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I have String input with a sin (b(x-c)) + d as its format. What is the delimiter expression I should use to split it so that I can use Integer.parse to obtain the numerical values for a, b, c and d?

So, if string input is

sin 5x                   a=1, b=5, c=d=0
sin 5(x-4)               a=1, b=5, c=4, d=0
2  sin 3(x-2)           a=2, b=3, c=2, d=0
sin 5x + 3               a=1, b=5, c=0, d=3
4  sin 7(x+6) + 2       a=4, b=7, c=-6, d=2
11  sin 2x              a=11, b=2, c=d=0
share|improve this question
Is the format variable? Or this is the only format you want to parse? –  peter.petrov Jan 18 at 8:48
string input may be sin 5x only, thus a = 1, c = d = 0 –  Ralf17 Jan 18 at 8:50
a = c = d = 0 makes the whole expression 0 not sin 5x –  peter.petrov Jan 18 at 8:51
you need to define in your question all the possible variants of this expression –  peter.petrov Jan 18 at 8:52
You need a Scanner class and the next int function. I'll write something up if I can get in my laptop today. –  Pureferret Jan 18 at 9:29

2 Answers 2

up vote 1 down vote accepted

I think you need a small parser for this. I don't think you can
do it with regexp only but I haven't tried to prove that rigorously.
Try this code. I haven't tested it on all your inputs though but it
should give you an idea.

public class Test002 {

    // private static String s = " 10 sin 5 ( x - 4 ) - 14 ";

    // private static String s = " 10 sin 2x ";

    private static String s = " -4  sin -7 (x+6) - 2 ";

    private static int i = 0;

    public static void main(String[] args){
        String str = s.replaceAll(" ", "");
        s = str;

    private static void parseExpr(){

    private static void parseSinArgument(){
        if (s.charAt(i) == '('){

    private static void parseA(){
        int j = i;
        while (s.charAt(i) != 's') i++;
        System.out.println("A=[" + getToken(j, i) + "]");
        // stay at the 's' now!

    private static void parseSin(){
        int j = i;
        while (s.charAt(i) != 'n') i++;
        // move past the 'n' now!

    private static void parseB(){
        int j = i;
        while ( s.charAt(i) == '-' || Character.isDigit( s.charAt(i) )) i++;
        System.out.println("B=[" + getToken(j, i) + "]");

    private static void parseOpenBracket(){
        int j = i;
        System.out.println("OPEN_BRACKET=[" + getToken(j, i) + "]");

    private static void parseX(){
        int j = i;
        while (s.charAt(i) != 'x') i++;
        System.out.println("X=[" + getToken(j, i) + "]");

    private static void parseC(){
        int j = i;
        while (s.charAt(i) != ')') i++;
        System.out.println("C=[" + getToken(j, i) + "]");

    private static void parseCloseBracket(){
        int j = i;
        System.out.println("CLOSE_BRACKET=[" + getToken(j, i) + "]");

    private static void parseD(){
        int j = i;
        while (i<s.length()) i++;
        System.out.println("D=[" + getToken(j, i) + "]");

    private static String getToken(int i1, int i2){
        String str = s.substring(i1, i2);
        str = str.replaceAll(" ", "");
        return str.trim();

share|improve this answer
Thanks, I'll just modify the code if input function has 0 c (i.e. sin 5x, sin 7x + 2, etc). But this is a good basis. –  Ralf17 Jan 18 at 9:29
But it is totally restricted to exactly this format of the formular And I guess this is wath peter.petrov wanted to demonstrate. –  Peter Jan 18 at 9:32
@Ralf17 this a bad answer as it's going to be very prone to failing if the input changes. The other Peter's answer is a much better starting point to learn how do answer this –  Pureferret Jan 18 at 9:37
@Pureferret What I was thinking of is how to parse that given format, and the use of delimiters is the only way I could think of at that time. So I asked how to use it to parse the input. Both answers may be correct but this one is within the scope of my understanding (I do not know how to build AST yet) –  Ralf17 Jan 18 at 9:42
@Ralf17 I updated my code fixing a few bugs. I think this covers all the formats you need now (including c=0 and c!=0 and the presence/absence of brackets there). Before parsing, I get rid of all spaces, as I don't need them. –  peter.petrov Jan 18 at 9:53

Puh. Whenever you are using strings to provide abstract contextes such as mathematical
functions, you should consider writing:
A TokenScanner, which identifies tokens such as in your case:
function name 'sin',
operators '(', ')', '+'
constant tokens 1, 2, 5.
After token has been extracted from the string, you can start building an AST( abstract
syntax tree).
By evaluating this tree you can then perform your caluclation.

See, if you got the numbers out of the formulas you postet above, which steps would you
take further? Operators, numbers and even the function name itself can be at
different places in your formular leaving you with an very complex analyzing on the string itself otherwise.
Building a token scanner is simple.
Building the AST seems to be more complicated, but isn't in this case, because the grammar
of your expressions is not too complex.
So instead of analyzing the whole string against the kind of expressions you are expecting,
you are concentrated on how symbols are related to each other. E.g. sin(3 + (2 +4)).
Gives you an AST of the form:
function 'sin'
operator '('
const_value 3
operator +
operator '('
const_value 2
operator '+'
const_value 4
operator ')'
operator ')'.
You can then traverse that tree for the innermost expressions, evaluate them and
resubstitute the result of it. You know that each function - call creates a new scope
and also every opening round bracket.
So it's not hard to detect, which one are the innermost ones. The TokenScanner could basically be of the form:
Read the first char in the string, compare against the list of token, when it matches,
build an object of that token type, read the next token , build an Object of that Token,
link the both tokens e.g. via first and next - pointers and so on.
To get an basic idea:

public class TokenScanner {
    public TokenScanner() { }
    public Token scan(String input) {
      Token root = new Token();
      Token prevToken = null;

      for(int i = 0; i < input.length(),i++) {
      Token newToken = null;
      char c = input.getCharAt(i);

      switch(c) {
        case 's': //** s is the start of the word sin, and not used in other contexts in this example, so: **/
        newToken = new FunctionToken();
        case '(':
          newToken = new Expression();
        case ')':
          newToken = new Expression();
      if(prevToken == null) { 
        root->next = newToken;
        newToken->prev = root;
      else {
        newToken->prev = prevToken;
        prevToken->next = newToken;

      return root;

public class Token() {
    public Token prev;
    public Token next;
    public int TOKEN_TYPE = 0;

    public Token() {

public class FunctionToken extends Token {
  static public int TOKEN_TYPE = 1;

public class Expression extends Token {

public class TokenTreeVisitor {
    public void traverse(Token currentToken) {
    switch(currentToken.TOKEN_TYPE) {
      case 1:
        enter((FunctionToken) currentToken);

Though there is an interpreting of tokens already in this, so you should propably change Expression to OpenBracketToken and ClosingBracketToken for the tokenScanner. But it shows how you can get from the tokens to expressions and the expressions you can evaluate.
This again is a process of checking if an expression contains subexpressions. If there
are any, process to that subexpression. If not, evaluate the subexpression and replace
that expression in that tree with the result.
Original subexpression (5 + (1 + 7))
Expression exp only containing const_value (1) , operator '+', const_value (7).
Evalute it by Int.parse(1) + INt.parse(7),

class ExpressionResult extends Expression {
     public int result;

result = new ExpressionResult(); result->result = 8;
exp->prev->next = result; result->prev = exp->prev; result->next =  exp->next;

Scan again and substitute recursive.
exp2 now is const_value (5) + operator '+' + expression_result(8)

So you can Int.parse(5) + exp2->next->result;

and so on. Quiet trivial, isn't it? ;)

share|improve this answer
please format your answer! It's almost unreadable as written. –  Alnitak Jan 18 at 9:38
I'd say this is only half right. Constructing an AST is a good idea, but the OP's problem is not evaluating the subsequent AST but canonicalising it. –  Alnitak Jan 18 at 9:49
As included in the example. –  Peter Jan 18 at 11:08

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