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I was working on a method that accepts a regular expression and a string to check this expression against.

public bool match_case_insensitive(str regexp, str toMatch)
{
    bool match = /<regexp>/i := toMatch;
    if(match) println(toMatch);
    return match;
}

Assume the following regular expression: (.*[e]){2}, which matches any string with at least two e's. Assume the following string to check: merely

Calling match_case_insensitive("(.*[e]){2}", "merely") will return false.

Evaluating the expression in the terminal will yield true: /(.*[e]){2}/ := "merely" returns bool:true and it is the same for /(.*[e]){2}/i := "merely" when case-insensitive.

I would expect /<regexp>/i in my function to evaluate to /(.*[e]){2}/i but this is apparently not true. What is the supposed difference between running the raw comparison in the terminal and using this method? I think Rascal has no support for capturing groups, as I couldn't find it in the documentation. Another reason I can think of is that Rascal escapes all string characters and therefore a string can never really contain a regex that contains metacharacters.

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  1. you deduced correctly, at interpolation time Rascal will escape meta characters (I do hope all of them) so you can not construct regular expressions dynamically. So regex=".";//:= "bla" will expand to /\./ := "bla" before even compiling the regular expression.
  2. the notation does support capturing groups as using this notation <name: regex>

    rascal>if (/<a:a*><b:b*>/ := "aaabbb")

    >>>>>println("<a> - <b>");

    aaa - bbb

  • Thank you! It's quite a shame though that it's not really possible. – Zimano Nov 29 '18 at 15:29
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    thanks for the feedback. it's was a design decision trade-off made on purpose, since the pattern sublanguage is used freely everywhere (also for dynamic dispatch between functions) and we want/need to make that fast, the compiler should know about the patterns statically. If we'd deviate from that here only, we would get language design inconsistency. Also, dynamic regular expressions are much harder to debug and reason about for correctness. but that's a weaker argument. thanks again! – Jurgen Vinju Nov 29 '18 at 15:33

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