# DDMathParser: Parsing formulas which contain if statements

I have started to implement `DDMathParser` in my current project and I use this framework to calculate the results of formulas in combination with variables given in a dictionary (variable substitution).

Would it be possible to use something like `if` statements in the formulas, e.g. "`if (\$a > 0) { \$b / \$c } else {\$b * 1000}`?

I assume that `if` statements could be created in a similar way than new functions (as described in the DDMathParser Wiki). If this would be the case, I would be glad if someone could show me how to do this.

Any ideas or hints on how to use `if` statements in `DDMathParser`?

Thank you!

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`DDMathParser` author here...

This isn't really possible, but not for the reason you think. `DDMathParser` can parse `if` just fine. It's the curly braces it would have issues with. You could maybe do:

``````if (\$a > 0) (\$b / \$c) else (\$b * 1000)
``````

This would be parsed as:

``````if(\$a > 0) * (\$b / \$c) * else(\$b *1000)
``````

Which is `NSLogged` as:

``````multiply(multiply(if(l_gt(\$a,0)),divide(\$b,\$c)),else(multiply(\$b,1000)))
``````

So, you could do it, but it would be a total pain to try and handle the scoping yourself. I think it'd probably be easier to pre-parse the string into various parts:

``````if (\$a > 0) => if(l_get(\$a, 0))
(\$b / \$c) => divide(\$b, \$c)
(\$b * 1000) => multiply(\$b, 1000)
``````

And then handle that yourself.

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If I understand your answer correctly, would that mean that I can use `if` statements in formulas but would have to replace the curley braces by something else? By the way `a`, `b` and `c` are variables which will be substituted. Thank you! – AlexR Dec 18 '12 at 17:19
@AlexR you can use `if`, because DDMathParser would think it's the name of a function. You'd then need to post-process the `DDExpression` to pull things out yourself. `a`, `b`, and `c` are also seen as yet-to-be-resolved functions. (They'd be variables if they were `\$a`, `\$b`, and `\$c`). – Dave DeLong Dec 18 '12 at 17:20
I came up with a simpler solution for my specific problem: I am using a variable (e.g. \$`isInFuture` which I set to `0` if it is false or `1` if it is true. I can then write my formula as `\$isInFuture * (\$DDPS1 * Pc1) + (1 - \$isInFuture) * (\$DDPS2 * Pc2)` which evaluates either the first or the second statement. Is this `1 * \$dummyVariable * x + (1 - \$dummyVariable) * y` a viable strategy in your view? – AlexR Dec 18 '12 at 18:10
@AlexR seems reasonable. – Dave DeLong Dec 19 '12 at 16:17