Program to wish Women’s Day
This article demonstrates the pattern to print the Venus Symbol (An international gender symbol for females).
C++
// C++ code to wish happY Women's DaY #include <bits/stdc++.h> using namespace std; int main() { // Initializing size of // design int n = 5; // Loop to print Circle // (Upper part of design) // Outer loop to // control height of // design for (int i = 0; i <= 2 * n; i++) { // Inner loop to control // width for (int j = 0; j <= 2 * n; j++) { // computing distance of // each point from center float center_dist = sqrt((i - n) * (i - n) + (j - n) * (j - n)); if (center_dist > n - 0.5 && center_dist < n + 0.5) cout << "$"; else cout << " "; } // Printing HappY Women's DaY if (i == n) cout << " " << "HappY Women's DaY"; cout << endl; } // Loop to print lower part // Outer loop to control // height for (int i = 0; i <= n; i++) { // Positioning pattern // Loop for Printing // horizontal line if (i == (n / 2) + 1) { for (int j = 0; j <= 2 * n; j++) if (j >= (n - n / 2) && j <= (n + n / 2)) cout << "$"; else cout << " "; } else { for (int j = 0; j <= 2 * n; j++) { if (j == n) cout << "$"; else cout << " "; } } cout << endl; } } |
Java
// Java code to wish happY Women's DaY import java.io.*; class GFG { public static void main (String[] args) { // Initializing size of // design int n = 5; // Loop to print Circle // (Upper part of design) // Outer loop to // control height of // design for (int i = 0; i <= 2 * n; i++) { // Inner loop to control // width for (int j = 0; j <= 2 * n; j++) { // computing distance of // each point from center float center_dist =(float) Math.sqrt((i - n) * (i - n) + (j - n) * (j - n)); if (center_dist > n - 0.5 && center_dist < n + 0.5) System.out.print("$"); else System.out.print(" "); } // Printing HappY Women's DaY if (i == n) System.out.print(" " + "HappY Women's DaY"); System.out.println(); } // Loop to print lower part // Outer loop to control // height for (int i = 0; i <= n; i++) { // Positioning pattern // Loop for Printing // horizontal line if (i == (n / 2) + 1) { for (int j = 0; j <= 2 * n; j++) if (j >= (n - n / 2) && j <= (n + n / 2)) System.out.print("$"); else System.out.print(" "); } else { for (int j = 0; j <= 2 * n; j++) { if (j == n) System.out.print("$"); else System.out.print(" "); } } System.out.println(); } } } // This code is contributed by vt_m. |
Python3
# Python 3 code to wish HaPpY Women's DaY import math # Initializing size of # design n = 5 # Loop to print Circle # (Upper part of design) # Outer loop to # control height of # design for i in range(0, 2 * n + 1): # Inner loop to control # width for j in range(0, 2 * n + 1): # computing distance of # each point from center center_dist = math.sqrt((i - n) * (i - n) + (j - n) * (j - n)) if (center_dist > n - 0.5 and center_dist < n + 0.5): print("$", end = "") else: print(end = " ") # Printing HappY Women's DaY if (i == n): print(" ","HappY Women's DaY",end = "") print("") # Loop to print lower part # Outer loop to control # height for i in range(0, n+1) : # Positioning pattern # Loop for Printing # horizontal line if (i == int(n / 2) + 1): for j in range(0, 2 * n + 1): if (j >= (n - int(n / 2)) and j <= (n + int(n / 2))): print("$", end = "") else: print(end = " ") else : for j in range(0, 2 * n + 1): if (j == n): print("$", end = "") else: print(end = " ") print("") # This code is contributed by Smitha. |
C#
// C# code to wish happY Women's DaY using System; class GFG { public static void Main () { // Initializing size of // design int n = 5; // Loop to print Circle // (Upper part of design) // Outer loop to // control height of // design for (int i = 0; i <= 2 * n; i++) { // Inner loop to control // width for (int j = 0; j <= 2 * n; j++) { // computing distance of // each point from center float center_dist = (float) Math.Sqrt((i - n) * (i - n) + (j - n) * (j - n)); if (center_dist > n - 0.5 && center_dist < n + 0.5) Console.Write("$"); else Console.Write(" "); } // Printing HappY Women's DaY if (i == n) Console.Write(" " + "HappY Women's DaY"); Console.WriteLine(); } // Loop to print lower part // Outer loop to control // height for (int i = 0; i <= n; i++) { // Positioning pattern // Loop for Printing // horizontal line if (i == (n / 2) + 1) { for (int j = 0; j <= 2 * n; j++) if (j >= (n - n / 2) && j <= (n + n / 2)) Console.Write("$"); else Console.Write(" "); } else { for (int j = 0; j <= 2 * n; j++) { if (j == n) Console.Write("$"); else Console.Write(" "); } } Console.WriteLine(); } } } // This code is contributed by vt_m. |
Javascript
<script> // Initializing size of // design let n = 5; // Loop to print Circle // (Upper part of design) // Outer loop to // control height of // design for (let i = 0; i <= 2 * n; i++) { // Inner loop to control // width for (let j = 0; j <= 2 * n; j++) { // computing distance of // each point from center let center_dist = Math.sqrt((i - n) * (i - n) + (j - n) * (j - n)); if (center_dist > n - 0.5 && center_dist < n + 0.5) document.write("$"); else document.write("  "); } // Printing HappY Women's DaY if (i == n) document.write("  " + "HappY Women's DaY"); document.write("<br>"); } // Loop to print lower part // Outer loop to control // height for (let i = 0; i <= n; i++) { // Positioning pattern // Loop for Printing // horizontal line if (i == Math.floor(n / 2) + 1) { for (let j = 0; j <= 2 * n; j++) if (j >= (n - n / 2) && j <= (n + n / 2)) document.write("$"); else document.write("  "); } else { for (let j = 0; j <= 2 * n; j++) { if (j == n) document.write("$"); else document.write("  "); } } document.write("<br>"); } // This code is contributed by rag2127 </script> |
Output
$$$$$
$ $
$ $
$ $
$ $
$ $ HappY Women's DaY
$ $
$ $
$ $
$ $
$$$$$
$
$
$
$$$$$
$
$
Time complexity: O(n2)
Auxiliary space: O(1)
This article is contributed by Shambhavi Singh and Astha Tyagi.
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