Yes, you can do this. This falls under the category of "Using
NSPredicate for things for which it was not intended", but will work just fine.
You'll need to replace your variables with a single word that start with a
$, since that's how
NSPredicate denotes variables:
NSPredicate *p = [NSPredicate predicateWithFormat:@"foo = $bar"];
However you want to do that, great.
NSRegularExpression is a fine way to do that.
Once you do that, you'll have something like this:
@"$profitability2011 = $profit2011 / $revenue2011"
You can then pop this through
+predicateWithFormat:. You'll get back an
-leftExpression will be of type
NSVariableExpressionType, and the
-rightExpression will be of type
This is where things start to get hairy. If you were to
-evaluteWithObject:substitutionVariables:, you'd simply get back a
NO value, since a predicate is simply a statement that evaluates to true or false. I haven't explored how you could just evaluate one side (in this case, the
-rightExpression), but it's possible that
-[NSExpression expressionValueWithObject:context:] might help you. I don't know, because I'm not sure what that "context" parameter is for. It doesn't seem like it's a substitution dictionary, but I could be wrong.
So if that doesn't work (and I have no idea if it will or not), you could use my parser: DDMathParser. It has a parser, similar to
NSPredicate's parser, but is specifically tuned for parsing and evaluating mathematical expressions. In your case, you'd do:
NSString *s = @"$profit2011 / $revenue2011";
NSDictionary *values = ...; // the values of the variables
NSNumber *profitability = [s numberByEvaluatingStringWithSubstitutions:values];
The documentation for
DDMathParser is quite extensive, and it can do quite a bit.
edit Dynamic variable resolution
I just pushed a change that allows DDMathParser to resolve functions dynamically. It's important to understand that a function is different from a variable. A function is evaluated, whereas a variable is simply substituted. However, the change only does dynamic resolution for functions, not variables. That's ok, because DDMathParser has this neat thing called argumentless functions.
An argumentless function is a function name that's not followed by an opening parenthesis. For convenience, it's inserted for you. This means that
@"pi" is correctly parsed as
@"pi()" (since the constant for π is implemented as a function).
In your case, you can do this:
Instead of regexing your string to make variables, simply use the names of the terms:
@"profit_2011 / revenue_2011";
This will be parsed as if you had entered:
You can the set up your
DDMathEvaluator object with a function resolver. There are two examples of this in the
- This example shows how to use the resolver function to look up the "missing" function in a substitution dictionary (this would be most like what you want)
- This example shows you to interpret any missing function as if it evaluated to 42.
Once you implement a resolver function, you can forego having to package all your variables up into a dictionary.