output_type: T.output_kind;
input_ext: string;
remove_lines: int;
+ excludes: string list;
includes: (string * string) list;
coercions: (string * string) list;
files: string list;
let set_files st =
let eof ich = try Some (input_line ich) with End_of_file -> None in
let trim l = Filename.chop_extension (Str.string_after l 2) in
- let cmd = Printf.sprintf "cd %s && find -name *%s" st.input_path st.input_ext in
+ let cmd = Printf.sprintf "cd %s && find -name '*%s'" st.input_path st.input_ext in
let ich = Unix.open_process_in cmd in
- let rec aux files =
- match eof ich with
- | None -> List.rev files
- | Some l -> aux (trim l :: files)
+ let rec aux files = match eof ich with
+ | None -> List.rev files
+ | Some l ->
+ let l = trim l in
+ if List.mem l st.excludes then aux files else aux (l :: files)
in
let files = aux [] in
let _ = Unix.close_process_in ich in
let make registry =
let id x = x in
let get_pairs = R.get_list (R.pair id id) in
- let get_input_type key =
- match R.get_string key with
- | "gallina8" -> T.Gallina8, ".v"
- | "grafite" -> T.Grafite, ".ma"
+ let get_input_type key1 key2 =
+ match R.get_string key1, R.get_string key2 with
+ | "gallina8", _ -> T.Gallina8, ".v", []
+ | "grafite", "" -> T.Grafite "", ".ma", []
+ | "grafite", s -> T.Grafite s, ".ma", [s]
| _ -> failwith "unknown input type"
in
let get_output_type key =
| _ -> failwith "unknown output type"
in
load_registry registry;
- let input_type, input_ext = get_input_type "package.input_type" in
+ let input_type, input_ext, excludes =
+ get_input_type "package.input_type" "package.theory_file"
+ in
let st = {
heading_path = R.get_string "transcript.heading_path";
heading_lines = R.get_int "transcript.heading_lines";
output_type = get_output_type "package.output_type";
input_ext = input_ext;
remove_lines = R.get_int "package.heading_lines";
+ excludes = excludes;
includes = get_pairs "package.include";
coercions = get_pairs "package.coercion";
files = [];
| _ -> true
in
let get_items = match st.input_type with
- | T.Gallina8 -> Gallina8Parser.items Gallina8Lexer.token
- | T.Grafite -> GrafiteParser.items GrafiteLexer.token
+ | T.Gallina8 -> Gallina8Parser.items Gallina8Lexer.token
+ | T.Grafite _ -> GrafiteParser.items GrafiteLexer.token
in
let produce st name =
let in_base_uri = Filename.concat st.input_base_uri name in
let rec remove_lines ich n =
if n > 0 then let _ = input_line ich in remove_lines ich (pred n)
in
- Printf.eprintf "processing file name: %s ...\n" name; flush stderr;
- let file = Filename.concat st.input_path (name ^ st.input_ext) in
- let ich = open_in file in
+ Printf.eprintf "processing file name: %s ...\n" name; flush stderr;
+ let file = Filename.concat st.input_path name in
+ let ich = open_in (file ^ st.input_ext) in
begin try remove_lines ich st.remove_lines with End_of_file -> () end;
let lexbuf = Lexing.from_channel ich in
try
let comment = T.Line (Printf.sprintf "From %s" name) in
if global_items <> [] then
set_items st st.input_package (comment :: global_items);
- init name; require st name st.input_package; set_includes st name;
- set_items st name local_items; commit st name
+ init name;
+ begin match st.input_type with
+ | T.Grafite "" -> require st name file
+ | _ -> require st name st.input_package
+ end;
+ set_includes st name; set_items st name local_items; commit st name
with e ->
prerr_endline (Printexc.to_string e); close_in ich
in
is_ma st st.input_package;
init st.input_package; require st st.input_package "preamble";
- List.iter (produce st) st.files;
- commit st st.input_package
+ match st.input_type with
+ | T.Grafite "" ->
+ List.iter (produce st) st.files
+ | T.Grafite s ->
+ let theory = Filename.concat st.input_path s in
+ require st st.input_package theory;
+ List.iter (produce st) st.files;
+ commit st st.input_package
+ | _ ->
+ List.iter (produce st) st.files;
+ commit st st.input_package