package cinaps
Trivial metaprogramming tool
Install
Dune Dependency
Authors
Maintainers
Sources
cinaps-v0.9.0.tar.gz
sha256=235e17364df0f6fc97c1e3990fc56e0ca044aad6fee8286a6cc52bfb92abc623
md5=ee28fa3c305cb380c1d88d5c9188cdf9
Description
Cinaps is a trivial Metaprogramming tool using the OCaml toplevel. It is based on the same idea as expectation tests. The user write some OCaml code inside special comments and cinaps make sure that what follows is what is printed by the OCaml code.
Published: 21 May 2017
README
README.org
* CINAPS - Cinaps Is Not A Preprocessing System Cinaps is a trivial Metaprogramming tool for OCaml using the OCaml toplevel. It is intended for two purposes: - when you want to include a bit of generated code in a file, but writing a proper generator/ppx rewriter is not worth it - when you have many repeated blocks of similar code in your program, to help writing and maintaining them It is not intended as a general preprocessor, and in particular cannot only be used to generate static code that is indenpendant of the system. ** How does it work? Cinaps is a purely textual tool. It recognizes special syntax of the form =(*$ <ocaml-code> *)= in the input. =<ocaml-code>= is evaluated and whatever it prints on the standard output is compared against what follows in the file until the next =($ ... *)= form, in the same way that expectation tests works. A form ending with =$*)= stops the matching and switch back to plain text mode. In particular the empty form =(*$*)= can be used to mark the end of a generated block. If the actual output doesn't match the expected one, cinaps creates a =.corrected= file containing the actual output, diff the original file against the actual output and exits with an error code. Other it simply exits with error code 0. For instance: #+begin_src sh $ cat file.ml let x = 1 (*$ print_newline (); List.iter (fun s -> Printf.printf "let ( %s ) = Pervasives.( %s )\n" s s) ["+"; "-"; "*"; "/"] *) (*$*) let y = 2 $ cinaps file.ml ---file.ml +++file.ml.corrected File "file.ml", line 5, characters 0-1: let x = 1 (*$ print_newline (); List.iter (fun s -> Printf.printf "let ( %s ) = Pervasives.( %s )\n" s s) ["+"; "-"; "*"; "/"] *) +|let ( + ) = Pervasives.( + ) +|let ( - ) = Pervasives.( - ) +|let ( * ) = Pervasives.( * ) +|let ( / ) = Pervasives.( / ) (*$*) let y = 2 $ echo $? 1 $ cp file.ml.corrected file.ml $ cinaps file.ml $ echo $? 0 #+end_src You can also pass =-i= to override the file in place in case of mismatch. For instance you can have a =cinaps= target in your build system to refresh the files in your project. ** Capturing text from the input In any form =(*$ ... *)= form, the variabls =_last_text_block= contains the contents of the text between the previous =(*$ ... *)= form or beginning of file and the current form. For instance you can use it write a block of code and copy it to a second block of code that is similar except for some simple substitution: #+begin_src ocaml (*$*) let rec power_int32 n p = if Int32.equal p 0 then Int32.one else Int32.mul n (power n (Int32.pred p)) (*$ print_string (Str.global_replace (Str.regexp "32") "64" _last_text_block) *) let rec power_int64 n p = if Int64.equal p 0 then Int64.one else Int64.mul n (power n (Int64.pred p)) (*$*) #+end_src Now, whenever you modify power_int32, you can just run cinaps to get the =power_int64= version.
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