Davė masyvą arr [] dydžio n Užduotis yra atspausdinti visus masyvo pogrupius, kuriuose yra suma .
Pavyzdžiai:
Įvestis: arr = [6 3 -1 -3 4 -2 2 4 6 -12 -7]
Išvestis:Subakrajus, rastas iš 2 indekso iki 4
Subakrajus, rastas iš 2 indekso iki 6
Subakrajus, rastas iš 5 iki 6 rodyklės
Subakrajus, rastas iš 6 iki 9 rodyklės
Subakrajus, rastas iš rodyklės 0 iki 10Įvestis: arr = [1 2 -3 3 -1 -1]
Išvestis:Subakrajus, rastas iš rodyklės 0 iki 2
Subakrajus, rastas iš 2 indekso iki 3
Subakrajus, rastas iš 3 iki 5 rodyklės
[Naivus požiūris] generuodami visus įmanomus sublatai - o (n (n2) Laikas ir O (1) pagalbinė erdvė
C++Pats pagrindinis požiūris yra atsižvelgti Visi įmanomi subakratukai ir patikrinkite, ar jų suma yra lygi nuliui. Nors šis požiūris yra paprastas, tačiau neefektyvus ir dideliems masyvams.
// C++ program to print all subarrays // in the array which has sum 0 #include
// Java program to print all subarrays // in the array which has sum 0 import java.io.*; import java.util.*; // User defined pair class class Pair { int first second; Pair(int a int b) { first = a; second = b; } } public class GFG { static ArrayList<Pair> findSubArrays(int[] arr int n) { // Array to store all the start and end // indices of subarrays with 0 sum ArrayList<Pair> out = new ArrayList<>(); for (int i = 0; i < n; i++) { int prefix = 0; for (int j = i; j < n; j++) { prefix += arr[j]; if (prefix == 0) out.add(new Pair(i j)); } } return out; } // Function to print all subarrays with 0 sum static void print(ArrayList<Pair> out) { for (int i = 0; i < out.size(); i++) { Pair p = out.get(i); System.out.println('Subarray found from Index ' + p.first + ' to ' + p.second); } } // Driver code public static void main(String args[]) { // Given array int[] arr = { 6 3 -1 -3 4 -2 2 4 6 -12 -7 }; int n = arr.length; // Function Call ArrayList<Pair> out = findSubArrays(arr n); // if we didn’t find any subarray with 0 sum // then subarray doesn’t exists if (out.size() == 0) System.out.println('No subarray exists'); else print(out); } }
# User defined pair class class Pair: first = 0 second = 0 def __init__(self a b): self.first = a self.second = b class GFG: @staticmethod def findSubArrays(arr n): # Array to store all the start and end # indices of subarrays with 0 sum out = [] i = 0 while (i < n): prefix = 0 j = i while (j < n): prefix += arr[j] if (prefix == 0): out.append(Pair(i j)) j += 1 i += 1 return out # Function to print all subarrays with 0 sum @staticmethod def print(out): i = 0 while (i < len(out)): p = out[i] print('Subarray found from Index ' + str(p.first) + ' to ' + str(p.second)) i += 1 # Driver code @staticmethod def main(args): # Given array arr = [6 3 -1 -3 4 -2 2 4 6 -12 -7] n = len(arr) # Function Call out = GFG.findSubArrays(arr n) # if we didn't find any subarray with 0 sum # then subarray doesn't exists if (len(out) == 0): print('No subarray exists') else: GFG.print(out) if __name__ == '__main__': GFG.main([])
using System; using System.Collections.Generic; class GFG { // Array to store all the start and end // indices of subarrays with 0 sum static List<Tuple<int int>> findSubArrays(int[] arr int n) { var output = new List<Tuple<int int>>(); for (int i = 0; i < n; i++) { int prefix = 0; for (int j = i; j < n; j++) { prefix += arr[j]; if (prefix == 0) output.Add(Tuple.Create(i j)); } } return output; } // Function to print all subarrays with 0 sum static void print(List<Tuple<int int>> output) { foreach (var subArray in output) Console.Write('Subarray found from Index ' + subArray.Item1 + ' to ' + subArray.Item2+'n'); } // Driver code public static void Main() { // Given array int[] arr = { 6 3 -1 -3 4 -2 2 4 6 -12 -7 }; int n = arr.Length; // Function Call List<Tuple<int int>> output = findSubArrays(arr n); // if we didn’t find any subarray with 0 sum // then subarray doesn’t exists if (output.Count == 0) { Console.WriteLine('No subarray exists'); } else { print(output); } } }
// Javascript program to print all subarrays // in the array which has sum 0 function findSubArrays(arr n) { // Array to store all the start and end // indices of subarrays with 0 sum let out =[]; for (let i = 0; i < n; i++) { let prefix = 0; for (let j = i; j < n; j++) { prefix += arr[j]; if (prefix == 0) out.push([i j]); } } return out; } // Function to print all subarrays with 0 sum function print(out) { for (let it of out) console.log('Subarray found from Index ' + it[0] + ' to ' + it[1]); } // Driver code // Given array let arr = [ 6 3 -1 -3 4 -2 2 4 6 -12 -7 ]; let n = arr.length ; // Function Call let out = findSubArrays(arr n); // if we didn’t find any subarray with 0 sum // then subarray doesn’t exists if (out.length == 0) { console.log('No subarray exists'); } else { print(out); }
Išvestis
Subarray found from Index 0 to 10 Subarray found from Index 2 to 4 Subarray found from Index 2 to 6 Subarray found from Index 5 to 6 Subarray found from Index 6 to 9
Laiko sudėtingumas: O (n2) Kadangi mes naudojame 2 kilpas.
Pagalbinė erdvė: O (1) Kadangi reikalinga nuolatinė papildoma erdvė.
[Laukiamas požiūris] naudojant Maiša - o (n) laikas ir o (n) pagalbinė erdvė
C++Efektyvesnis būdas yra naudoti maišą kaupiamąją elementų ir jų indeksų sumą laikyti. Tai leidžia patikrinti, ar pastoviu laiku egzistuoja nulinė suma, kurios suma yra nulinė.
Žemiau yra išsamūs intuicijos veiksmai:
- Sukurkite maišos žemėlapį, kad išsaugotumėte kaupiamąją sumą ir atitinkamus indeksus.
- Inicijuokite kaupiamąją sumą iki nulio.
- Pereikite masyvą:
- Pridėkite dabartinį elementą prie kaupiamosios sumos.
- Jei kaupiamoji suma yra lygi nuliui, randamas subarracija nuo pradžios iki dabartinio rodyklės.
- Jei kaupiamosios sumos jau yra maišos žemėlapyje, tai reiškia, kad yra subarracija su nuline suma.
- Saugokite kaupiamąją sumą ir rodyklę maišos žemėlapyje.
// C++ program to print all subarrays // in the array which has sum 0 #include
// Java program to print all subarrays // in the array which has sum 0 import java.io.*; import java.util.*; // User defined pair class class Pair { int first second; Pair(int a int b) { first = a; second = b; } } public class GFG { // Function to print all subarrays in the array which // has sum 0 static ArrayList<Pair> findSubArrays(int[] arr int n) { // create an empty map HashMap<Integer ArrayList<Integer> > map = new HashMap<>(); // create an empty vector of pairs to store // subarray starting and ending index ArrayList<Pair> out = new ArrayList<>(); // Maintains sum of elements so far int sum = 0; for (int i = 0; i < n; i++) { // add current element to sum sum += arr[i]; // if sum is 0 we found a subarray starting // from index 0 and ending at index i if (sum == 0) out.add(new Pair(0 i)); ArrayList<Integer> al = new ArrayList<>(); // If sum already exists in the map there exists // at-least one subarray ending at index i with // 0 sum if (map.containsKey(sum)) { // map[sum] stores starting index of all // subarrays al = map.get(sum); for (int it = 0; it < al.size(); it++) { out.add(new Pair(al.get(it) + 1 i)); } } al.add(i); map.put(sum al); } return out; } // Utility function to print all subarrays with sum 0 static void print(ArrayList<Pair> out) { for (int i = 0; i < out.size(); i++) { Pair p = out.get(i); System.out.println('Subarray found from Index ' + p.first + ' to ' + p.second); } } // Driver code public static void main(String args[]) { int[] arr = { 6 3 -1 -3 4 -2 2 4 6 -12 -7 }; int n = arr.length; ArrayList<Pair> out = findSubArrays(arr n); // if we did not find any subarray with 0 sum // then subarray does not exists if (out.size() == 0) System.out.println('No subarray exists'); else print(out); } }
# Python3 program to print all subarrays # in the array which has sum 0 # Function to get all subarrays # in the array which has sum 0 def findSubArrays(arr n): # create a python dict hashMap = {} # create a python list # equivalent to ArrayList out = [] # tracker for sum of elements sum1 = 0 for i in range(n): # increment sum by element of array sum1 += arr[i] # if sum is 0 we found a subarray starting # from index 0 and ending at index i if sum1 == 0: out.append((0 i)) al = [] # If sum already exists in the map # there exists at-least one subarray # ending at index i with 0 sum if sum1 in hashMap: # map[sum] stores starting index # of all subarrays al = hashMap.get(sum1) for it in range(len(al)): out.append((al[it] + 1 i)) al.append(i) hashMap[sum1] = al return out # Utility function to print # all subarrays with sum 0 def printOutput(output): for i in output: print('Subarray found from Index ' + str(i[0]) + ' to ' + str(i[1])) # Driver Code if __name__ == '__main__': arr = [6 3 -1 -3 4 -2 2 4 6 -12 -7] n = len(arr) out = findSubArrays(arr n) # if we did not find any subarray with 0 sum # then subarray does not exists if (len(out) == 0): print('No subarray exists') else: printOutput(out)
// C# program to print all subarrays // in the array which has sum 0 using System; using System.Collections.Generic; // User defined pair class class Pair { public int first second; public Pair(int a int b) { first = a; second = b; } } class GFG { // Function to print all subarrays // in the array which has sum 0 static List<Pair> findSubArrays(int[] arr int n) { // create an empty map Dictionary<int List<int> > map = new Dictionary<int List<int> >(); // create an empty vector of pairs to store // subarray starting and ending index List<Pair> outt = new List<Pair>(); // Maintains sum of elements so far int sum = 0; for (int i = 0; i < n; i++) { // add current element to sum sum += arr[i]; // if sum is 0 we found a subarray starting // from index 0 and ending at index i if (sum == 0) outt.Add(new Pair(0 i)); List<int> al = new List<int>(); // If sum already exists in the map there exists // at-least one subarray ending at index i with // 0 sum if (map.ContainsKey(sum)) { // map[sum] stores starting index // of all subarrays al = map[sum]; for (int it = 0; it < al.Count; it++) { outt.Add(new Pair(al[it] + 1 i)); } } al.Add(i); if (map.ContainsKey(sum)) map[sum] = al; else map.Add(sum al); } return outt; } // Utility function to print all subarrays with sum 0 static void print(List<Pair> outt) { for (int i = 0; i < outt.Count; i++) { Pair p = outt[i]; Console.WriteLine('Subarray found from Index ' + p.first + ' to ' + p.second); } } // Driver code public static void Main(String[] args) { int[] arr = { 6 3 -1 -3 4 -2 2 4 6 -12 -7 }; int n = arr.Length; List<Pair> outt = findSubArrays(arr n); // if we did not find any subarray with 0 sum // then subarray does not exists if (outt.Count == 0) Console.WriteLine('No subarray exists'); else print(outt); } }
// JavaScript program to print all subarrays // in the array which has sum 0 // Function to print all subarrays in the array which // has sum 0 function findSubArrays(arr n) { // create an empty map let map = {}; // create an empty vector of pairs to store // subarray starting and ending index let out = []; // Maintains sum of elements so far let sum = 0; for (var i = 0; i < n; i++) { // add current element to sum sum += arr[i]; // if sum is 0 we found a subarray starting // from index 0 and ending at index i if (sum == 0) out.push([0 i]); // If sum already exists in the map there exists // at-least one subarray ending at index i with // 0 sum if (map.hasOwnProperty(sum)) { // map[sum] stores starting index of all subarrays let vc = map[sum]; for (let it of vc) out.push([it + 1 i]); } else map[sum] = []; // Important - no else map[sum].push(i); } // return output vector return out; } // Utility function to print all subarrays with sum 0 function print(out) { for (let it of out) console.log('Subarray found from Index ' + it[0] + ' to ' + it[1]); } // Driver code let arr = [6 3 -1 -3 4 -2 2 4 6 -12 -7]; let n = arr.length; let out = findSubArrays(arr n); // if we didn’t find any subarray with 0 sum // then subarray doesn’t exists if (out.length == 0) console.log('No subarray exists'); else print(out);
Išvestis
Subarray found from Index 2 to 4 Subarray found from Index 2 to 6 Subarray found from Index 5 to 6 Subarray found from Index 6 to 9 Subarray found from Index 0 to 10
Laiko sudėtingumas: O (n), kur n yra elementų skaičius masyve.
Pagalbinė erdvė: O (n) už maišos žemėlapio saugojimą.