# Programming Help, methods to make it work

Ok below is the full code I have written for what is suppose to be my own BigInteger class in java, I rather use what is there already but the professor wants this.

Thing is I have it making a BigInt and then store the data as an int[] and the sign as 1 for positive and -1 for negative. From there I am suppose to add, subtract, and multiply the numbers when asked. This would be fine if it was a typical type int, long, etc, but as the numbers are in an array now, I need to find a way to to these methods.

I have tried many ways, as you can see, and things like add are fine when both numbers are positive or negative, but when mixed, I am not getting it.

What I need help with is not idea of how to do each type, I know methods, lattice multiplication etc, but I need to know the psuedocode for how I would do this stuff, I am completely lost.

By the way I know I have asked for similar things here and there for each method, sorry I am still not getting it, and it is due in a couple of days, and I have racked my brain all weekend.

``````package BigInteger;

public class BigInt{

private int[] store;
private int sign;

public BigInt(){
store = new int[10];
sign = 1;
}

public BigInt(int[] data){
store = data;
}

public BigInt(int data, int maxSize){
int size = String.valueOf(data).length();
if (maxSize == 0){
store = new int[size];
}

else if(size >= maxSize){
store = new int[size];
}
else{
store = new int[maxSize];
}
if (data > 0){
sign = 1;
}else{
sign = -1;
}
for(int i = 0; i < size; i++){
store[i] = data % 10;
data = data / 10;
}
}

public BigInt(String num){
store = new int[num.length()];
try{
for(int i = 0; i < num.length();i++){
store[i] = Integer.parseInt(num.substring(i,i+1));
}
}catch(IndexOutOfBoundsException e){
System.out.println("Index out of bounds");
}
}

int[] bigger;
int[] smaller;
int[] dStore;

//Compare sizes and set which is bigger in first and create a new int[]
if(val.getSize() >= this.getSize()){
bigger = val.getData();
smaller = this.getData();

dStore = new int[val.getSize()+1];
}else{

bigger = this.getData();
smaller = val.getData();

dStore = new int[this.getSize()+1];
}

//Loop through till the end of small and add cells
for(int i = 0;i<smaller.length;i++){
if((this.getSign() == 1 && val.getSign() == 1) || (this.getSign() == -1 && val.getSign() == -1)){
dStore[i] = Math.abs(bigger[i] + smaller[i]);
}else if((this.getSign() == -1 || val.getSign() == -1) && (this.getSign() == 1 || val.getSign() == 1)){
if(this.getSign() < 0 && this.getSize() < val.getSize()){
smaller = this.getData();
bigger = val.getData();
bigger[i] = bigger[i] + 10;
}else if(val.getSign() < 0 && val.getSize() < this.getSize()){
smaller = val.getData();
bigger = this.getData();
bigger[i] = bigger[i] + 10;
}
dStore[i] = bigger[i] + smaller[i];
}
}

for(int i=0;i<dStore.length;i++){
if(dStore[i] >= 10){
dStore[i] = dStore[i] % 10;
dStore[i+1] = dStore[i+1] + 1;
}
}

//Finish adding numbers after small is done
for(int i=smaller.length;i<bigger.length;i++){
dStore[i] = Math.abs(bigger[i] + dStore[i]);
}

//Create new BigInt from int[]
BigInt rVal = new BigInt(dStore);

//Set sign of new BigInt
if(this.getSign() == 1 && val.getSign() == 1){
rVal.setSign(1);
}else if(this.getSign() == -1 && val.getSign() == -1){
rVal.setSign(-1);
}else if((this.getSign() == 1 && val.getSign() == -1) || (this.getSign() == -1 && val.getSign() == 1)){
if(this.getSize() > val.getSize()){
rVal.setSign(1);
}else{
rVal.setSign(-1);
}
}

return rVal;
}

public BigInt subtract(BigInt val){
int[] bigger;
int[] smaller;
int[] dStore;
int carryOver = 0;

//Compare sizes and set which is bigger in first and create a new int[]
if(val.getSize() >= this.getSize()){
bigger = val.getData();
smaller = this.getData();

dStore = new int[val.getSize()+1];
}else{

bigger = this.getData();
smaller = val.getData();

dStore = new int[this.getSize()+1];
}

//Loop through till the end of small and add cells
for(int i = 0; i < smaller.length;i++){
dStore[i] = Math.abs(bigger[i] - smaller[i]);
}

for(int i=0;i<dStore.length;i++){
if(dStore[i] >= 10){
dStore[i] = dStore[i] % 10;
dStore[i+1] = dStore[i+1] + 1;
}
}

//Finish adding numbers after small is done
for(int i=smaller.length;i<bigger.length;i++){
dStore[i] = Math.abs(bigger[i] + dStore[i]);
}

//Create new BigInt from int[]
BigInt rVal = new BigInt(dStore);

//Set sign of new BigInt
if(this.getSign() == 1 && val.getSign() == 1){
rVal.setSign(1);
}else if(this.getSign() == -1 && val.getSign() == -1){
rVal.setSign(-1);
}else if((this.getSign() == 1 && val.getSign() == -1) || (this.getSign() == -1 && val.getSign() == 1)){
if(this.getSize() > val.getSize()){
rVal.setSign(1);
}else{
rVal.setSign(-1);
}
}

return rVal;
}

public int multiply(BigInt val){
int[] bigger;
int[] smaller;
int[] dStore;

int[][] tempResult;

//Checks to see which is bigger and then adds that to bigger
if(val.getSize() >= this.getSize()){
bigger = val.getData();
smaller = this.getData();
dStore = new int[val.getSize()+this.getSize()];
}else{
bigger = this.getData();
smaller = val.getData();
dStore = new int[val.getSize()+this.getSize()];
}

tempResult = new int[smaller.length][bigger.length];
String resultString = "";
String[] tempStr = new String[smaller.length];
int[] intResults = new int[smaller.length*bigger.length];
int loop = 0;

//Makes one long string of the numbers
for(int i=smaller.length-1;i >= 0;i--){
for(int j = bigger.length-1;j >= 0;j--){
tempResult[i][j] = smaller[i] * bigger[j];
resultString = new StringBuffer(resultString).insert(resultString.length(), tempResult[i][j]).toString();
}
}

//Splits the string up into loop amount of strings smaller.length size
for(int i=0;i < resultString.length();i = i + smaller.length){
tempStr[loop] = (resultString.substring(i - loop, (i + smaller.length)));
//System.out.println(tempStr[loop]);
loop++;
}

//Adds 0's to make a full matrix
for(int i = 0; i < loop;i++){
while(tempStr[i].length() < tempStr[loop-1].length()){
tempStr[i] = new StringBuffer(tempStr[i]).insert(tempStr[i].length(), "0").toString();
}
}

int[] tempNum = new int[smaller.length];
int[] finalNum = new int[bigger.length];

for(int i=0;i<smaller.length;i++){
tempNum[i] = tempNum[i] + (Integer.parseInt((tempStr[i].substring(0,tempStr[i].length()))) % 10);
}
for(int i =0; i < smaller.length;i++){
finalNum[0] =+ tempNum[i];
}
System.out.println(tempNum[1]);

//Makes a new string that has all  the digits in equal length.
resultString = "";
for(int i=0; i < smaller.length;i++){
resultString = new StringBuffer(resultString).insert(resultString.length(), tempStr[i]).toString();
}

for(int i = 0; i<resultString.length();i++){
for(int j = 0; j < 1;j++){
tempNum[j] = tempNum[j] + Integer.parseInt(resultString.substring(i,i+1));
//System.out.println(tempNum[j]);
}
}

//System.out.println(resultString);

return 0;
}

public void reverse(){
for (int left=0, right=this.store.length-1; left<right; left++, right--) {
int temp = store[left]; store[left]  = store[right]; store[right] = temp;
}
}

public int getSize(){
int size = this.store.length - 1;
return size;
}

public int[] getData(){
return store;
}

public void displayData(){
for(int i=0;i<this.store.length;i++){
System.out.println(this.store[i]);
}
System.out.println("Sign: " + this.sign);
}

public int getSign(){
return this.sign;
}

public void setSign(int tempSign){
this.sign = tempSign;
}

public boolean isPositive(){
return this.sign == 1;
}

public boolean isGreater(){
return this.
}
}
``````
-
Your problems are far beyond what SO is designed for. I suggest you find a TA for your course and spend some time going over this with them. You need more help than SO can provide. –  Jim Garrison Feb 15 '11 at 4:46
nice, thought but we have no TA, let alone very little time for help from the professor, at least in my case, I have full days full of class and work. –  Tempus35 Feb 15 '11 at 4:50
How about at least up-voting all those who have helped you recently and accepting one answer in each thread too? –  Hovercraft Full Of Eels Feb 15 '11 at 4:54
You have only a little experience using StackOverflow, so an explanation might help. People like to to be thanked for a correct answer, so when you get a good answer, press the up arrow next to the answer to say "thank you." If the answer completely solves your problem, and is the best answer given, please "accept" the answer. People notice when you don't say "Thank you" or you don't "accept" correct answers, and those who notice don't want to waste time helping someone who is not thankful. –  Edwin Buck Feb 15 '11 at 5:02
Thanks for that explanation, I have tried to up the rep of an answer, cant yet(need 15 rep first), but I have pick the best answer in some of my other questions. –  Tempus35 Feb 15 '11 at 5:10