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I am building a simple GUI java calculator. I have issue finding a package or figuring out a method to do the actual calulaiton. So far i've figured that when i do a math operation, the number in the text box gets saved in a temp location. Then when i click on the "=" button, it will do the caluclation, but i dont know how to tell it to take the temp plus the math operation and the second number and do the calulation based on the selected math operation clicked +, -, *, /

import java.awt.*;
import java.awt.event.*;
import javax.swing.*;
import java.util.*;

public class JavaCalculator extends JFrame {
    private JButton jbtNum1;
        private JButton jbtNum2;
        private JButton jbtNum3;
        private JButton jbtNum4;
        private JButton jbtNum5;
        private JButton jbtNum6;
        private JButton jbtNum7;
        private JButton jbtNum8;
        private JButton jbtNum9;
        private JButton jbtNum0;
    private JButton jbtEqual;
        private JButton jbtAdd;
        private JButton jbtSubtract;
        private JButton jbtMultiply;
        private JButton jbtDivide;
        private JButton jbtSolve;
        private JButton jbtClear;
        private double TEMP;
        private double SolveTEMP;
    private JTextField jtfResult;
    String display = "";

    public JavaCalculator() {
        JPanel p1 = new JPanel();
        p1.setLayout(new GridLayout(4, 3));
        p1.add(jbtNum1 = new JButton("1"));
        p1.add(jbtNum2 = new JButton("2"));
        p1.add(jbtNum3 = new JButton("3"));
        p1.add(jbtNum4 = new JButton("4"));
        p1.add(jbtNum5 = new JButton("5"));
        p1.add(jbtNum6 = new JButton("6"));
        p1.add(jbtNum7 = new JButton("7"));
        p1.add(jbtNum8 = new JButton("8"));
        p1.add(jbtNum9 = new JButton("9"));
        p1.add(jbtNum0 = new JButton("0"));
        p1.add(jbtClear = new JButton("C"));


        JPanel p2 = new JPanel();
        p2.setLayout(new FlowLayout());
        p2.add(jtfResult = new JTextField(20));
        jtfResult.setHorizontalAlignment(JTextField.RIGHT);
        jtfResult.setEditable(false);

                JPanel p3 = new JPanel();
                p3.setLayout(new GridLayout(5, 1));
                p3.add(jbtAdd = new JButton("+"));
                p3.add(jbtSubtract = new JButton("-"));
                p3.add(jbtMultiply = new JButton("*"));
                p3.add(jbtDivide = new JButton("/"));
                p3.add(jbtSolve = new JButton("="));

        JPanel p = new JPanel();
        p.setLayout(new GridLayout());
        p.add(p2, BorderLayout.NORTH);
        p.add(p1, BorderLayout.SOUTH);
        p.add(p3, BorderLayout.EAST);


        add(p);

        jbtNum1.addActionListener(new ListenToOne());
        jbtNum2.addActionListener(new ListenToTwo());
        jbtNum3.addActionListener(new ListenToThree());
                jbtNum4.addActionListener(new ListenToFour());
        jbtNum5.addActionListener(new ListenToFive());
        jbtNum6.addActionListener(new ListenToSix());
        jbtNum7.addActionListener(new ListenToSeven());
        jbtNum8.addActionListener(new ListenToEight());
        jbtNum9.addActionListener(new ListenToNine());
        jbtNum0.addActionListener(new ListenToZero());

        jbtAdd.addActionListener(new ListenToAdd());
        jbtSubtract.addActionListener(new ListenToSubtract());
        jbtMultiply.addActionListener(new ListenToMultiply());
        jbtDivide.addActionListener(new ListenToDivide());
        jbtSolve.addActionListener(new ListenToSolve());



    } //JavaCaluclator()

    class ListenToOne implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "1");
        }
    }
    class ListenToTwo implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "2");
        }
    }
    class ListenToThree implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "3");
        }
    }
    class ListenToFour implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "4");
        }
    }
    class ListenToFive implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "5");
        }
    }
    class ListenToSix implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "6");
        }
    }
    class ListenToSeven implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "7");
        }
    }
    class ListenToEight implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "8");
        }
    }
    class ListenToNine implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "9");
        }
    }
    class ListenToZero implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "0");
        }
    }

        class ListenToAdd implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            TEMP = Double.parseDouble(jtfResult.getText());
                        jtfResult.setText("");

        }
    }
    class ListenToSubtract implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "0");
        }
    }
    class ListenToMultiply implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "0");
        }
    }
    class ListenToDivide implements ActionListener {
        public void actionPerformed(ActionEvent e) {
            display = jtfResult.getText();
            jtfResult.setText(display + "0");
        }
    }
    class ListenToSolve implements ActionListener {
        public void actionPerformed(ActionEvent e) {
                        SolveTEMP = jtfResult.getText();
            jtfResult.setText(TEMP + Double.parseDouble(jtfResult);
        }
    }

    public static void main(String[] args) {
        // TODO Auto-generated method stub
        JavaCalculator calc = new JavaCalculator();
        calc.pack();
        calc.setLocationRelativeTo(null);
                calc.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
        calc.setVisible(true);
    }

} //JavaCalculator
share|improve this question

closed as too localized by Stefan Steinegger, user714965, Aleksandr M, Troy Alford, mrk Mar 25 '13 at 17:06

This question is unlikely to help any future visitors; it is only relevant to a small geographic area, a specific moment in time, or an extraordinarily narrow situation that is not generally applicable to the worldwide audience of the internet. For help making this question more broadly applicable, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

1  
What's your question? –  duffymo Nov 28 '10 at 19:57
    
How do i program the = button so it can do the calcualtion? –  Carlos_Gomez Nov 28 '10 at 19:59
1  
You should use an array of buttons; that will cut your code size by something like 70%. –  SLaks Nov 28 '10 at 20:04
    
right now im trying to make it work, not trying to be efficient... –  Carlos_Gomez Nov 28 '10 at 20:05
    
possible duplicate of [Java different Calculator basic functions problem???? ](stackoverflow.com/questions/4295293/…) –  Ken Bloom Nov 28 '10 at 20:07

4 Answers 4

this is the working code ....

import java.awt.*;
import java.awt.event.*;
import javax.swing.*;
import java.util.*;

public class JavaCalculator extends JFrame {
    private JButton jbtNum1;
    private JButton jbtNum2;
    private JButton jbtNum3;
    private JButton jbtNum4;
    private JButton jbtNum5;
    private JButton jbtNum6;
    private JButton jbtNum7;
    private JButton jbtNum8;
    private JButton jbtNum9;
    private JButton jbtNum0;
    private JButton jbtEqual;
    private JButton jbtAdd;
    private JButton jbtSubtract;
    private JButton jbtMultiply;
    private JButton jbtDivide;
    private JButton jbtSolve;
    private JButton jbtClear;
    private double TEMP;
    private double SolveTEMP;
private JTextField jtfResult;

Boolean addBool = false ;
Boolean subBool = false ;
Boolean divBool = false ;
Boolean mulBool = false ;


String display = "";

public JavaCalculator() {
    JPanel p1 = new JPanel();
    p1.setLayout(new GridLayout(4, 3));
    p1.add(jbtNum1 = new JButton("1"));
    p1.add(jbtNum2 = new JButton("2"));
    p1.add(jbtNum3 = new JButton("3"));
    p1.add(jbtNum4 = new JButton("4"));
    p1.add(jbtNum5 = new JButton("5"));
    p1.add(jbtNum6 = new JButton("6"));
    p1.add(jbtNum7 = new JButton("7"));
    p1.add(jbtNum8 = new JButton("8"));
    p1.add(jbtNum9 = new JButton("9"));
    p1.add(jbtNum0 = new JButton("0"));
    p1.add(jbtClear = new JButton("C"));


    JPanel p2 = new JPanel();
    p2.setLayout(new FlowLayout());
    p2.add(jtfResult = new JTextField(20));
    jtfResult.setHorizontalAlignment(JTextField.RIGHT);
    jtfResult.setEditable(false);

            JPanel p3 = new JPanel();
            p3.setLayout(new GridLayout(5, 1));
            p3.add(jbtAdd = new JButton("+"));
            p3.add(jbtSubtract = new JButton("-"));
            p3.add(jbtMultiply = new JButton("*"));
            p3.add(jbtDivide = new JButton("/"));
            p3.add(jbtSolve = new JButton("="));

    JPanel p = new JPanel();
    p.setLayout(new GridLayout());
    p.add(p2, BorderLayout.NORTH);
    p.add(p1, BorderLayout.SOUTH);
    p.add(p3, BorderLayout.EAST);


    add(p);

    jbtNum1.addActionListener(new ListenToOne());
    jbtNum2.addActionListener(new ListenToTwo());
    jbtNum3.addActionListener(new ListenToThree());
    jbtNum4.addActionListener(new ListenToFour());
    jbtNum5.addActionListener(new ListenToFive());
    jbtNum6.addActionListener(new ListenToSix());
    jbtNum7.addActionListener(new ListenToSeven());
    jbtNum8.addActionListener(new ListenToEight());
    jbtNum9.addActionListener(new ListenToNine());
    jbtNum0.addActionListener(new ListenToZero());

    jbtAdd.addActionListener(new ListenToAdd());
    jbtSubtract.addActionListener(new ListenToSubtract());
    jbtMultiply.addActionListener(new ListenToMultiply());
    jbtDivide.addActionListener(new ListenToDivide());
    jbtSolve.addActionListener(new ListenToSolve());
    jbtClear.addActionListener(new ListenToClear());



} //JavaCaluclator()

class ListenToClear implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        //display = jtfResult.getText();
        jtfResult.setText("");
        addBool = false ;
        subBool = false ;
        mulBool = false ;
        divBool = false ;

        TEMP = 0;
        SolveTEMP =0 ;
    }
}

class ListenToOne implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "1");
    }
}
class ListenToTwo implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "2");
    }
}
class ListenToThree implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "3");
    }
}
class ListenToFour implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "4");
    }
}
class ListenToFive implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "5");
    }
}
class ListenToSix implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "6");
    }
}
class ListenToSeven implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "7");
    }
}
class ListenToEight implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "8");
    }
}
class ListenToNine implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "9");
    }
}
class ListenToZero implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        display = jtfResult.getText();
        jtfResult.setText(display + "0");
    }
}

    class ListenToAdd implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        TEMP = Double.parseDouble(jtfResult.getText());
                    jtfResult.setText("");
                    addBool = true ;

    }
}
class ListenToSubtract implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        TEMP = Double.parseDouble(jtfResult.getText());
        jtfResult.setText("");
        subBool =true;
    }
}
class ListenToMultiply implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        TEMP = Double.parseDouble(jtfResult.getText());
        jtfResult.setText("");
        mulBool =true;

    }
}
class ListenToDivide implements ActionListener {
    public void actionPerformed(ActionEvent e) {
        TEMP = Double.parseDouble(jtfResult.getText());
        jtfResult.setText("");
        divBool =true;
    }
}
class ListenToSolve implements ActionListener {
    public void actionPerformed(ActionEvent e) {
                    SolveTEMP = Double.parseDouble(  jtfResult.getText() );
                    if ( addBool == true  )
                        SolveTEMP = SolveTEMP + TEMP;

                    else if ( subBool == true  )
                        SolveTEMP = SolveTEMP - TEMP;
                    else if ( mulBool == true  )
                        SolveTEMP = SolveTEMP * TEMP;
                    else if ( divBool == true  )
                        SolveTEMP = SolveTEMP / TEMP;
        jtfResult.setText(  Double.toString( SolveTEMP ) );

        addBool = false ;
        subBool = false ;
        mulBool = false ;
        divBool = false ;


    }
}

public static void main(String[] args) {
    // TODO Auto-generated method stub
    JavaCalculator calc = new JavaCalculator();
    calc.pack();
    calc.setLocationRelativeTo(null);
            calc.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
    calc.setVisible(true);
}

} //JavaCalculator
share|improve this answer

Somewhere you have to keep track of what button had been pressed. When things happen, you need to store something in a variable so you can recall the information or it's gone forever.

When someone pressed one of the operator buttons, don't just let them type in another value. Save the operator symbol, then let them type in another value. You could literally just have a String operator that gets the text of the operator button pressed. Then, when the equals button is pressed, you have to check to see which operator you stored. You could do this with an if/else if/else chain.

So, in your symbol's button press event, store the symbol text in a variable, then, in the = button press event, check to see which symbol is in the variable and act accordingly.

Alternatively, if you feel comfortable enough with enums (looks like you're just starting, so if you're not to that point yet, ignore this), you could have an enumeration of symbols that lets you check symbols easily with a switch.

share|improve this answer

What you need is something that calculates the result of the infix notated calculation, have a look at the Shunting-Yard Algorithm.

There's an example in C++ on Wikipedia's page, but it shouldn't be too hard to implement it in Java.
And since it's the primary function of your calculator, I would advise you to not grab some codez from the Web in this Case (except all you want to do is building calculator GUIs).

share|improve this answer

//assuming that string1 is ur whole operation

use mdas

double result;
string recurAndCheck(string operation){
if(operation.indexOf("/")){
 String leftSide = recurAndCheck(operation.split("/")[0]);
 string rightSide = recurAndCheck(operation.split("/")[1]);
 result = Double.parseDouble(leftSide)/Double.parseDouble(rightSide);

}else if(..continue w/ *...){
  //same as above but change / with *

}else if(..continue w/ -){ //change as above but change with - }else if(..continuew with +){ //change with add }else{ return; } }

share|improve this answer

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