# Implement modulo operator in calculator program

Here is my code so far:

``````public class Token {
// Data:
private String type = "";
private String name = "";
private double value = 0;

// Constructors:
public Token() { this( "" ); }
public Token( String t ) { this( t, 0 ); }
public Token( String t, double v ) { this( t, t, v ); }
public Token( String t, String n, double v ) {
type = t; name = n; value = v;
}

// Methods:
public String getType( ) { return type;}
public String getName( ) { return name;}
public double getValue( ) { return value; }
public String toString( ) { return (" type="+type+" name="+name+" value="+value);}
}
import java.util.*;

public class Memory {

private HashMap<String, Double> map;

/** Creates new Memory */
public Memory() {
map = new HashMap<String, Double>();
}

public void store(String name, double value) {
map.put(name, new Double(value));
}

public double fetch(String name) {
Double x = (Double)map.get(name);
if (x == null) return 0;
return x.doubleValue();
}
}

public class Evaluator {
private double value;
private static EvalTokenizer str;
private static Memory mem = new Memory();

public Evaluator( String s ) {
str = new EvalTokenizer( s );
value = evaluate();
}

public double getValue() {
return value;
}
public void storeCurrentValue(int line) {
mem.store("\$"+line, value);
}
private double evaluate() {
return evalStatement(str.getToken());
}

private double evalStatement(Token firstToken) {
/* <statement> ::= <var> = <expression>
| <expression>
*/
String s = firstToken.getType();
// if (s.equals("goto")) return 0;
if (s.equals("_id") && (str.peekToken().getType()).equals("=")) {
// <statement> ::= <var> = <expression>
str.getToken();
double x = evalExpression(str.getToken());
mem.store(firstToken.getName(), x);
return x;
}
return evalExpression(firstToken);
}

private double evalExpression(Token firstToken) {
/* <expression> ::= <term>
| <expression> + <term>
| <expression> - <term>
*/
double x = evalTerm(firstToken);
while (true) {
String op = str.peekToken().getType();
if (op.equals("+") || op.equals("-")) {
str.getToken(); // skip "+" or "-"
double y = evalTerm(str.getToken());
if (op.equals("+")) x += y;
else x -= y;
} else
return x;
}
}

private double evalTerm(Token firstToken) {
/* <term> ::= <factor>
| <term> * <factor>
| <term> / <factor>
*/
double x = evalFactor(firstToken);
while (true) {
String op = str.peekToken().getType();
if (op.equals("*") || op.equals("/") {
str.getToken(); // skip "*" or "/"
double y = evalFactor(str.getToken());
if (op.equals("*")) x = x*y;
else x= x/y;

} else return x;

}
}

private double evalFactor(Token firstToken) {
/* <factor> ::= ( <expression> )
| + <factor>
| - <factor>
| <variable>
| ++ <variable>
| -- <variable>
| <number>
*/
String t = firstToken.getType();

if (t.equals("(")) {
// <factor> ::= ( <expression> )
double x = evalExpression(str.getToken());
String nex = str.getToken().getType();
if (!nex.equals(")")) throw new ArithmeticException("bad expression" );
return x;
}

// <factor> ::= + <factor> | - <factor>
if (t.equals("+")) return (evalFactor(str.getToken()));
if (t.equals("-")) return (-evalFactor(str.getToken()));

// <factor> ::= <number>
if (t.equals("_num")) return firstToken.getValue();

// <factor> ::= <variable>
if (t.equals("_id")) return mem.fetch(firstToken.getName());

if (t.equals("++") || t.equals("--")) {
// <factor> ::= ++ <variable> | -- <variable>
firstToken = str.getToken();
if ((firstToken.getType()).equals("_id")) {
double x = mem.fetch(firstToken.getName());
if (t.equals("++")) {
mem.store(firstToken.getName(), x+1);
return x+1;
} else {
mem.store(firstToken.getName(), x-1);
return x-1;
}
}
}

}
}
import java.util.StringTokenizer;

public class EvalTokenizer {
// Data:
private StringTokenizer str;
private Token nextToken = new Token();

public EvalTokenizer( String line ) {
str = new StringTokenizer(line, "+*-/().<>!=%,|& ", true);
getToken();
}

public Token peekToken() { return nextToken; }

/**
* A token is either a number literal (integer or double), an identifier, or special symbols
* getToken finds the next token, skipping blanks, and return it.
* For _int or _double token, place the processed value in value.
* For _id, place the name of the identifier in name.
* Throw ArithmeticException if input is unrecognized.
*/
public Token getToken( ) throws ArithmeticException {

static boolean isVariable(String id) {

}
Token result = nextToken;
nextToken = getNextToken();
String t1 = result.getType();
String t2 = nextToken.getType();

// handle floating numbers
if (t1.equals("_num") && t2.equals(".")) {
nextToken = getNextToken();
t2 = nextToken.getType();
if (!t2.equals("_num")) throw new ArithmeticException("number format error" );
t2 = nextToken.getName();
double x = result.getValue()+nextToken.getValue()*Math.pow(10.0, -t2.length());
nextToken = getNextToken();
return new Token("_num", "", x);
}

if (t1.equals("\$")) {
if (t2.equals("_int")) {
double x = nextToken.getValue();
nextToken = getNextToken();
return new Token("_dollar", x);
} else
throw new ArithmeticException("dollar variable format error" );
}

if (t1.equals("+")) {
if (t2.equals("+")) { nextToken = getNextToken(); return new Token("++"); }
}

if (t1.equals("-")) {
if (t2.equals("-")) { nextToken = getNextToken(); return new Token("--"); }
}

if (t2.equals("=")) {
if (t1.equals(">")) { nextToken = getNextToken(); return new Token(">="); }
if (t1.equals("<")) { nextToken = getNextToken(); return new Token("<="); }
if (t1.equals("=")) { nextToken = getNextToken(); return new Token("=="); }
}
System.out.println("token = "+result);
return result;
}

private Token getNextToken() throws ArithmeticException {
long theValue;
// Return a default empty token when no more tokens in str.
if( !str.hasMoreTokens()) return new Token();

String s = str.nextToken( );
if( s.equals( " " ) ) return getNextToken();

char c = s.charAt(0);
if ('0' <= c && c <= '9') {  // numbers
try { theValue = Long.parseLong( s ); }
catch( NumberFormatException e ) {
throw new ArithmeticException("number format error" );
}
return new Token( "_num", s, theValue);
}

if ('A' <= c && c <= 'Z' || 'a' <= c && c <= 'z' || c == '\$') // identifiers
return new Token( "_id", s, 0);

return new Token( s, s, 0 );
}

}
import java.io.IOException;

public class Calculator {
/**
* Simple main to exercise Evaluator class.
*/
public static void main( String [ ] args )
{
String str;
int line = 1;
System.out.print( "Enter expressions, one per line:\nline 1: " );

while (true) {
try {
if (str == null) continue;
if (str.equals("quit")) break;
Evaluator ev = new Evaluator( str );
System.out.println( "line " + line + " result >>> " + ev.getValue( ) );
ev.storeCurrentValue(line);

line++;
System.out.print( "line "+line+": " );
}
catch( IOException e ) {
System.err.println( e );
System.out.print( "line "+line+": " );
}
catch (ArithmeticException e) {
System.err.println( e );
System.out.print( "line "+line+": " );
}
} // end while

System.out.println("Goodbye.");
} // end main
}
``````

I need to edit this block of the code to implement the % operator:

``````private double evalTerm(Token firstToken) {
/* <term> ::= <factor>
| <term> * <factor>
| <term> / <factor>
*/
double x = evalFactor(firstToken);
while (true) {
String op = str.peekToken().getType();
if (op.equals("*") || op.equals("/") {
str.getToken(); // skip "*" or "/"
double y = evalFactor(str.getToken());
if (op.equals("*")) x = x*y;
else x= x/y;

} else return x;

}
}
``````

I have tried this, but for some reason it isn't working even though % is part of my tokens:

``````private double evalTerm(Token firstToken) {
/* <term> ::= <factor>
| <term> * <factor>
| <term> / <factor>
*/
double x = evalFactor(firstToken);
while (true) {
String op = str.peekToken().getType();
if (op.equals("*") || op.equals("/") || op.equals("%")) || {
str.getToken(); // skip "*" or "/"
double y = evalFactor(str.getToken());
if (op.equals("*")) x = x*y;
if (op.equals("/")) x= x/y;
else x = x%y;
} else return x;

}
}
``````

What am I doing wrong and how can I fix it?

-
Well `evalTerm` certainly doesn't compile (syntax errors) so why not give us your real code, or preferably a stripped down subset of the code that demonstrates the problem behaviour? –  Mark Peters Nov 10 '10 at 21:17
You have an extra or operator, '||', just after 'op.equals("%"))'. Is that a typo in the question or your code? –  corriganjc Nov 10 '10 at 21:17
Can you elaborate on what is not working? Do you get an error? –  Alan Geleynse Nov 10 '10 at 21:17
I notice you have `import java.util.*;` after a class declaration, and other `import` statements throughout the code. That's not legal; `import` statements have to go up top, right after the `package` declaration. –  Pops Nov 10 '10 at 21:25
You've included quite a lot of code. If at all possible, please cut out parts of the code that you know aren't related to your error, so it's easier for us to figure out what's going on. –  Pops Nov 10 '10 at 21:28

``````if (op.equals("*")) x = x*y;
if (op.equals("/")) x= x/y;
else x = x%y;
``````

i think you mean to have an `else if` on the second line ie

``````if (op.equals("*")) x = x*y;
else if (op.equals("/")) x= x/y;
else x = x%y;
``````
-

The code below should work for you:

``````    private double evalTerm(Token firstToken) {
/* <term> ::= <factor>
| <term> * <factor>
| <term> / <factor>
| <term> % <factor>
*/
double x = evalFactor(firstToken);
while (true) {
String op = str.peekToken().getType();
if (op.equals("*") || op.equals("/") || op.equals("%")) {
str.getToken(); // skip "*" or "/"
double y = evalFactor(str.getToken());
if (op.equals("*")) {
x = x*y;
} else if (op.equals("/")) {
x = x/y;
}
else x= x%y;

} else return x;

}
}
``````

There were two issues. Firstly you had a syntax error in the outer if statement. Secondly, the inner if statement had a logic error. Without the else before if (op.equals("/")) it would be match twice for '*' first as x*y and then as x%y giving '(x*y)%y'.

-

The code works fine for me once all the (four or so) syntax errors are fixed. However, you will want to chain those if statements, otherwise the * operator matches also the % operator:

``````if (op.equals("*")) x = x * y;
**else** if (op.equals("/")) x = x / y;
else x = x % y;
``````

Here is the output of finding 11 % 4, which is 3 (11 = 2 * 4 + 3).

``````Enter expressions, one per line:
line 1: 11 % 4
token =  type= name= value=0.0
token =  type=_num name=11 value=11.0
token =  type=% name=% value=0.0
token =  type=_num name=4 value=4.0
line 1 result >>> 3.0
line 2:
``````
-