Dan nam je niz od n različitih brojeva. Zadatak je poredati sve parne brojeve u rastućem, a neparne u padajućem redoslijedu. Modificirani niz trebao bi sadržavati sve sortirane parne brojeve iza kojih slijede obrnuto sortirane neparne brojeve.
Imajte na umu da se prvi element smatra parno postavljenim zbog svog indeksa 0.
Primjeri:
Ulazni: arr[] = {0 1 2 3 4 5 6 7}
Izlaz: arr[] = {0 2 4 6 7 5 3 1}
Obrazloženje:
Elementi na parnim mjestima: 0 2 4 6
Neparni elementi : 1 3 5 7
Elementi na parnim mjestima rastućim redoslijedom:
0 2 4 6
Elementi na neparnom mjestu u opadajućem redoslijedu:
7 5 3 1
Ulazni: arr[] = {3 1 2 4 5 9 13 14 12}
Izlaz: {2 3 5 12 13 14 9 4 1}
Obrazloženje:
Elementi na parnim mjestima: 3 2 5 13 12
Neparni elementi : 1 4 9 14
Elementi na parnim mjestima rastućim redoslijedom:
2 3 5 12 13
Elementi na neparnom mjestu u opadajućem redoslijedu:
14 9 4 1
[Naivni pristup] - O(n Log n) Vrijeme i O(n) Prostor
Ideja je jednostavna. Kreiramo dva pomoćna niza evenArr[] i oddArr[]. Prelazimo niz ulaznih podataka i stavljamo sve parne elemente u evenArr[], a neparne u oddArr[]. Zatim sortiramo evenArr[] u rastućem i oddArr[] u silaznom redoslijedu. Na kraju kopirajte evenArr[] i oddArr[] da biste dobili željeni rezultat.
C++// Program to separately sort even-placed and odd // placed numbers and place them together in sorted // array. #include
// Program to separately sort even-placed and odd // placed numbers and place them together in sorted // array. import java.util.*; public class Main { public static void bitonicGenerator(int[] arr) { // create evenArr[] and oddArr[] List<Integer> evenArr = new ArrayList<>(); List<Integer> oddArr = new ArrayList<>(); // Put elements in oddArr[] and evenArr[] as // per their position for (int i = 0; i < arr.length; i++) { if (i % 2 == 0) evenArr.add(arr[i]); else oddArr.add(arr[i]); } // sort evenArr[] in ascending order // sort oddArr[] in descending order Collections.sort(evenArr); Collections.sort(oddArr Collections.reverseOrder()); int i = 0; for (int num : evenArr) arr[i++] = num; for (int num : oddArr) arr[i++] = num; } public static void main(String[] args) { int[] arr = { 1 5 8 9 6 7 3 4 2 0 }; bitonicGenerator(arr); for (int num : arr) System.out.print(num + ' '); } }
# Program to separately sort even-placed and odd # placed numbers and place them together in sorted # array. def bitonic_generator(arr): # create evenArr[] and oddArr[] evenArr = [] oddArr = [] # Put elements in oddArr[] and evenArr[] as # per their position for i in range(len(arr)): if i % 2 == 0: evenArr.append(arr[i]) else: oddArr.append(arr[i]) # sort evenArr[] in ascending order # sort oddArr[] in descending order evenArr.sort() oddArr.sort(reverse=True) i = 0 for num in evenArr: arr[i] = num i += 1 for num in oddArr: arr[i] = num i += 1 # Driver Program arr = [1 5 8 9 6 7 3 4 2 0] bitonic_generator(arr) print(' '.join(map(str arr)))
// Program to separately sort even-placed and odd // placed numbers and place them together in sorted // array. using System; using System.Collections.Generic; using System.Linq; class Program { static void BitonicGenerator(int[] arr) { // create evenArr[] and oddArr[] List<int> evenArr = new List<int>(); List<int> oddArr = new List<int>(); // Put elements in oddArr[] and evenArr[] as // per their position for (int i = 0; i < arr.Length; i++) { if (i % 2 == 0) evenArr.Add(arr[i]); else oddArr.Add(arr[i]); } // sort evenArr[] in ascending order // sort oddArr[] in descending order evenArr.Sort(); oddArr.Sort((a b) => b.CompareTo(a)); int index = 0; foreach (var num in evenArr) arr[index++] = num; foreach (var num in oddArr) arr[index++] = num; } static void Main() { int[] arr = { 1 5 8 9 6 7 3 4 2 0 }; BitonicGenerator(arr); Console.WriteLine(string.Join(' ' arr)); } }
// Program to separately sort even-placed and odd // placed numbers and place them together in sorted // array. function bitonicGenerator(arr) { // create evenArr[] and oddArr[] const evenArr = []; const oddArr = []; // Put elements in oddArr[] and evenArr[] as // per their position for (let i = 0; i < arr.length; i++) { if (i % 2 === 0) evenArr.push(arr[i]); else oddArr.push(arr[i]); } // sort evenArr[] in ascending order // sort oddArr[] in descending order evenArr.sort((a b) => a - b); oddArr.sort((a b) => b - a); let i = 0; for (const num of evenArr) arr[i++] = num; for (const num of oddArr) arr[i++] = num; } // Driver Program const arr = [1 5 8 9 6 7 3 4 2 0]; bitonicGenerator(arr); console.log(arr.join(' '));
// Program to separately sort even-placed and odd // placed numbers and place them together in sorted // array. function bitonicGenerator(&$arr) { // create evenArr[] and oddArr[] $evenArr = []; $oddArr = []; // Put elements in oddArr[] and evenArr[] as // per their position foreach ($arr as $i => $value) { if ($i % 2 === 0) $evenArr[] = $value; else $oddArr[] = $value; } // sort evenArr[] in ascending order // sort oddArr[] in descending order sort($evenArr); rsort($oddArr); $i = 0; foreach ($evenArr as $num) { $arr[$i++] = $num; } foreach ($oddArr as $num) { $arr[$i++] = $num; } } // Driver Program $arr = [1 5 8 9 6 7 3 4 2 0]; bitonicGenerator($arr); echo implode(' ' $arr);
Izlaz
1 2 3 6 8 9 7 5 4 0
[Očekivani pristup - 1] - O(n Log n) Vrijeme i O(1) Prostor
Problem se također može riješiti bez korištenja pomoćnog prostora. Ideja je zamijeniti prvu polovicu neparnih pozicija indeksa s drugom polovinom parnih pozicija indeksa i zatim sortirati prvu polovicu niza u rastućem redoslijedu, a drugu polovicu niza u silaznom redoslijedu.
C++#include
import java.util.Arrays; class BitonicGenerator { public static void bitonicGenerator(int[] arr) { // first odd index int i = 1; // last index int n = arr.length; int j = n - 1; // if last index is odd if (j % 2 != 0) // decrement j to even index j--; // swapping till half of array while (i < j) { int temp = arr[i]; arr[i] = arr[j]; arr[j] = temp; i += 2; j -= 2; } // Sort first half in increasing order Arrays.sort(arr 0 (n + 1) / 2); // Sort second half in decreasing order Arrays.sort(arr (n + 1) / 2 n); reverse(arr (n + 1) / 2 n); } private static void reverse(int[] arr int start int end) { end--; while (start < end) { int temp = arr[start]; arr[start] = arr[end]; arr[end] = temp; start++; end--; } } // Driver Program public static void main(String[] args) { int[] arr = {1 5 8 9 6 7 3 4 2 0}; bitonicGenerator(arr); for (int num : arr) { System.out.print(num + ' '); } } }
def bitonic_generator(arr): # first odd index i = 1 # last index n = len(arr) j = n - 1 # if last index is odd if j % 2 != 0: # decrement j to even index j -= 1 # swapping till half of array while i < j: arr[i] arr[j] = arr[j] arr[i] i += 2 j -= 2 # Sort first half in increasing arr[:(n + 1) // 2] = sorted(arr[:(n + 1) // 2]) # Sort second half in decreasing arr[(n + 1) // 2:] = sorted(arr[(n + 1) // 2:] reverse=True) # Driver Program arr = [1 5 8 9 6 7 3 4 2 0] bitonic_generator(arr) print(' '.join(map(str arr)))
// Function to generate a bitonic sequence using System; using System.Collections.Generic; using System.Linq; class Program { static void BitonicGenerator(List<int> arr) { // first odd index int i = 1; // last index int n = arr.Count; int j = n - 1; // if last index is odd if (j % 2 != 0) // decrement j to even index j--; // swapping till half of array while (i < j) { int temp = arr[i]; arr[i] = arr[j]; arr[j] = temp; i += 2; j -= 2; } // Sort first half in increasing arr.Sort(0 (n + 1) / 2); // Sort second half in decreasing arr.Sort((n + 1) / 2 n - (n + 1) / 2 Comparer<int>.Create((x y) => y.CompareTo(x))); } // Driver Program static void Main() { List<int> arr = new List<int> { 1 5 8 9 6 7 3 4 2 0 }; BitonicGenerator(arr); Console.WriteLine(string.Join(' ' arr)); } }
// Function to generate a bitonic sequence function bitonicGenerator(arr) { // first odd index let i = 1; // last index let n = arr.length; let j = n - 1; // if last index is odd if (j % 2 !== 0) // decrement j to even index j--; // swapping till half of array while (i < j) { [arr[i] arr[j]] = [arr[j] arr[i]]; i += 2; j -= 2; } // Sort first half in increasing arr.sort((a b) => a - b); // Sort second half in decreasing arr.slice((n + 1) / 2).sort((a b) => b - a); } // Driver Program let arr = [1 5 8 9 6 7 3 4 2 0]; bitonicGenerator(arr); console.log(arr.join(' '));
Izlaz
1 2 3 6 8 9 7 5 4 0
Napomena: Čini se da gornji Python i JS kodovi zahtijevaju dodatni prostor. Javite nam u komentarima svoja razmišljanja i sve alternativne implementacije.
[Očekivani pristup - 2] - O(n Log n) Vrijeme i O(1) Prostor
Još jedan učinkovit pristup rješavanju problema u O(1) pomoćnom prostoru je Korištenje negativnog množenja .
Uključeni koraci su sljedeći:
- Pomnožite sve elemente s parnim indeksom s -1.
- Poredaj cijeli niz. Na ovaj način možemo dobiti sve parne indekse na početku jer su oni sada negativni brojevi.
- Sada vratite predznak ovih elemenata.
- Nakon toga obrnite prvu polovicu niza koja sadrži parni broj kako bi bio u rastućem redoslijedu.
- Zatim obrnite preostalu polovicu niza da napravite neparne brojeve u opadajućem redoslijedu.
Bilješka: Ova metoda je primjenjiva samo ako su svi elementi u nizu nenegativni.
Ilustrativan primjer gornjeg pristupa:
Neka dani niz: arr[] = {0 1 2 3 4 5 6 7}
Niz nakon množenja s -1 na parno postavljene elemente: arr[] = {0 1 -2 3 -4 5 -6 7}
Niz nakon sortiranja: arr[] = {-6 -4 -2 0 1 3 5 7}
Niz nakon vraćanja negativnih vrijednosti: arr[] = {6 4 2 0 1 3 5 7}
Nakon preokretanja prve polovice niza: arr[] = {0 2 4 6 1 3 5 7}
Nakon preokretanja druge polovice niza: arr[] = {0 2 4 6 7 5 3 1}
Ispod je kôd za gornji pristup:
C++#include
import java.util.Arrays; import java.util.List; public class BitonicGenerator { public static void bitonicGenerator(List<Integer> arr) { // Making all even placed index // element negative for (int i = 0; i < arr.size(); i++) { if (i % 2 == 0) arr.set(i -1 * arr.get(i)); } // Sorting the whole array Collections.sort(arr); // Finding the middle value of // the array int mid = (arr.size() - 1) / 2; // Reverting the changed sign for (int i = 0; i <= mid; i++) { arr.set(i -1 * arr.get(i)); } // Reverse first half of array Collections.reverse(arr.subList(0 mid + 1)); // Reverse second half of array Collections.reverse(arr.subList(mid + 1 arr.size())); } // Driver Program public static void main(String[] args) { List<Integer> arr = Arrays.asList(1 5 8 9 6 7 3 4 2 0); bitonicGenerator(arr); for (int i : arr) System.out.print(i + ' '); } }
def bitonic_generator(arr): # Making all even placed index # element negative for i in range(len(arr)): if i % 2 == 0: arr[i] = -1 * arr[i] # Sorting the whole array arr.sort() # Finding the middle value of # the array mid = (len(arr) - 1) // 2 # Reverting the changed sign for i in range(mid + 1): arr[i] = -1 * arr[i] # Reverse first half of array arr[:mid + 1] = reversed(arr[:mid + 1]) # Reverse second half of array arr[mid + 1:] = reversed(arr[mid + 1:]) # Driver Program arr = [1 5 8 9 6 7 3 4 2 0] bitonic_generator(arr) print(' '.join(map(str arr)))
using System; using System.Collections.Generic; using System.Linq; class BitonicGenerator { public static void BitonicGeneratorMethod(List<int> arr) { // Making all even placed index // element negative for (int i = 0; i < arr.Count; i++) { if (i % 2 == 0) arr[i] = -1 * arr[i]; } // Sorting the whole array arr.Sort(); // Finding the middle value of // the array int mid = (arr.Count - 1) / 2; // Reverting the changed sign for (int i = 0; i <= mid; i++) { arr[i] = -1 * arr[i]; } // Reverse first half of array arr.Take(mid + 1).Reverse().ToList().CopyTo(arr); // Reverse second half of array arr.Skip(mid + 1).Reverse().ToList().CopyTo(arr mid + 1); } // Driver Program public static void Main() { List<int> arr = new List<int> { 1 5 8 9 6 7 3 4 2 0 }; BitonicGeneratorMethod(arr); Console.WriteLine(string.Join(' ' arr)); } }
function bitonicGenerator(arr) { // Making all even placed index // element negative for (let i = 0; i < arr.length; i++) { if (i % 2 === 0) arr[i] = -1 * arr[i]; } // Sorting the whole array arr.sort((a b) => a - b); // Finding the middle value of // the array const mid = Math.floor((arr.length - 1) / 2); // Reverting the changed sign for (let i = 0; i <= mid; i++) { arr[i] = -1 * arr[i]; } // Reverse first half of array arr.slice(0 mid + 1).reverse().forEach((val index) => arr[index] = val); // Reverse second half of array arr.slice(mid + 1).reverse().forEach((val index) => arr[mid + 1 + index] = val); } // Driver Program let arr = [1 5 8 9 6 7 3 4 2 0]; bitonicGenerator(arr); console.log(arr.join(' '));
Izlaz
1 2 3 6 8 9 7 5 4 0
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