Givet et tal n sådan, at 1<= N <= 10^6 the Task is to Find the LCM of First n Natural Numbers.
Eksempler:
Input : n = 5 Output : 60 Input : n = 6 Output : 60 Input : n = 7 Output : 420
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Vi har diskuteret en simpel løsning i nedenstående artikel.
Det mindste tal, der er deleligt med de første n tal
Ovenstående løsning fungerer fint til enkelt input. Men hvis vi har flere input, er det en god idé at bruge Sigte af Eratosthenes at gemme alle prime faktorer. Som vi ved, hvis LCM(a b) = X, så vil enhver primfaktor af a eller b også være primfaktoren for 'X'.
- Initialiser lcm variabel med 1
- Generer en sigte af Eratosthenes (bool-vektor er Prime) med længden 10^6 (skal helst være lig med antallet af cifre i faktorial)
- For hvert tal i bool-vektoren er Prim, hvis tallet er primtal (isPrime[i] er sandt), skal du finde det maksimale tal, som er mindre end det givne tal og lig med potensen af primtal.
- Derefter ganges dette tal med lcm variabel.
- Gentag trin 3 og 4, indtil primtal er mindre end det givne tal.
Illustration:
For example if n = 10 8 will be the first number which is equal to 2^3 then 9 which is equal to 3^2 then 5 which is equal to 5^1 then 7 which is equal to 7^1 Finally we multiply those numbers 8*9*5*7 = 2520
Nedenfor er implementeringen af ovenstående idé.
C++// C++ program to find LCM of First N Natural Numbers. #include
// Java program to find LCM of First N Natural Numbers. import java.util.*; class GFG { static int MAX = 100000; // array to store all prime less than and equal to 10^6 static ArrayList<Integer> primes = new ArrayList<Integer>(); // utility function for sieve of sieve of Eratosthenes static void sieve() { boolean[] isComposite = new boolean[MAX + 1]; for (int i = 2; i * i <= MAX; i++) { if (isComposite[i] == false) for (int j = 2; j * i <= MAX; j++) isComposite[i * j] = true; } // Store all prime numbers in vector primes[] for (int i = 2; i <= MAX; i++) if (isComposite[i] == false) primes.add(i); } // Function to find LCM of first n Natural Numbers static long LCM(int n) { long lcm = 1; for (int i = 0; i < primes.size() && primes.get(i) <= n; i++) { // Find the highest power of prime primes[i] // that is less than or equal to n int pp = primes.get(i); while (pp * primes.get(i) <= n) pp = pp * primes.get(i); // multiply lcm with highest power of prime[i] lcm *= pp; lcm %= 1000000007; } return lcm; } // Driver code public static void main(String[] args) { sieve(); int N = 7; // Function call System.out.println(LCM(N)); } } // This code is contributed by mits
# Python3 program to find LCM of # First N Natural Numbers. MAX = 100000 # array to store all prime less # than and equal to 10^6 primes = [] # utility function for # sieve of Eratosthenes def sieve(): isComposite = [False]*(MAX+1) i = 2 while (i * i <= MAX): if (isComposite[i] == False): j = 2 while (j * i <= MAX): isComposite[i * j] = True j += 1 i += 1 # Store all prime numbers in # vector primes[] for i in range(2 MAX+1): if (isComposite[i] == False): primes.append(i) # Function to find LCM of # first n Natural Numbers def LCM(n): lcm = 1 i = 0 while (i < len(primes) and primes[i] <= n): # Find the highest power of prime # primes[i] that is less than or # equal to n pp = primes[i] while (pp * primes[i] <= n): pp = pp * primes[i] # multiply lcm with highest # power of prime[i] lcm *= pp lcm %= 1000000007 i += 1 return lcm # Driver code sieve() N = 7 # Function call print(LCM(N)) # This code is contributed by mits
// C# program to find LCM of First N // Natural Numbers. using System.Collections; using System; class GFG { static int MAX = 100000; // array to store all prime less than // and equal to 10^6 static ArrayList primes = new ArrayList(); // utility function for sieve of // sieve of Eratosthenes static void sieve() { bool[] isComposite = new bool[MAX + 1]; for (int i = 2; i * i <= MAX; i++) { if (isComposite[i] == false) for (int j = 2; j * i <= MAX; j++) isComposite[i * j] = true; } // Store all prime numbers in vector primes[] for (int i = 2; i <= MAX; i++) if (isComposite[i] == false) primes.Add(i); } // Function to find LCM of first // n Natural Numbers static long LCM(int n) { long lcm = 1; for (int i = 0; i < primes.Count && (int)primes[i] <= n; i++) { // Find the highest power of prime primes[i] // that is less than or equal to n int pp = (int)primes[i]; while (pp * (int)primes[i] <= n) pp = pp * (int)primes[i]; // multiply lcm with highest power of prime[i] lcm *= pp; lcm %= 1000000007; } return lcm; } // Driver code public static void Main() { sieve(); int N = 7; // Function call Console.WriteLine(LCM(N)); } } // This code is contributed by mits
<script> // Javascript program to find LCM of First N // Natural Numbers. let MAX = 100000; // array to store all prime less than // and equal to 10^6 let primes = []; // utility function for sieve of // sieve of Eratosthenes function sieve() { let isComposite = new Array(MAX + 1); isComposite.fill(false); for (let i = 2; i * i <= MAX; i++) { if (isComposite[i] == false) for (let j = 2; j * i <= MAX; j++) isComposite[i * j] = true; } // Store all prime numbers in vector primes[] for (let i = 2; i <= MAX; i++) if (isComposite[i] == false) primes.push(i); } // Function to find LCM of first // n Natural Numbers function LCM(n) { let lcm = 1; for (let i = 0; i < primes.length && primes[i] <= n; i++) { // Find the highest power of prime primes[i] // that is less than or equal to n let pp = primes[i]; while (pp * primes[i] <= n) pp = pp * primes[i]; // multiply lcm with highest power of prime[i] lcm *= pp; lcm %= 1000000007; } return lcm; } sieve(); let N = 7; // Function call document.write(LCM(N)); // This code is contributed by decode2207. </script>
// PHP program to find LCM of // First N Natural Numbers. $MAX = 100000; // array to store all prime less // than and equal to 10^6 $primes = array(); // utility function for // sieve of Eratosthenes function sieve() { global $MAX $primes; $isComposite = array_fill(0 $MAX false); for ($i = 2; $i * $i <= $MAX; $i++) { if ($isComposite[$i] == false) for ($j = 2; $j * $i <= $MAX; $j++) $isComposite[$i * $j] = true; } // Store all prime numbers in // vector primes[] for ($i = 2; $i <= $MAX; $i++) if ($isComposite[$i] == false) array_push($primes $i); } // Function to find LCM of // first n Natural Numbers function LCM($n) { global $MAX $primes; $lcm = 1; for ($i = 0; $i < count($primes) && $primes[$i] <= $n; $i++) { // Find the highest power of prime // primes[i] that is less than or // equal to n $pp = $primes[$i]; while ($pp * $primes[$i] <= $n) $pp = $pp * $primes[$i]; // multiply lcm with highest // power of prime[i] $lcm *= $pp; $lcm %= 1000000007; } return $lcm; } // Driver code sieve(); $N = 7; // Function call echo LCM($N); // This code is contributed by mits ?> Produktion
420
Tidskompleksitet : O(n2)
Hjælpeplads: På)
En anden tilgang:
Tanken er, at hvis tallet er mindre end 3, så returner nummeret. Hvis tallet er større end 2, så find LCM af nn-1
- Lad os sige x=LCM(nn-1)
- igen x=LCM(xn-2)
- igen x=LCM(xn-3) ...
- .
- .
- igen x=LCM(x1) ...
nu er resultatet x.
Til at finde LCM(ab) bruger vi en funktion hcf(ab), som returnerer HCF på (ab)
Det ved vi LCM(ab)= (a*b)/HCF(ab)
Illustration:
For example if n = 7 function call lcm(76) now lets say a=7 b=6 Now b!= 1 Hence a=lcm(76) = 42 and b=6-1=5 function call lcm(425) a=lcm(425) = 210 and b=5-1=4 function call lcm(2104) a=lcm(2104) = 420 and b=4-1=3 function call lcm(4203) a=lcm(4203) = 420 and b=3-1=2 function call lcm(4202) a=lcm(4202) = 420 and b=2-1=1 Now b=1 Hence return a=420
Nedenfor er implementeringen af ovenstående tilgang
C++// C++ program to find LCM of First N Natural Numbers. #include
// Java program to find LCM of First N Natural Numbers public class Main { // to calculate hcf static int hcf(int a int b) { if (b == 0) return a; return hcf(b a % b); } static int findlcm(int aint b) { if (b == 1) // lcm(ab)=(a*b)/hcf(ab) return a; // assign a=lcm of nn-1 a = (a * b) / hcf(a b); // b=b-1 b -= 1; return findlcm(a b); } // Driver code. public static void main(String[] args) { int n = 7; if (n < 3) System.out.print(n); // base case else // Function call // pass nn-1 in function to find LCM of first n natural // number System.out.print(findlcm(n n - 1)); } } // This code is contributed by divyeshrabadiya07.
# Python3 program to find LCM # of First N Natural Numbers. # To calculate hcf def hcf(a b): if (b == 0): return a return hcf(b a % b) def findlcm(a b): if (b == 1): # lcm(ab)=(a*b)//hcf(ab) return a # Assign a=lcm of nn-1 a = (a * b) // hcf(a b) # b=b-1 b -= 1 return findlcm(a b) # Driver code n = 7 if (n < 3): print(n) else: # Function call # pass nn-1 in function # to find LCM of first n # natural number print(findlcm(n n - 1)) # This code is contributed by Shubham_Singh
// C# program to find LCM of First N Natural Numbers. using System; class GFG { // to calculate hcf static int hcf(int a int b) { if (b == 0) return a; return hcf(b a % b); } static int findlcm(int aint b) { if (b == 1) // lcm(ab)=(a*b)/hcf(ab) return a; // assign a=lcm of nn-1 a = (a * b) / hcf(a b); // b=b-1 b -= 1; return findlcm(a b); } // Driver code static void Main() { int n = 7; if (n < 3) Console.Write(n); // base case else // Function call // pass nn-1 in function to find LCM of first n natural // number Console.Write(findlcm(n n - 1)); } } // This code is contributed by divyesh072019.
<script> // Javascript program to find LCM of First N Natural Numbers. // to calculate hcf function hcf(a b) { if (b == 0) return a; return hcf(b a % b); } function findlcm(ab) { if (b == 1) // lcm(ab)=(a*b)/hcf(ab) return a; // assign a=lcm of nn-1 a = (a * b) / hcf(a b); // b=b-1 b -= 1; return findlcm(a b); } let n = 7; if (n < 3) document.write(n); // base case else // Function call // pass nn-1 in function to find LCM of first n natural // number document.write(findlcm(n n - 1)); </script>
Produktion
420
Tidskompleksitet: O(n log n)
Hjælpeplads: O(1)