package ocaml-migrate-parsetree

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Convert OCaml parsetrees between different versions

Install

Dune Dependency

Authors

Maintainers

Sources

v1.0.tar.gz
sha256=c6cfd5012d357cfbeb059d3286e9dcc003bebe98fa3901a21389b1dbb0446741
md5=188b1bfed310fad8794da4d546d5a65f

README.md.html

OCaml-migrate-parsetree

Convert OCaml parsetrees between different major versions

This library converts between parsetrees of different OCaml versions.

Supported versions are 4.02, 4.03, 4.04, 4.05 and 4.06 (trunk). For each version, there is a snapshot of the parsetree and conversion functions to the next and/or previous version.

Note that there is no snapshot for 4.06 since the parsetree hasn't changed yet.

Asts

module Ast_402, Ast_403, Ast_404, Ast_405 : sig

  (* These two modules didn't change between compiler versions.
     Just share the ones from compiler-libs. *)
  module Location = Location
  module Longident = Longident

  (* Version specific copy of AST *)
  module Asttypes
  module Parsetree
  module Outcometree

  (* Other modules that are useful for implementing PPX.

     Docstrings and Ast_mapper only contain general definitions
     In particular, the internal state used by compiler-libs has been
     removed.
     Also equalities are lost for abstract types (Docstring.docstring).  *)
  module Docstrings
  module Ast_helper
  module Ast_mapper

  (* Magic numbers used for marshalling *)
  module Config : sig
    val ast_impl_magic_number : string
    val ast_intf_magic_number : string
  end
end

These embed copies of AST definitions for each supported OCaml major version.

The AST matching the version of the OCaml toolchain will contain equalities relating the copy of types to the definitions from compiler-libs. For instance, when installed with OCaml 4.04.x, Ast_404.Parsetree looks like.

Migration modules

For each pair of versions $(n) and $(n+1), the two modules Migrate_parsetree_$(n)_$(n+1) and Migrate_parsetree_$(n+1)_$(n) convert the AST forward and backward.

The forward conversion is total while the backward conversion is partial: when a feature is not available in a previous version of the parsetree, a Migrate_parsetree_def.Migration_error exception is raised detailing the failure case.

Migrate_parsetree_versions abstract versions of the compiler. Each version is represented as a module with OCaml_version signature. Instances are named OCaml_402, OCaml_403, ... OCaml_current is an alias to the version of the current compiler. The Convert functor takes two versions of OCaml and produce conversion functions.

Finally, the Migrate_parsetree_ast_io provides an easy interface for marshalling/unmarshalling.

Migrate_parsetree.Driver

The Migrate_parsetree.Driver provides an API for ppx rewriters to register OCaml AST rewriters. Ppx rewriters using this API can be used as standalone rewriter executable or as part of a driver including several rewriters.

Using a single driver for several rewritings has the advantage that it is faster. Especially when using many ppx rewriters, it can speed up compilation a lot.

If using Jbuilder, you can consult the Jbuilder manual to see how to define and use ppx rewriters. Jbuilder automatically creates drivers based on ocaml-migrate-parsetree on demand.

The rest of this section describes how to do things manually or with ocamlbuild.

Building a custom driver using ocamlfind

To build a custom driver using ocamlfind, simply link all the ppx rewriter libraries together with the ocaml-migrate-parsetree.driver-main package at the end:

ocamlfind ocamlopt -predicates ppx_driver -o ppx -linkpkg \
  -package ppx_sexp_conv -package ppx_bin_prot \
  -package ocaml-migrate-parsetree.driver-main

Normally, ocaml-migrate-parsetree based rewriters should be build with the approriate -linkall option on individual libraries. If one is missing this option, the rewriter might not get linked in. If this is the case, a workaround is to pass -linkall when linking the custom driver.

The resulting ppx program can be used as follow:

  • ./ppx file.ml to print the transformed code

  • ocamlc -pp './ppx --as-pp' ... to use it as a pre-processor

  • ocamlc -ppx './ppx --as-ppx' ... to use it as a -ppx rewriter

Using the ocaml-migrate-parsetree driver with ocamlbuild

The ocaml-migrate-parsetree-ocamlbuild package provides an ocamlbuild plugin to help building and using custom drivers on demand.

Setup

To use it you need to first tell ocamlbuild to use the plugin in myocamlbuild.ml. If you are using oasis, add this to your _oasis file:

AlphaFeatures:         ocamlbuild_more_args
XOCamlbuildPluginTags: package(ocaml-migrate-parsetree-ocamlbuild)

If you are calling ocamlbuild directly, you need to call it this way:

$ ocamlbuild -plugin-tag "package(ocaml-migrate-parsetree-ocamlbuild)" ...

Once you have done that, you need to enable it in your myocamlbuild.ml:

let () =
  Ocamlbuild_plugin.dispatch (fun hook ->
    Ocaml_migrate_parsetree_ocamlbuild.dispatch hook;
    <other dispatch functions>
  )
Usage

The plugin provides a new parametric tag: omp-driver. The tag takes as argument a + separated list of rewriters (as findlib package names) followed by any command line arguments.

For instance to use ppx_sexp_conv and ppx_bin_prot put this in your tags file:

<**/*>: predicate(custom_ppx)
<src/*.{ml,mli}>: omp-driver(ppx_sexp_conv+ppx_bin_prot)

The first line is to instruct ocamlfind not to automatically add implicit -ppx argument. Without this, you might still get individual -ppx for both ppx_sexp_conv and ppx_bin_prot in addition to the main driver that already contains them both, meaning your code would be transformed more than it should...

Development

It started from the work of Alain Frisch in ppx_tools.

The library is distributed under LGPL 2.1 and is copyright INRIA.

Adding a new OCaml version

We use Cinaps to generate boilerplate. Try opam install cinaps. If it is not available, you might need to pin the package: opam pin add jbuilder --dev-repo opam pin add cinaps https://github.com/janestreet/cinaps.git

Add the new version in src/cinaps.ml supported_versions.

Snapshot the ast in file "asts/ast_NEW.ml".

  • Define the modules Location and Longident as aliases to corresponding modules from compiler-libs.

  • Copy Asttypes, Parsetree, Outcometree, Docstrings, Ast_helper and Ast_mapper from the upstream files in parsing/ directory.

  • Global state and definitions referencing external values should be removed from Docstrings and Ast_mapper. Take a look at existing snapshots.

  • Create a Config module containing ast_impl_magic_number ast_impl_magic_number from upstream Config

  • Call tools/add_special_comments.native on the file

Add migration functions:

  • Manually compile the ast (ocamlc -c ast_NEW.ml)

  • Using gencopy from ppx_tools, generate copy code to and from previous version (assuming it is 404):

gencopy -I . -map Ast_404:Ast_NEW Ast_404.Parsetree.expression Ast_404.Parsetree.toplevel_phrase Ast_404.Outcometree.out_phrase > migrate_parsetree_404_NEW_migrate.ml
gencopy -I . -map Ast_NEW:Ast_404 Ast_NEW.Parsetree.expression Ast_NEW.Parsetree.toplevel_phrase Ast_NEW.Outcometree.out_phrase > migrate_parsetree_NEW_404_migrate.ml
  • Fix the generated code by implementing new cases

  • By default generated code use very long identifiers, simplify unambiguous ones (e.g. copy_Ast_NEW_Parsetree_structure -> copy_structure). The migration functor expects specific names, look at Migrate_parsetree_versions interface.

TODO: specialize and improve gencopy for these cases

Add mapper lifting functions in the files migrate_parsetree_NEW_404.ml and migrate_parsetree_404_NEW.ml:

  • include the corresponding Migrate_parsetree_40x_40y_migrate module

  • define copy_mapper function, look at existing Migrate_parsetree_40x_40y for guidance.

At any time, you can expand boilerplate code by running make cinaps.

Update build system:

  • in Makefile, add "src/ast_NEW.ml" to OCAML_ASTS and migration modules to OBJECTS

  • make sure make cinaps reach a fixed point :)

  • Update dependencies with make depend

  • make should succeed

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