Merge branch 'master' into median_new_algo

Author: siriak

DIRECTORY.md

@@ -20,7 +20,7 @@
             <dependency>
                 <groupId>org.junit</groupId>
                 <artifactId>junit-bom</artifactId>
-                <version>5.11.2</version>
+                <version>5.11.3</version>
                 <type>pom</type>
                 <scope>import</scope>
             </dependency>
@@ -31,7 +31,7 @@
         <dependency>
             <groupId>org.junit.jupiter</groupId>
             <artifactId>junit-jupiter</artifactId>
-            <version>5.11.2</version>
+            <version>5.11.3</version>
             <scope>test</scope>
         </dependency>
         <dependency>
@@ -43,15 +43,15 @@
         <dependency>
             <groupId>org.mockito</groupId>
             <artifactId>mockito-core</artifactId>
-            <version>5.14.1</version>
+            <version>5.14.2</version>
             <scope>test</scope>
         </dependency>
 
 
         <dependency>
             <groupId>org.junit.jupiter</groupId>
             <artifactId>junit-jupiter-api</artifactId>
-            <version>5.11.2</version>
+            <version>5.11.3</version>
             <scope>test</scope>
         </dependency>
         <dependency>
@@ -132,7 +132,7 @@
             <plugin>
                 <groupId>com.github.spotbugs</groupId>
                 <artifactId>spotbugs-maven-plugin</artifactId>
-                <version>4.8.6.4</version>
+                <version>4.8.6.5</version>
                 <configuration>
                     <excludeFilterFile>spotbugs-exclude.xml</excludeFilterFile>
                     <includeTests>true</includeTests>

pom.xml

@@ -4,32 +4,44 @@
 import java.util.List;
 
 /**
- * Finds all combinations of 0...n-1 of length k
+ * This class provides methods to find all combinations of integers from 0 to n-1
+ * of a specified length k using backtracking.
  */
 public final class ArrayCombination {
     private ArrayCombination() {
     }
 
     /**
-     * Finds all combinations of length k of 0..n-1 using backtracking.
+     * Generates all possible combinations of length k from the integers 0 to n-1.
      *
-     * @param n Number of the elements.
-     * @param k Length of the combination.
-     * @return A list of all combinations of length k.
+     * @param n The total number of elements (0 to n-1).
+     * @param k The desired length of each combination.
+     * @return A list containing all combinations of length k.
+     * @throws IllegalArgumentException if n or k are negative, or if k is greater than n.
      */
     public static List<List<Integer>> combination(int n, int k) {
         if (n < 0 || k < 0 || k > n) {
-            throw new IllegalArgumentException("Wrong input.");
+            throw new IllegalArgumentException("Invalid input: n must be non-negative, k must be non-negative and less than or equal to n.");
         }
 
         List<List<Integer>> combinations = new ArrayList<>();
         combine(combinations, new ArrayList<>(), 0, n, k);
         return combinations;
     }
 
+    /**
+     * A helper method that uses backtracking to find combinations.
+     *
+     * @param combinations The list to store all valid combinations found.
+     * @param current The current combination being built.
+     * @param start The starting index for the current recursion.
+     * @param n The total number of elements (0 to n-1).
+     * @param k The desired length of each combination.
+     */
     private static void combine(List<List<Integer>> combinations, List<Integer> current, int start, int n, int k) {
-        if (current.size() == k) { // Base case: combination found
-            combinations.add(new ArrayList<>(current)); // Copy to avoid modification
+        // Base case: combination found
+        if (current.size() == k) {
+            combinations.add(new ArrayList<>(current));
             return;
         }
 

src/main/java/com/thealgorithms/backtracking/ArrayCombination.java

@@ -0,0 +1,71 @@
+package com.thealgorithms.ciphers;
+
+import java.util.HashMap;
+import java.util.Map;
+
+/**
+ * The Baconian Cipher is a substitution cipher where each letter is represented
+ * by a group of five binary digits (A's and B's). It can also be used to hide
+ * messages within other texts, making it a simple form of steganography.
+ * https://en.wikipedia.org/wiki/Bacon%27s_cipher
+ *
+ * @author Bennybebo
+ */
+public class BaconianCipher {
+
+    private static final Map<Character, String> BACONIAN_MAP = new HashMap<>();
+    private static final Map<String, Character> REVERSE_BACONIAN_MAP = new HashMap<>();
+
+    static {
+        // Initialize the Baconian cipher mappings
+        String[] baconianAlphabet = {"AAAAA", "AAAAB", "AAABA", "AAABB", "AABAA", "AABAB", "AABBA", "AABBB", "ABAAA", "ABAAB", "ABABA", "ABABB", "ABBAA", "ABBAB", "ABBBA", "ABBBB", "BAAAA", "BAAAB", "BAABA", "BAABB", "BABAA", "BABAB", "BABBA", "BABBB", "BBAAA", "BBAAB"};
+        char letter = 'A';
+        for (String code : baconianAlphabet) {
+            BACONIAN_MAP.put(letter, code);
+            REVERSE_BACONIAN_MAP.put(code, letter);
+            letter++;
+        }
+
+        // Handle I/J as the same letter
+        BACONIAN_MAP.put('I', BACONIAN_MAP.get('J'));
+        REVERSE_BACONIAN_MAP.put(BACONIAN_MAP.get('I'), 'I');
+    }
+
+    /**
+     * Encrypts the given plaintext using the Baconian cipher.
+     *
+     * @param plaintext The plaintext message to encrypt.
+     * @return The ciphertext as a binary (A/B) sequence.
+     */
+    public String encrypt(String plaintext) {
+        StringBuilder ciphertext = new StringBuilder();
+        plaintext = plaintext.toUpperCase().replaceAll("[^A-Z]", ""); // Remove non-letter characters
+
+        for (char letter : plaintext.toCharArray()) {
+            ciphertext.append(BACONIAN_MAP.get(letter));
+        }
+
+        return ciphertext.toString();
+    }
+
+    /**
+     * Decrypts the given ciphertext encoded in binary (A/B) format using the Baconian cipher.
+     *
+     * @param ciphertext The ciphertext to decrypt.
+     * @return The decrypted plaintext message.
+     */
+    public String decrypt(String ciphertext) {
+        StringBuilder plaintext = new StringBuilder();
+
+        for (int i = 0; i < ciphertext.length(); i += 5) {
+            String code = ciphertext.substring(i, i + 5);
+            if (REVERSE_BACONIAN_MAP.containsKey(code)) {
+                plaintext.append(REVERSE_BACONIAN_MAP.get(code));
+            } else {
+                throw new IllegalArgumentException("Invalid Baconian code: " + code);
+            }
+        }
+
+        return plaintext.toString();
+    }
+}

src/main/java/com/thealgorithms/ciphers/BaconianCipher.java

@@ -0,0 +1,36 @@
+package com.thealgorithms.ciphers;
+
+import java.math.BigInteger;
+
+public final class DiffieHellman {
+
+    private final BigInteger base;
+    private final BigInteger secret;
+    private final BigInteger prime;
+
+    // Constructor to initialize base, secret, and prime
+    public DiffieHellman(BigInteger base, BigInteger secret, BigInteger prime) {
+        // Check for non-null and positive values
+        if (base == null || secret == null || prime == null || base.signum() <= 0 || secret.signum() <= 0 || prime.signum() <= 0) {
+            throw new IllegalArgumentException("Base, secret, and prime must be non-null and positive values.");
+        }
+        this.base = base;
+        this.secret = secret;
+        this.prime = prime;
+    }
+
+    // Method to calculate public value (g^x mod p)
+    public BigInteger calculatePublicValue() {
+        // Returns g^x mod p
+        return base.modPow(secret, prime);
+    }
+
+    // Method to calculate the shared secret key (otherPublic^secret mod p)
+    public BigInteger calculateSharedSecret(BigInteger otherPublicValue) {
+        if (otherPublicValue == null || otherPublicValue.signum() <= 0) {
+            throw new IllegalArgumentException("Other public value must be non-null and positive.");
+        }
+        // Returns b^x mod p or a^y mod p
+        return otherPublicValue.modPow(secret, prime);
+    }
+}

src/main/java/com/thealgorithms/ciphers/DiffieHellman.java

@@ -0,0 +1,48 @@
+package com.thealgorithms.ciphers;
+
+public final class MonoAlphabetic {
+
+    private MonoAlphabetic() {
+        throw new UnsupportedOperationException("Utility class");
+    }
+
+    // Encryption method
+    public static String encrypt(String data, String key) {
+        if (!data.matches("[A-Z]+")) {
+            throw new IllegalArgumentException("Input data contains invalid characters. Only uppercase A-Z are allowed.");
+        }
+        StringBuilder sb = new StringBuilder();
+
+        // Encrypt each character
+        for (char c : data.toCharArray()) {
+            int idx = charToPos(c); // Get the index of the character
+            sb.append(key.charAt(idx)); // Map to the corresponding character in the key
+        }
+        return sb.toString();
+    }
+
+    // Decryption method
+    public static String decrypt(String data, String key) {
+        StringBuilder sb = new StringBuilder();
+
+        // Decrypt each character
+        for (char c : data.toCharArray()) {
+            int idx = key.indexOf(c); // Find the index of the character in the key
+            if (idx == -1) {
+                throw new IllegalArgumentException("Input data contains invalid characters.");
+            }
+            sb.append(posToChar(idx)); // Convert the index back to the original character
+        }
+        return sb.toString();
+    }
+
+    // Helper method: Convert a character to its position in the alphabet
+    private static int charToPos(char c) {
+        return c - 'A'; // Subtract 'A' to get position (0 for A, 1 for B, etc.)
+    }
+
+    // Helper method: Convert a position in the alphabet to a character
+    private static char posToChar(int pos) {
+        return (char) (pos + 'A'); // Add 'A' to convert position back to character
+    }
+}