v, timeIn,` `                                  ``timeOut));` `  ``}` `}`   `// This code is contributed by gauravrajput1`

## Python3

 `# Python program to query whether two node has` `# ancestor-descendant relationship or not`   `cnt ``=` `0`   `# Utility dfs method to assign in and out time` `# to each node` `def` `dfs(g: ``list``, u: ``int``, parent: ``int``, timeIn: ``list``, timeOut: ``list``):` `    ``global` `cnt`   `    ``# assign In-time to node u` `    ``timeIn[u] ``=` `cnt` `    ``cnt ``+``=` `1`   `    ``# call dfs over all neighbors except parent` `    ``for` `i ``in` `range``(``len``(g[u])):` `        ``v ``=` `g[u][i]` `        ``if` `v !``=` `parent:` `            ``dfs(g, v, u, timeIn, timeOut)`   `    ``# assign Out-time to node u` `    ``timeOut[u] ``=` `cnt` `    ``cnt ``+``=` `1`   `# method to preprocess all nodes for assigning time` `def` `preProcess(edges: ``list``, V: ``int``, timeIn: ``list``, timeOut: ``list``):` `    ``global` `cnt` `    ``g ``=` `[[] ``for` `i ``in` `range``(V)]`   `    ``# construct array of vector data structure` `    ``# for tree` `    ``for` `i ``in` `range``(V ``-` `1``):` `        ``u ``=` `edges[i][``0``]` `        ``v ``=` `edges[i][``1``]`   `        ``g[u].append(v)` `        ``g[v].append(u)`   `    ``cnt ``=` `0`   `    ``# call dfs method from root` `    ``dfs(g, ``0``, ``-``1``, timeIn, timeOut)`   `# method returns "yes" if u is a ancestor` `# node of v` `def` `isAncestor(u: ``int``, v: ``int``, timeIn: ``list``, timeOut: ``list``) ``-``> ``str``:` `    ``b ``=` `timeIn[u] <``=` `timeIn[u] ``and` `timeOut[v] <``=` `timeOut[u]` `    ``return` `"yes"` `if` `b ``else` `"no"`   `# Driver Code` `if` `__name__ ``=``=` `"__main__"``:` `    ``edges ``=` `[(``0``, ``1``), (``0``, ``2``), (``1``, ``3``), (``1``, ``4``), (``2``, ``5``), (``4``, ``6``), (``5``, ``7``)]` `    ``E ``=` `len``(edges)` `    ``V ``=` `E ``+` `1`   `    ``timeIn ``=` `[``0``] ``*` `V` `    ``timeOut ``=` `[``0``] ``*` `V` `    ``preProcess(edges, V, timeIn, timeOut)`   `    ``u ``=` `1` `    ``v ``=` `6` `    ``print``(isAncestor(u, v, timeIn, timeOut))`   `    ``u ``=` `1` `    ``v ``=` `7` `    ``print``(isAncestor(u, v, timeIn, timeOut))`   `# This code is contributed by` `# sanjeev2552`

## C#

 `// C# program to query whether two node has` `// ancestor-descendant relationship or not` `using` `System;` `using` `System.Collections;`   `class` `GFG{`   `// Utility dfs method to assign in and out time` `// to each node` `static` `void` `dfs(ArrayList []g, ``int` `u, ``int` `parent,` `                ``int` `[]timeIn, ``int` `[]timeOut,` `                ``ref` `int` `cnt)` `{` `    `  `    ``// Assign In-time to node u` `    ``timeIn[u] = cnt++;` ` `  `    ``// Call dfs over all neighbors except parent` `    ``for``(``int` `i = 0; i < g[u].Count; i++) ` `    ``{` `        ``int` `v = (``int``)g[u][i];` `        `  `        ``if` `(v != parent)` `            ``dfs(g, v, u, timeIn, timeOut, ``ref` `cnt);` `    ``}` ` `  `    ``// Assign Out-time to node u` `    ``timeOut[u] = cnt++;` `}` ` `  `// Method to preprocess all nodes for assigning time` `static` `void` `preProcess(``int` `[,]edges, ``int` `V,` `                       ``int` `[]timeIn, ``int` `[]timeOut)` `{` `    ``ArrayList []g = ``new` `ArrayList[V];` `    `  `    ``for``(``int` `i = 0; i < V; i++)` `    ``{` `        ``g[i] = ``new` `ArrayList();` `    ``}` ` `  `    ``// Construct array of vector data structure` `    ``// for tree` `    ``for``(``int` `i = 0; i < V - 1; i++)` `    ``{` `        ``int` `u = edges[i, 0];` `        ``int` `v = edges[i, 1];` ` `  `        ``g[u].Add(v);` `        ``g[v].Add(u);` `    ``}` ` `  `    ``int` `cnt = 0;` ` `  `    ``// Call dfs method from root` `    ``dfs(g, 0, -1, timeIn, timeOut, ``ref` `cnt);` `}` ` `  `// Method returns "yes" if u is a ancestor` `// node of v` `static` `string` `isAncestor(``int` `u, ``int` `v, ``int` `[]timeIn,` `                                       ``int` `[]timeOut)` `{` `    ``bool` `b = (timeIn[u] <= timeIn[v] && ` `             ``timeOut[v] <= timeOut[u]);` `    ``return` `(b ? ``"yes"` `: ``"no"``);` `}` `    `  `// Driver code    ` `static` `void` `Main()` `{` `    ``int` `[,]edges = { { 0, 1 },` `                     ``{ 0, 2 },` `                     ``{ 1, 3 },` `                     ``{ 1, 4 },` `                     ``{ 2, 5 },` `                     ``{ 4, 6 },` `                     ``{ 5, 7 } };` `    `  `    ``int` `E = edges.GetLength(0);` `    ``int` `V = E + 1;` `    `  `    ``int` `[]timeIn = ``new` `int``[V];` `    ``int` `[]timeOut = ``new` `int``[V];` `    `  `    ``preProcess(edges, V, timeIn, timeOut);` `    `  `    ``int` `u = 1;` `    ``int` `v = 6;` `    ``Console.Write(isAncestor(u, v, timeIn, ` `                             ``timeOut) + ``"\n"``);` `    `  `    ``u = 1;` `    ``v = 7;` `    ``Console.Write(isAncestor(u, v, timeIn,` `                             ``timeOut) + ``"\n"``);` `}` `}`   `// This code is contributed by rutvik_56`

## Javascript

 ``

Output:

```yes
no```

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