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Adaptive Huffman encode.cpp
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252 lines (216 loc) · 5.21 KB
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#include<bits/stdc++.h>
class node{
public:
std::string ch;
int weight;
int no;
int left;
int right;
int parent;
std::string code;
};
// std::string data="aaaaaa";
std::string data;
std::string output;
std::vector<node>tree;
int NYT=0;
int nodeNo=51;
int currNode;
void createNode(std::string,int,int,int,std::string);
void encode();
bool first(int);
std::string retCodeData(std::string);
std::string givenCode(char);
void update(bool,std::string);
void gotoParent(int);
int findNodeMax(int);
void switchNodes(int,int);
void reNumCode(int);
void display();
int main(){
std::cout<<"\nEnter the string to encode:";
std::cin>>data;
createNode("NYT",51,0,-1,"");
encode();
std::cout<<"\n\nAdaptive huffman code for "<<data<<" is:\n"<<output<<"\n\n";
system("pause");
}
//create a node and push it in tree
void createNode(std::string str,int num,int freq,int p,std::string c){
node temp;
temp.ch=str;
temp.no=num;
temp.weight=freq;
temp.left=-1;
temp.right=-1;
temp.parent=p;
temp.code=c;
tree.push_back(temp);
}
void encode(){
bool firstFlag;
for(int a=0;a<data.length();a++){
firstFlag=false;
if(first(a)){
firstFlag=true;
output+=tree[NYT].code;
output+=givenCode(data[a]);
} else {
output+=retCodeData(std::string(1,data[a]));
}
update(firstFlag,std::string(1,data[a]));
}
}
//return true if symbol is first appearance
bool first(int n){
for(int a=0;a<n;a++){
if(data[a]==data[n]){
return false;
}
}
return true;
}
//return code for the data element
std::string retCodeData(std::string str){
for(int a=0;a<tree.size();a++){
if(str==tree[a].ch){
currNode=a;
return tree[a].code;
}
}
return "";
}
//return code for specific data element
std::string givenCode(char str){
switch(str){
case 'a':return "00000";break;
case 'b':return "00001";break;
case 'c':return "00010";break;
case 'd':return "00011";break;
case 'e':return "00100";break;
case 'f':return "00101";break;
case 'g':return "00110";break;
case 'h':return "00111";break;
case 'i':return "01000";break;
case 'j':return "01001";break;
case 'k':return "01010";break;
case 'l':return "01011";break;
case 'm':return "01100";break;
case 'n':return "01101";break;
case 'o':return "01110";break;
case 'p':return "01111";break;
case 'q':return "10000";break;
case 'r':return "10001";break;
case 's':return "10010";break;
case 't':return "10011";break;
case 'u':return "1010";break;
case 'v':return "1011";break;
case 'w':return "1100";break;
case 'x':return "1101";break;
case 'y':return "1110";break;
case 'z':return "1111";break;
default:return "";
}
}
//update the tree
void update(bool flag,std::string str){
if(flag){
tree[NYT].ch="-";
tree[NYT].left=tree.size();
tree[NYT].right=tree.size()+1;
createNode("NYT",tree[NYT].no-2,0,NYT,tree[NYT].code+"0");
createNode(str,tree[NYT].no-1,1,NYT,tree[NYT].code+"1");
tree[NYT].weight++;
NYT=tree[NYT].left;
currNode=tree[NYT].parent;
} else {
int nodeMax=findNodeMax(currNode);
if(nodeMax>0){
switchNodes(currNode,nodeMax);
}
tree[currNode].weight++;
}
gotoParent(currNode);
}
//goto parent of node
void gotoParent(int n){
int nodeMax;
while(tree[n].parent!=-1){
n=tree[n].parent;
nodeMax=findNodeMax(n);
if(nodeMax<0){
tree[n].weight++;
} else {
switchNodes(n,nodeMax);
reNumCode(0);
tree[n].weight++;
nodeNo=51;
}
}
}
//return the node index with max node no. in block else -1
int findNodeMax(int n){
int w=tree[n].weight;
int index=n;
for(int a=0;a<tree.size();a++){
if(tree[a].weight==w&&tree[a].no>tree[index].no){
index=a;
}
}
if(index==n){
return -1;
}
return index;
}
//switch the nodes
void switchNodes(int a,int b){
//swap parent's child
int parent_a=tree[a].parent;
int parent_b=tree[b].parent;
int parent_a_left=tree[parent_a].left;
int parent_a_right=tree[parent_a].right;
int parent_b_left=tree[parent_b].left;
int parent_b_right=tree[parent_b].right;
//swap no.
int temp=tree[a].no;
tree[a].no=tree[b].no;
tree[b].no=temp;
//swap code
std::string str=tree[a].code;
tree[a].code=tree[b].code;
tree[b].code=str;
//swap parent
temp=tree[a].parent;
tree[a].parent=tree[b].parent;
tree[b].parent=temp;
// swap parents chid
if(parent_a_left==a){
tree[parent_a].left=b;
} else {
tree[parent_a].right=b;
}
if(parent_b_left==b){
tree[parent_b].left=a;
} else {
tree[parent_b].right=a;
}
}
//rearrange node no. and codes
void reNumCode(int n){
if(tree[n].left!=-1&&tree[n].right!=-1){
tree[tree[n].right].no=(--nodeNo);
tree[tree[n].left].no=(--nodeNo);
tree[tree[n].left].code=tree[n].code+"0";
tree[tree[n].right].code=tree[n].code+"1";
reNumCode(tree[n].right);
reNumCode(tree[n].left);
}
}
//display
void display(){
for(int a=0;a<tree.size();a++){
std::cout<<"\n"<<a<<" ch:"<<tree[a].ch<<" weight:"<<tree[a].weight<<" no:"<<tree[a].no<<" l:"<<tree[a].left<<" r:"<<tree[a].right<<" p:"<<tree[a].parent<<" code:"<<tree[a].code;
}
std::cout<<"\n";
system("pause");
}