Fixed Compiler warnings, closed the scanned and fixed some typos

This commit is contained in:
rmakynen 2018-10-15 09:21:30 +03:00
parent c75fce171b
commit c6e6610909

View File

@ -1,4 +1,3 @@
import java.util.Comparator; import java.util.Comparator;
import java.util.Iterator; import java.util.Iterator;
import java.util.LinkedList; import java.util.LinkedList;
@ -14,24 +13,24 @@ Output :
Enter number of distinct letters Enter number of distinct letters
6 6
Enter letters with its frequncy to encode Enter letters with its frequency to encode
Enter letter : a Enter letter : a
Enter frequncy : 45 Enter frequency : 45
Enter letter : b Enter letter : b
Enter frequncy : 13 Enter frequency : 13
Enter letter : c Enter letter : c
Enter frequncy : 12 Enter frequency : 12
Enter letter : d Enter letter : d
Enter frequncy : 16 Enter frequency : 16
Enter letter : e Enter letter : e
Enter frequncy : 9 Enter frequency : 9
Enter letter : f Enter letter : f
Enter frequncy : 5 Enter frequency : 5
Letter Encoded Form Letter Encoded Form
a 0 a 0
@ -64,17 +63,17 @@ public class Huffman {
// A simple function to print a given list // A simple function to print a given list
//I just made it for debugging //I just made it for debugging
public static void print_list(List li){ public static void print_list(List<Node> li){
Iterator<Node> it=li.iterator(); Iterator<Node> it=li.iterator();
while(it.hasNext()){Node n=it.next();System.out.print(n.freq+" ");}System.out.println(); while(it.hasNext()){Node n=it.next();System.out.print(n.freq+" ");}System.out.println();
} }
//Function for making tree (Huffman Tree) //Function for making tree (Huffman Tree)
public static Node make_huffmann_tree(List li){ public static Node make_huffmann_tree(List<Node> li){
//Sorting list in increasing order of its letter frequency //Sorting list in increasing order of its letter frequency
li.sort(new comp()); li.sort(new comp());
Node temp=null; Node temp=null;
Iterator it=li.iterator(); Iterator<Node> it=li.iterator();
//System.out.println(li.size()); //System.out.println(li.size());
//Loop for making huffman tree till only single node remains in list //Loop for making huffman tree till only single node remains in list
while(true){ while(true){
@ -89,7 +88,7 @@ public class Huffman {
//Below condition is to check either list has 2nd node or not to combine //Below condition is to check either list has 2nd node or not to combine
//If this condition will be false, then it means construction of huffman tree is completed //If this condition will be false, then it means construction of huffman tree is completed
if(it.hasNext()){b=(Node)it.next();} if(it.hasNext()){b=(Node)it.next();}
//Combining first two smallest nodes in list to make its parent whose frequncy //Combining first two smallest nodes in list to make its parent whose frequency
//will be equals to sum of frequency of these two nodes //will be equals to sum of frequency of these two nodes
if(b!=null){ if(b!=null){
temp.freq=a.freq+b.freq;a.data=0;b.data=1;//assigining 0 and 1 to left and right nodes temp.freq=a.freq+b.freq;a.data=0;b.data=1;//assigining 0 and 1 to left and right nodes
@ -109,7 +108,7 @@ public class Huffman {
//Function for finding path between root and given letter ch //Function for finding path between root and given letter ch
public static void dfs(Node n,String ch){ public static void dfs(Node n,String ch){
Stack<Node> st=new Stack(); // stack for storing path Stack<Node> st=new Stack<Node>(); // stack for storing path
int freq=n.freq; // recording root freq to avoid it adding in path encoding int freq=n.freq; // recording root freq to avoid it adding in path encoding
find_path_and_encode(st,n,ch,freq); find_path_and_encode(st,n,ch,freq);
} }
@ -140,15 +139,16 @@ public class Huffman {
System.out.println("Enter number of distinct letters "); System.out.println("Enter number of distinct letters ");
int n=in.nextInt(); int n=in.nextInt();
String s[]=new String[n]; String s[]=new String[n];
System.out.print("Enter letters with its frequncy to encode\n"); System.out.print("Enter letters with its frequency to encode\n");
for(int i=0;i<n;i++){ for(int i=0;i<n;i++){
Node a=new Node(); Node a=new Node();
System.out.print("Enter letter : "); System.out.print("Enter letter : ");
a.letr=in.next();s[i]=a.letr; a.letr=in.next();s[i]=a.letr;
System.out.print("Enter frequncy : "); System.out.print("Enter frequency : ");
a.freq=in.nextInt();System.out.println(); a.freq=in.nextInt();System.out.println();
li.add(a); li.add(a);
} }
in.close();
Node root=new Node(); Node root=new Node();
root=make_huffmann_tree(li); root=make_huffmann_tree(li);
System.out.println("Letter\t\tEncoded Form"); System.out.println("Letter\t\tEncoded Form");