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I have the following so far which works fine. Im sure there is probably an easier way to do this but what I will need to change/alter is the top method of Matheq. The Math method does the single math operations.

The it does work with any single operation with +, -, *, and /.

My problem is solving a bigger equation such as 10 - 10 / 5 + 3. It does however solve 10 / 5 + 65 * 2 properly. The reason is that each part, numbers and operations, are split to a string array. After each operation is complete the numbers and operation is replaced with the result of that equation. May seem more confusing but I couldn't think of any better way. The reason why it can't solve the other equation is because of how I mapped the strings back into string array.

Example of string arrays Ex. with 10 - 10 / 5 + 3 String = { 10, -, 10, /, 5, +, 3 } after operations does division first then left to right subtraction then addition String = { 8, 8, 2, 2, 2, 5, 5 }

Here is my code and someone please help me:

REVISED revised, now it works with above but still has some trouble with LONG equations. A short example is that it solves 2 * 2 * 2 * 2 divided by 5 just fine but if change it so 10 - 2 * 2 * 2 * 2 divided by 5 I get wrong answer.

 public class Matheq {

String fnum = null;
String lnum = null;
String total = null;

public String Matheq(String mathoperation) {

    String mathoperation= "6 * 3 - 4 * 2";

    mathoperation = mathoperation.replaceAll(",", "");
    mathoperation = mathoperation.replaceAll("plus", "+");
    mathoperation = mathoperation.replaceAll("minus", "-");
    mathoperation = mathoperation.replaceAll("times", "*");
    mathoperation = mathoperation.replaceAll("divided by", "dividedby");
    mathoperation = mathoperation.replaceAll("percent of", "percentof");
    String[] splitstr = mathoperation.split(" ");
    while(splitstr.length>1){
    for(int i=0; i<splitstr.length; i++) {
        System.out.println("Get value: " + splitstr[i]);
        if(splitstr[i].indexOf("percentof") >= 0) {
        String buildit = splitstr[i-1] + " percent of " + splitstr[i+1];
        String done = math(buildit);
        System.out.println("Percentage operation: " + splitstr[i-1] + " percent of " + splitstr[i+1] + "=" + done);
        splitstr[i] = done;
        splitstr[i-1] = "";
        splitstr[i+1] = "";
        ArrayList<String> list = new ArrayList<String>();
        for(String s : splitstr){
            if(!s.equals("")){
                list.add(s);
            }
        }
        splitstr = list.toArray(new String[list.size()]);
        }
    }
    for(int i=0; i<splitstr.length; i++) {
        System.out.println("Get value: " + splitstr[i]);
        if(splitstr[i].indexOf("dividedby") >= 0) {
            String buildit = splitstr[i-1] + " divided by " + splitstr[i+1];
            String done = math(buildit);
            System.out.println("Division operation: " + splitstr[i-1] + " divided by " + splitstr[i+1] + "=" + done);
            splitstr[i] = done;
            splitstr[i-1] = "";
            splitstr[i+1] = "";
            ArrayList<String> list = new ArrayList<String>();
            for(String s : splitstr){
                if(!s.equals("")){
                    list.add(s);
                }
            }
            splitstr = list.toArray(new String[list.size()]);
        }
    }
    for(int i=0; i<splitstr.length; i++) {
        System.out.println("Get value: " + splitstr[i]);
        if(splitstr[i].indexOf("*") >= 0) {
            String buildit = splitstr[i-1] + " * " + splitstr[i+1];
            String done = math(buildit);
            System.out.println("Multiplication operation: "+ splitstr[i-1] + " * " + splitstr[i+1] + "=" + done);
            splitstr[i] = done;
            splitstr[i-1] = "";
            splitstr[i+1] = "";
            ArrayList<String> list = new ArrayList<String>();
            for(String s : splitstr){
                if(!s.equals("")){
                    list.add(s);
                }
            }
            splitstr = list.toArray(new String[list.size()]);
        }
    }
    for(int i=0; i<splitstr.length; i++) {
            System.out.println("Get value: " + splitstr[i]);
        if(splitstr[i].indexOf("+") >= 0) {
            String buildit = splitstr[i-1] + " + " + splitstr[i+1];
            String done = math(buildit);
            System.out.println("Addition operation: " + splitstr[i-1] + " + " + splitstr[i+1] + "=" + done);
            splitstr[i] = done;
            splitstr[i-1] = "";
            splitstr[i+1] = "";
            ArrayList<String> list = new ArrayList<String>();
            for(String s : splitstr){
                if(!s.equals("")){
                    list.add(s);
                }
            }
            splitstr = list.toArray(new String[list.size()]);
        }
    }
        for(int i=0; i<splitstr.length; i++) {
            System.out.println("Get value: " + splitstr[i]);
            if(splitstr[i].indexOf("-") >= 0) {
            String buildit = splitstr[i-1] + " - " + splitstr[i+1];
            String done = math(buildit);
            System.out.println("Subtraction operation: " + splitstr[i-1] + " - " + splitstr[i+1] + "=" + done);
            splitstr[i] = done;
            splitstr[i-1] = "";
            splitstr[i+1] = "";
            ArrayList<String> list = new ArrayList<String>();
            for(String s : splitstr){
                if(!s.equals("")){
                    list.add(s);
                }
            }
            splitstr = list.toArray(new String[list.size()]);
        }   
    }
    for(int i=0; i<splitstr.length; i++) {  
        System.out.println("Final operation: " + total + " " + splitstr[i]);
    }
    }
    return total;

}

private String math(String mathoperation) {
    // TODO Auto-generated method stub
    if(mathoperation.contains("percent of")){
        mathoperation = mathoperation.replaceAll("percent of", "%");
        int str = mathoperation.indexOf("%");
        System.out.println(str);
        fnum = mathoperation.substring(0, str-1);
        fnum = fnum.replaceAll(" ", "");
        fnum = "." + fnum;
        System.out.println(fnum);
        double intfnum = Double.parseDouble(fnum);
        System.out.println(intfnum);
        int lastind = mathoperation.length();
        System.out.println(lastind);
        lnum = mathoperation.substring(str+1, lastind);
        lnum = lnum.replaceAll(" ", "");
        System.out.println(lnum);
        double intlnum = Double.parseDouble(lnum);
        System.out.println(intlnum);
        double tot = intlnum * intfnum;
        System.out.println(tot);
        total = Double.toString(tot);
        if(total.length() == 3){
            total = total + "0";
        }
        if(total.length() > 5){
            total = total.substring(0, 4);
        }
        total = total.replace("0.", "");
        System.out.println("Total:" + total);
        } else 
    if(mathoperation.contains("-")){
        int str = mathoperation.indexOf("-");
        System.out.println(str);
        fnum = mathoperation.substring(0, str-1);
        fnum = fnum.replaceAll(" ", "");
        System.out.println(fnum);
        double intfnum = Double.parseDouble(fnum);
        System.out.println(intfnum);
        int lastind = mathoperation.length();
        System.out.println(lastind);
        lnum = mathoperation.substring(str+1, lastind);
        lnum = lnum.replaceAll(" ", "");
        System.out.println(lnum);
        double intlnum = Double.parseDouble(lnum);
        System.out.println(intlnum);
        double tot = intfnum - intlnum; 
        System.out.println(tot);
        total = Double.toString(tot);
        System.out.println(total);
        } else 
    if(mathoperation.contains("+")){
        int str = mathoperation.indexOf("+");
        System.out.println(str);
        fnum = mathoperation.substring(0, str-1);
        fnum = fnum.replaceAll(" ", "");
        System.out.println(fnum);
        double intfnum = Double.parseDouble(fnum);
        System.out.println(intfnum);
        int lastind = mathoperation.length();
        System.out.println(lastind);
        lnum = mathoperation.substring(str+1, lastind);
        lnum = lnum.replaceAll(" ", "");
        System.out.println(lnum);
        double intlnum = Double.parseDouble(lnum);
        System.out.println(intlnum);
        double tot = intfnum + intlnum; 
        System.out.println(tot);
        total = Double.toString(tot);
        System.out.println(total);
        } else 
    if(mathoperation.contains("*")){
    int str = mathoperation.indexOf("*");
    System.out.println(str);
    fnum = mathoperation.substring(0, str-1);
    fnum = fnum.replaceAll(" ", "");
    System.out.println(fnum);
    double intfnum = Double.parseDouble(fnum);
    System.out.println(intfnum);
    int lastind = mathoperation.length();
    System.out.println(lastind);
    lnum = mathoperation.substring(str+1, lastind);
    lnum = lnum.replaceAll(" ", "");
    System.out.println(lnum);
    double intlnum = Double.parseDouble(lnum);
    System.out.println(intlnum);
    double tot = intfnum * intlnum; 
    System.out.println(tot);
    total = Double.toString(tot);
    System.out.println(total);
    } else
    if(mathoperation.contains("divided by")){
    mathoperation = mathoperation.replaceAll("divided by", "/");
    int str = mathoperation.indexOf("/");
    System.out.println(str);
    fnum = mathoperation.substring(0, str-1);
    fnum = fnum.replaceAll(" ", "");
    System.out.println(fnum);
    double intfnum = Double.parseDouble(fnum);
    System.out.println(intfnum);
    int lastind = mathoperation.length();
    System.out.println(lastind);
    lnum = mathoperation.substring(str+1, lastind);
    lnum = lnum.replaceAll(" ", "");
    System.out.println(lnum);
    double intlnum = Double.parseDouble(lnum);
    System.out.println(intlnum);
    double tot = intfnum / intlnum; 
    System.out.println(tot);
    total = Double.toString(tot);
    System.out.println(total);
    } else {
        total = null;
    }
    return total;
}

}
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Why dont you wanna follow infix/postfix algorithms and evaluate those. Would be simpler and faster. –  Giorgi Sep 16 '12 at 16:07
    
Ohhh man. First of all, homework questions get the homework tag. Second of all, your approach is suboptimal, to put it mildly. Consider using a symbolic expression tree (not hard to do with inheritence). –  Wug Sep 16 '12 at 16:07
    
Is this homework? If so, add the tag. If not, use ScriptEngine. –  Andrew Thompson Sep 16 '12 at 18:51
    
not homework, this is a small part for android app I am building. I revised and added thi at the end of each operation: splitstr[i-1] = "";splitstr[i+1] = "";ArrayList<String> list = new ArrayList<String>();for(String s : splitstr){if(!s.equals("")){list.add(s);}}splitstr = list.toArray(new String[list.size()]); –  itgeek25 Sep 17 '12 at 18:25
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2 Answers

up vote 5 down vote accepted

An array is the wrong structure to represent the parsed equation. You need to have a structure that can represent the operator precedence. The typical mechanism for handling this type of problem is an abstract syntax tree. For your 10 - 10 / 5 + 3 example you would probably want to build a tree that looks like this:

 <result>
  /   \
 '-' '+'
 / \ / \
10 '/'  3
   / \
  10  5

With this type of structure with the high precedence operators lower down the tree, then you can perform a bottom up evaluation to get the correct result.

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All you have to do is convert the prefix input into postfix format. Then you can easily do the magic using an stack. I have used the command pattern to write a complete solution.

Method to convert infix to postfix

    public static List<String> infixToPostfixConvert(String input) {

    int priority = 0;
    String postfixBuffer = "";
    Stack<Character> stack = new Stack<Character>();
    List<String> postfixArray = new ArrayList<String>();

    for (int i = 0; i < input.length(); i++) {
        char ch = input.charAt(i);
        if (ch == '+' || ch == '-' || ch == '*' || ch == '/') {

            if (postfixBuffer.length() > 0) {
                postfixArray.add(postfixBuffer);
            }
            postfixBuffer = "";
            // check the precedence
            if (stack.size() <= 0)
                stack.push(ch);
            else {
                Character chTop = (Character) stack.peek();
                if (chTop == '*' || chTop == '/')
                    priority = 1;
                else
                    priority = 0;
                if (priority == 1) {
                    if (ch == '+' || ch == '-') {
                        postfixArray.add(String.valueOf(stack.pop()));
                        i--;
                    } else { // Same
                        postfixArray.add(String.valueOf(stack.pop()));
                        i--;
                    }
                } else {
                    if (ch == '+' || ch == '-') {
                        postfixArray.add(String.valueOf(stack.pop()));
                        stack.push(ch);
                    } else
                        stack.push(ch);
                }
            }
        } else {
            postfixBuffer += ch;
        }
    }
    postfixArray.add(postfixBuffer);
    int len = stack.size();
    for (int j = 0; j < len; j++)
        postfixArray.add(stack.pop().toString());

    return postfixArray;
}

Then i have another method that uses Calculator instance and pass the postfix string.

    public void calculate(Calculator cal, List<String> postFix) {

    Stack<BigDecimal> stack = new Stack<BigDecimal>();

    for ( int i = 0; i < postFix.size(); i++ ) {

        String next = postFix.get(i);

        if (next.equals("+") || next.equals("-") || next.equals("*")
                || next.equals("/")) {
            ArithmaticCalculatorCommand cmd = new ArithmaticCalculatorCommand(
                    next.charAt(0), stack.pop(), stack.pop(), cal);
            Invoker invoker = new Invoker();
            invoker.compute(cmd);
            stack.push(cal.getCurrent());
        } else if ( false ){

        }
        else
        {
            stack.push(new BigDecimal(next.trim()));
        }
    }
}

Complete Implementation

command Interface

package org.sanjaya;
public interface Command {

    public void calculate();
}

Command implementation

package org.sanjaya.impl;

import java.math.BigDecimal;

import org.sanjaya.Command;

public class ArithmaticCalculatorCommand implements Command {

    private char operator;
    private BigDecimal leftOperand;
    private BigDecimal rightOperand;
    private Calculator calculator;

    public ArithmaticCalculatorCommand( char operator, BigDecimal leftOperand, BigDecimal rightOperand, Calculator calculator ) {
        this.leftOperand = leftOperand;
        this.rightOperand = rightOperand;
        this.operator = operator;
        this.calculator = calculator;
    }

    /*
     * This method invoke the three argument operation method that is only used for arithmetic calculations.
     * @param operator
     * @param leftOperand
     * @param rightOperand   * 
     * @see org.sanjaya.Command#calculate()
     */
    public void calculate() {
        calculator.operation( operator, leftOperand, rightOperand );        
    }   
}

Calculator Class( Reciever)

package org.sanjaya.impl;

import java.math.BigDecimal;

public class Calculator {

    private static Calculator calculator;   
    private BigDecimal current = new BigDecimal( 0 );

    private Calculator()
    {

    }

    public static Calculator getInstance()
    {
        if ( calculator == null )
        {
            calculator = new Calculator();
        }
        return calculator;
    }

    /*
     * This method calculate current value for any number of calculation operations.
     * Currently following operations are supported
     * +,-,*,/
     * 
     * @param operator
     * @param leftOperand
     * @param rightOperand
     *  
     */
    public void operation( char operator, BigDecimal leftOperand, BigDecimal rightOperand )
    {       
        switch ( operator )
        {
        case '+':
            current = leftOperand.add( rightOperand );
            break;
        case '-':
            current = rightOperand.subtract( leftOperand );
            break;
        case '/':
            current = rightOperand.divide(leftOperand);
            break;
        case '*':
            current = leftOperand.multiply( rightOperand );
            break;
        default:
            break;
        }       
    }

    public BigDecimal getCurrent() {
        return current;
    }

    public void setCurrent(BigDecimal current) {
        this.current = current;
    }

}

Invoker Class

package org.sanjaya.impl;

import java.math.BigDecimal;

import org.sanjaya.Command;
public class Invoker {

    public void compute( Command command )
    {
        command.calculate();
    }   
}

Client Class

package org.sanjaya.impl;

import java.math.BigDecimal;
import java.util.ArrayList;
import java.util.List;
import java.util.Scanner;
import java.util.Stack;
import java.util.logging.Logger;
public class CalculatorParser {

    public static Logger logger = Logger.getLogger( "Calculator_Logger" );

    public static void main( String a [] )
    {
        new CalculatorParser().start();
    }

    /*
     * This is the starting point of the program. It receives input from the command line 
     * and process them further and sends to calculate function. At the end this method 
     * displays the calculated result.
     */
    public void start()
    {
        Scanner scanner = new Scanner( System.in );
        logger.info("\n\t Please input expression to calculate::");

        String line = scanner.nextLine();
        List<String> postfixString = CalculatorParser.infixToPostfixConvert( line );
        Calculator calculator = Calculator.getInstance();
        calculator.setCurrent( new BigDecimal( 0 ) );

        calculate( calculator, postfixString );

        logger.info("Result is " + calculator.getCurrent() );
    }

    /*
     * This method keeps a stack to process postfix version of the input and execute the right command implementation.
     * Currently this method supports for arithmetic command calculations only.
     * @param Cal
     * @param postFix
     */
    public void calculate(Calculator cal, List<String> postFix) {

        Stack<BigDecimal> stack = new Stack<BigDecimal>();

        for ( int i = 0; i < postFix.size(); i++ ) {

            String next = postFix.get(i);

            if (next.equals("+") || next.equals("-") || next.equals("*")
                    || next.equals("/")) {
                ArithmaticCalculatorCommand cmd = new ArithmaticCalculatorCommand(
                        next.charAt(0), stack.pop(), stack.pop(), cal);
                Invoker invoker = new Invoker();
                invoker.compute(cmd);
                stack.push(cal.getCurrent());
            } else if ( false ){

            }
            else
            {
                stack.push(new BigDecimal(next.trim()));
            }
        }
    }

    /*
     * This method convert the infix into postfix in order to proceed in the calculation.
     * @param input 
     */
    public static List<String> infixToPostfixConvert(String input) {

        int priority = 0;
        String postfixBuffer = "";
        Stack<Character> stack = new Stack<Character>();
        List<String> postfixArray = new ArrayList<String>();

        for (int i = 0; i < input.length(); i++) {
            char ch = input.charAt(i);
            if (ch == '+' || ch == '-' || ch == '*' || ch == '/') {

                if (postfixBuffer.length() > 0) {
                    postfixArray.add(postfixBuffer);
                }
                postfixBuffer = "";
                // check the precedence
                if (stack.size() <= 0)
                    stack.push(ch);
                else {
                    Character chTop = (Character) stack.peek();
                    if (chTop == '*' || chTop == '/')
                        priority = 1;
                    else
                        priority = 0;
                    if (priority == 1) {
                        if (ch == '+' || ch == '-') {
                            postfixArray.add(String.valueOf(stack.pop()));
                            i--;
                        } else { // Same
                            postfixArray.add(String.valueOf(stack.pop()));
                            i--;
                        }
                    } else {
                        if (ch == '+' || ch == '-') {
                            postfixArray.add(String.valueOf(stack.pop()));
                            stack.push(ch);
                        } else
                            stack.push(ch);
                    }
                }
            } else {
                postfixBuffer += ch;
            }
        }
        postfixArray.add(postfixBuffer);
        int len = stack.size();
        for (int j = 0; j < len; j++)
            postfixArray.add(stack.pop().toString());

        return postfixArray;
    }
}
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