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I am trying to rewrite java code using only concrete syntax (no AST). Next code works:

CompilationUnit rewritePackage(CompilationUnit input) = 
    visit(input) {
        case (PackageDeclaration) `package <{Identifier "."}+ N>;` => 
            (PackageDeclaration) `package <{Identifier "."}+ N>.<Identifier s>;`
            when s:= [Identifier] "othertest"
    };  

Now I want to create {Identifier "."}+ in order to insert it into result of rewrite:

CompilationUnit rewritePackage(CompilationUnit input) = 
    visit(input) {
        case (PackageDeclaration) `package <{Identifier "."}+ N>;` => 
            (PackageDeclaration) `package <{Identifier "."}+ NUpdated>;`
            when NUpdated := [{Identifier "."}+] "a1.b2"
    };

and it does not work. I also tried with lists, no success.

  1. Is it possible somehow to create {Identifier "."}+? Or to convert list[Identifier] to it? How can I achieve mapper( , toUpperCase) on {Identifier "."}+ ?

  2. Is there a way to insert some str variable directly to concrete syntax?

  3. In docs I found how {Identifier "."}+ can be transformed to list. But is there any other direct operations on {Identifier "."}+. Would be nice to have pattern match in a form: [ *Identifier firstIds, (Identifier)someName, *Identifier otherIds ]

  • If you have some patience I'll try to make this clear on Thursday or Friday. You've asked a set of cohesive questions which require code examples as answers. – Jurgen Vinju Aug 21 '19 at 0:46
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First some short answers to make things clearer:

  • The implementation of the [NonTerminal] "string" notation is unfinished. Currently it only supports named non-terminals, such as [Identifiers] xxx. This is a known TODO and its already tracked as an issue.
  • There is no short syntax yet for creating concrete lists. You have to construct them manually using loops or recursion. For now the advice is to:
  • introduce a non-terminal name for the list in the grammar, and
  • write a helper function to construct the list

To create an {Identifier "."}+ list, use concrete syntax patterns like so:

syntax Identifiers = {Identifier "."}+ elems;

private {Identifier "."}+ insert(Identifier first, {Identifier "."}+ tail) 
  = (Identifiers) `<Identifier first>.<{Identifier "."} tail>`.elems;

The append function first wraps the list in the Identifiers non-terminal to be able to use the (..).. notation, and then projects out the new nested list using the .elems field. The syntax trees you produce like this are statically correct. Unlike using the [..].. notation which calls a parser dynamically, this (..).. notation calls the parser statically and composes correct trees at run-time.

Or perhaps you want to concatenate two identifier lists:

{Identifier "."}+ append({Identifier "."}+ prefix, {Identifier "."}+ postfix) 
      = (Identifiers) `<{Identifier "."} prefix>.<{Identifier "."}+ postfix>`.elems;

Sometimes you want to concatenate possibly empty sub-lists, this is allowed and the . separator will be removed automatically:

{Identifier "."}+ append({Identifier "."}+ prefix, {Identifier "."}* postfix) 
      = (Identifiers) `<{Identifier "."} prefix>.<{Identifier "."}* postfix>`.elems;

So to turn a list[Identifier] into a {Identifier "."} you might write this:

{Identifier "."}+ identifiers([Identifier head]) = (Identifiers) `<Identifier head>`.elems;

{Identifier "."}+ identifiers([Identifier head, Identifier sec, *Identifier tail])
    = append(insert(head, identifiers([sec, *tail]);

Agreed that this is kind of clumsy and we should maybe prioritize the much easier concrete list syntax templates syntax. We're also open to suggestions for improvement.

| improve this answer | |
  • 1
    identifiers function does now work for me - says "splicing match not supported on Identifier". But next code worked: {Identifier "."}+ ids2(list[Identifier] idList) { idStr = joinStr(".", [ "<id>" | id <- idList ]); Identifiers idC = [Identifiers] idStr; return idC.elems; } – dvitel Aug 23 '19 at 21:44
  • 1
    About suggestions: I am comparing Rascal to Stratego in quesiton of rewriting programs and Stratego lacks some programming aspects of Rascal. But Rascal is more verbose - transform writers need to know the definition of syntax - (...) ... or [...] ... - notation + typed pattern match in concrete syntax. It would be really nice at some point to see ability of Rascal to infer this parts automatically. Thanks. – dvitel Aug 23 '19 at 21:53
  • Makes sense. We're working on type inference to make that happen, also for variables. Have a look at the relations stuff too; that's powerful. – Jurgen Vinju Aug 24 '19 at 10:12

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