Dubina N-Ary stabla
S obzirom na n-arno stablo koji sadrži pozitivne vrijednosti čvora zadatak je pronaći dubina od stabla.
Bilješka: An n-arno stablo je stablo gdje svaki čvor može imati nula ili više dječji čvorovi. Za razliku od binarnog stabla koje ima najviše dva djeteta po čvoru (lijevo i desno) n-arno stablo dopušta više grana ili djeca za svaki čvor.
Primjeri:
Ulazni:
Izlaz: 3
Obrazloženje: Najduži put od korijena (čvor 81) do lista je ili 81 -> 26 -> 95 ili 81 -> 26 -> 86 što daje najveću dubinu od 3.Ulazni:
Izlaz: 2
Obrazloženje: Najduži put od korijena (čvor 4) do bilo kojeg lista (čvorovi 5 ili 7) je 2 jer zahtijeva samo dvije razine obilaženja.
Pristup:
Ideja je izračunati dubina N-arnog stabla rekurzivno inicijalizirati kao 0 zatim rekurzivno izračunajte dubina za svako dijete i pratiti najveća dubina naišao. Na kraju dodajte 1 do maksimalne dubine (za trenutni čvor) i vratite proizlaziti . Ovaj pristup osigurava da pronađemo najduži put od korijena do bilo kojeg lisnog čvora.
N-Ary stablo se može obilaziti baš kao i normalno stablo. Samo moramo uzeti u obzir sve potomke određenog čvora i rekurzivno pozvati tu funkciju na svakom čvoru.
C++ // C++ Code to find the depth of an N-ary tree #include using namespace std ; class Node { public : int data ; vector < Node *> children ; Node ( int val ) { data = val ; } }; // Recursive function to calculate maximum depth int maxDepth ( Node * root ) { // If the node is null depth is 0 if ( ! root ) { return 0 ; } int depth = 0 ; // Recur for all children and find the maximum depth for ( auto child : root -> children ) { depth = max ( depth maxDepth ( child )); } // Add 1 to include the current node // in the depth count return depth + 1 ; } int main () { // Representation of given N-ary tree // 1 // / | // 2 3 4 // / // 5 6 Node * root = new Node ( 1 ); root -> children . push_back ( new Node ( 2 )); root -> children . push_back ( new Node ( 3 )); root -> children . push_back ( new Node ( 4 )); root -> children [ 0 ] -> children . push_back ( new Node ( 5 )); root -> children [ 2 ] -> children . push_back ( new Node ( 6 )); cout < < maxDepth ( root ); return 0 ; }
Java // Java Code to find the depth of an N-ary tree import java.util.* ; class Node { int data ; List < Node > children ; Node ( int val ) { data = val ; children = new ArrayList <> (); } } // Recursive function to calculate // maximum depth class GfG { static int maxDepth ( Node root ) { // If the node is null depth is 0 if ( root == null ) { return 0 ; } int depth = 0 ; // Recur for all children and find // the maximum depth for ( Node child : root . children ) { depth = Math . max ( depth maxDepth ( child )); } // Add 1 to include the current node // in the depth count return depth + 1 ; } public static void main ( String [] args ) { // Representation of given N-ary tree // 1 // / | // 2 3 4 // / // 5 6 Node root = new Node ( 1 ); root . children . add ( new Node ( 2 )); root . children . add ( new Node ( 3 )); root . children . add ( new Node ( 4 )); root . children . get ( 0 ). children . add ( new Node ( 5 )); root . children . get ( 2 ). children . add ( new Node ( 6 )); System . out . println ( maxDepth ( root )); } }
Python # Python Code to find the depth # of an N-ary tree class Node : def __init__ ( self val ): self . data = val self . children = [] # Recursive function to calculate # maximum depth def max_depth ( root ): # If the node is None depth is 0 if not root : return 0 depth = 0 # Recur for all children and # find the maximum depth for child in root . children : depth = max ( depth max_depth ( child )) # Add 1 to include the current # node in the depth count return depth + 1 if __name__ == '__main__' : # Representation of given N-ary tree # 1 # / | # 2 3 4 # / # 5 6 root = Node ( 1 ) root . children . append ( Node ( 2 )) root . children . append ( Node ( 3 )) root . children . append ( Node ( 4 )) root . children [ 0 ] . children . append ( Node ( 5 )) root . children [ 2 ] . children . append ( Node ( 6 )) print ( max_depth ( root ))
C# // C# Code to find the depth of an N-ary tree using System ; using System.Collections.Generic ; class Node { public int data ; public List < Node > children ; public Node ( int val ) { data = val ; children = new List < Node > (); } } // Recursive function to calculate // maximum depth class GfG { static int MaxDepth ( Node root ) { // If the node is null depth is 0 if ( root == null ) { return 0 ; } int depth = 0 ; // Recur for all children and find the maximum depth foreach ( Node child in root . children ) { depth = Math . Max ( depth MaxDepth ( child )); } // Add 1 to include the current // node in the depth count return depth + 1 ; } static void Main ( string [] args ) { // Representation of given N-ary tree // 1 // / | // 2 3 4 // / // 5 6 Node root = new Node ( 1 ); root . children . Add ( new Node ( 2 )); root . children . Add ( new Node ( 3 )); root . children . Add ( new Node ( 4 )); root . children [ 0 ]. children . Add ( new Node ( 5 )); root . children [ 2 ]. children . Add ( new Node ( 6 )); Console . WriteLine ( MaxDepth ( root )); } }
JavaScript // JavaScript Code to find the depth // of an N-ary tree class Node { constructor ( val ) { this . data = val ; this . children = []; } } // Recursive function to calculate // maximum depth function maxDepth ( root ) { // If the node is null depth is 0 if ( ! root ) { return 0 ; } let depth = 0 ; // Recur for all children and find // the maximum depth for ( let child of root . children ) { depth = Math . max ( depth maxDepth ( child )); } // Add 1 to include the current node // in the depth count return depth + 1 ; } // Representation of given N-ary tree // 1 // / | // 2 3 4 // / // 5 6 const root = new Node ( 1 ); root . children . push ( new Node ( 2 )); root . children . push ( new Node ( 3 )); root . children . push ( new Node ( 4 )); root . children [ 0 ]. children . push ( new Node ( 5 )); root . children [ 2 ]. children . push ( new Node ( 6 )); console . log ( maxDepth ( root ));
Izlaz
3
Vremenska složenost: O(n) budući da se svaki čvor posjećuje jednom, gdje je n ukupan broj čvorova u N-arnom stablu.
Pomoćni prostor: O(h) gdje je h visina stabla zbog korištenja rekurzivnog stoga poziva.
