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|
(************************************************************************)
(* * The Coq Proof Assistant / The Coq Development Team *)
(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *)
(* <O___,, * (see CREDITS file for the list of authors) *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(* * (see LICENSE file for the text of the license) *)
(************************************************************************)
(* Coq_makefile: automatically create a Makefile for a Coq development *)
open CoqProject_file
open Printf
let (>) f g = fun x -> g (f x)
let output_channel = ref stdout
let makefile_name = ref "Makefile"
let make_name = ref ""
let print x = output_string !output_channel x
let printf x = Printf.fprintf !output_channel x
let rec print_list sep = function
| [ x ] -> print x
| x :: l -> print x; print sep; print_list sep l
| [] -> ()
let rec print_prefix_list sep = function
| x :: l -> print sep; print x; print_prefix_list sep l
| [] -> ()
let usage_common () =
output_string stderr "\
\n[file.v]: Coq file to be compiled\
\n[file.ml[i4]?]: Objective Caml file to be compiled\
\n[file.ml{lib,pack}]: ocamlbuild file that describes a Objective Caml\
\n library/module\
\n[any] : subdirectory that should be \"made\" and has a Makefile itself\
\n to do so. Very fragile and discouraged.\
\n[-extra result dependencies command]: add target \"result\" with command\
\n \"command\" and dependencies \"dependencies\". If \"result\" is not\
\n generic (do not contains a %), \"result\" is built by _make all_ and\
\n deleted by _make clean_.\
\n[-extra-phony result dependencies command]: add a PHONY target \"result\"\
\n with command \"command\" and dependencies \"dependencies\". Note that\
\n _-extra-phony foo bar \"\"_ is a regular way to add the target \"bar\" as\
\n as a dependencies of an already defined target \"foo\".\
\n[-I dir]: look for Objective Caml dependencies in \"dir\"\
\n[-R physicalpath logicalpath]: look for Coq dependencies resursively\
\n starting from \"physicalpath\". The logical path associated to the\
\n physical path is \"logicalpath\".\
\n[-Q physicalpath logicalpath]: look for Coq dependencies starting from\
\n \"physicalpath\". The logical path associated to the physical path\
\n is \"logicalpath\".\
\n[VARIABLE = value]: Add the variable definition \"VARIABLE=value\"\
\n[-byte]: compile with byte-code version of coq\
\n[-opt]: compile with native-code version of coq\
\n[-arg opt]: send option \"opt\" to coqc\
\n[-install opt]: where opt is \"user\" to force install into user directory,\
\n \"none\" to build a makefile with no install target or\
\n \"global\" to force install in $COQLIB directory\
\n"
let usage_coq_project () =
output_string stderr "Available arguments:";
usage_common ();
exit 1
let usage_coq_makefile () =
output_string stderr "Usage summary:\
\n\
\ncoq_makefile .... [file.v] ... [file.ml[i4]?] ... [file.ml{lib,pack}]\
\n ... [any] ... [-extra[-phony] result dependencies command]\
\n ... [-I dir] ... [-R physicalpath logicalpath]\
\n ... [-Q physicalpath logicalpath] ... [VARIABLE = value]\
\n ... [-arg opt] ... [-opt|-byte] [-no-install] [-f file] [-o file]\
\n [-h] [--help]\
\n";
usage_common ();
output_string stderr "\
\n[-f file]: take the contents of file as arguments\
\n[-o file]: output should go in file file (recommended)\
\n Output file outside the current directory is forbidden.\
\n[-h]: print this usage summary\
\n[--help]: equivalent to [-h]\n";
exit 1
let is_genrule r = (* generic rule (like bar%foo: ...) *)
let genrule = Str.regexp("%") in
Str.string_match genrule r 0
let is_prefix dir1 dir2 =
let l1 = String.length dir1 in
let l2 = String.length dir2 in
let sep = Filename.dir_sep in
if dir1 = dir2 then true
else if l1 + String.length sep <= l2 then
let dir1' = String.sub dir2 0 l1 in
let sep' = String.sub dir2 l1 (String.length sep) in
dir1' = dir1 && sep' = sep
else false
let physical_dir_of_logical_dir ldir =
let ldir = Bytes.of_string ldir in
let le = Bytes.length ldir - 1 in
let pdir =
if le >= 0 && Bytes.get ldir le = '.' then Bytes.sub ldir 0 (le - 1)
else Bytes.copy ldir
in
for i = 0 to le - 1 do
if Bytes.get pdir i = '.' then Bytes.set pdir i '/';
done;
Bytes.to_string pdir
let read_whole_file s =
let ic = open_in s in
let b = Buffer.create (1 lsl 12) in
try
while true do
let s = input_line ic in
Buffer.add_string b s;
Buffer.add_char b '\n';
done;
assert false;
with End_of_file ->
close_in ic;
Buffer.contents b
let quote s = if String.contains s ' ' || CString.is_empty s then "'" ^ s ^ "'" else s
let generate_makefile oc conf_file local_file args project =
let makefile_template =
let template = "/tools/CoqMakefile.in" in
Envars.coqlib () ^ template in
let s = read_whole_file makefile_template in
let s = List.fold_left
(* We use global_substitute to avoid running into backslash issues due to \1 etc. *)
(fun s (k,v) -> Str.global_substitute (Str.regexp_string k) (fun _ -> v) s) s
[ "@CONF_FILE@", conf_file;
"@LOCAL_FILE@", local_file;
"@COQ_VERSION@", Coq_config.version;
"@PROJECT_FILE@", (Option.default "" project.project_file);
"@COQ_MAKEFILE_INVOCATION@",String.concat " " (List.map quote args);
] in
output_string oc s
;;
let section oc s =
let pad = String.make (76 - String.length s) ' ' in
let sharps = String.make 79 '#' in
let spaces = "#" ^ String.make 77 ' ' ^ "#" in
fprintf oc "\n%s\n" sharps;
fprintf oc "%s\n" spaces;
fprintf oc "# %s%s#\n" s pad;
fprintf oc "%s\n" spaces;
fprintf oc "%s\n\n" sharps
;;
let clean_tgts = ["clean"; "cleanall"; "archclean"]
let generate_conf_extra_target oc sps =
let pr_path { target; dependencies; phony; command } =
let target = if target = "all" then "custom-all" else target in
if phony then fprintf oc ".PHONY: %s\n" target;
if not (is_genrule target) && not phony then begin
fprintf oc "post-all::\n\t$(MAKE) -f $(SELF) %s\n" target;
if not phony then
fprintf oc "clean::\n\trm -f %s\n" target;
end;
fprintf oc "%s %s %s\n\t%s\n\n"
target
(if List.mem target clean_tgts then ":: " else ": ")
dependencies
command
in
if sps <> [] then
section oc "Extra targets. (-extra and -extra-phony, DEPRECATED)";
List.iter (forget_source > pr_path) sps
let generate_conf_subdirs oc sds =
if sds <> [] then section oc "Subdirectories. (DEPRECATED)";
let iter f = List.iter (forget_source > f) in
iter (fprintf oc ".PHONY:%s\n") sds;
iter (fprintf oc "post-all::\n\tcd \"%s\" && $(MAKE) all\n") sds;
iter (fprintf oc "clean::\n\tcd \"%s\" && $(MAKE) clean\n") sds;
iter (fprintf oc "archclean::\n\tcd \"%s\" && $(MAKE) archclean\n") sds;
iter (fprintf oc "install-extra::\n\tcd \"%s\" && $(MAKE) install\n") sds
let generate_conf_includes oc { ml_includes; r_includes; q_includes } =
section oc "Path directives (-I, -R, -Q).";
let module S = String in
let map = map_sourced_list in
let dash1 opt v = sprintf "-%s %s" opt (quote v) in
let dash2 opt v1 v2 = sprintf "-%s %s %s" opt (quote v1) (quote v2) in
fprintf oc "COQMF_OCAMLLIBS = %s\n"
(S.concat " " (map (fun { path } -> dash1 "I" path) ml_includes));
fprintf oc "COQMF_SRC_SUBDIRS = %s\n"
(S.concat " " (map (fun { path } -> quote path) ml_includes));
fprintf oc "COQMF_COQLIBS = %s %s %s\n"
(S.concat " " (map (fun { path } -> dash1 "I" path) ml_includes))
(S.concat " " (map (fun ({ path },l) -> dash2 "Q" path l) q_includes))
(S.concat " " (map (fun ({ path },l) -> dash2 "R" path l) r_includes));
fprintf oc "COQMF_COQLIBS_NOML = %s %s\n"
(S.concat " " (map (fun ({ path },l) -> dash2 "Q" path l) q_includes))
(S.concat " " (map (fun ({ path },l) -> dash2 "R" path l) r_includes));
fprintf oc "COQMF_CMDLINE_COQLIBS = %s %s %s\n"
(S.concat " " (map_cmdline (fun { path } -> dash1 "I" path) ml_includes))
(S.concat " " (map_cmdline (fun ({ path },l) -> dash2 "Q" path l) q_includes))
(S.concat " " (map_cmdline (fun ({ path },l) -> dash2 "R" path l) r_includes));
;;
let windrive s =
if Coq_config.arch_is_win32 && Str.(string_match (regexp "^[a-zA-Z]:") s 0)
then Str.matched_string s
else ""
;;
let generate_conf_coq_config oc args =
section oc "Coq configuration.";
let src_dirs = Coq_config.all_src_dirs in
Envars.print_config ~prefix_var_name:"COQMF_" oc src_dirs;
fprintf oc "COQMF_WINDRIVE=%s\n" (windrive Coq_config.coqlib)
;;
let generate_conf_files oc
{ v_files; mli_files; ml4_files; ml_files; mllib_files; mlpack_files; }
=
let module S = String in
let map = map_sourced_list in
section oc "Project files.";
fprintf oc "COQMF_VFILES = %s\n" (S.concat " " (map quote v_files));
fprintf oc "COQMF_MLIFILES = %s\n" (S.concat " " (map quote mli_files));
fprintf oc "COQMF_MLFILES = %s\n" (S.concat " " (map quote ml_files));
fprintf oc "COQMF_ML4FILES = %s\n" (S.concat " " (map quote ml4_files));
fprintf oc "COQMF_MLPACKFILES = %s\n" (S.concat " " (map quote mlpack_files));
fprintf oc "COQMF_MLLIBFILES = %s\n" (S.concat " " (map quote mllib_files));
let cmdline_vfiles = filter_cmdline v_files in
fprintf oc "COQMF_CMDLINE_VFILES = %s\n" (S.concat " " (List.map quote cmdline_vfiles));
;;
let rec all_start_with prefix = function
| [] -> true
| [] :: _ -> false
| (x :: _) :: rest -> x = prefix && all_start_with prefix rest
let rec logic_gcd acc = function
| [] -> acc
| [] :: _ -> acc
| (hd :: tl) :: rest ->
if all_start_with hd rest
then logic_gcd (acc @ [hd]) (tl :: List.map List.tl rest)
else acc
let generate_conf_doc oc { defs; q_includes; r_includes } =
let includes = List.map (forget_source > snd) (q_includes @ r_includes) in
let logpaths = List.map (CString.split '.') includes in
let gcd = logic_gcd [] logpaths in
let root =
if gcd = [] then
if not (List.exists (fun x -> fst x.thing = "INSTALLDEFAULTROOT") defs) then begin
let destination = "orphan_" ^ (String.concat "_" includes) in
eprintf "Warning: no common logical root\n";
eprintf "Warning: in such case INSTALLDEFAULTROOT must be defined\n";
eprintf "Warning: the install-doc target is going to install files\n";
eprintf "Warning: in %s\n" destination;
destination
end else "$(INSTALLDEFAULTROOT)"
else String.concat "/" gcd in
Printf.fprintf oc "COQMF_INSTALLCOQDOCROOT = %s\n" (quote root)
let generate_conf_defs oc { defs; extra_args } =
section oc "Extra variables.";
List.iter (forget_source > (fun (k,v) -> Printf.fprintf oc "%s = %s\n" k v)) defs;
Printf.fprintf oc "COQMF_OTHERFLAGS = %s\n"
(String.concat " " (List.map forget_source extra_args))
let generate_conf oc project args =
fprintf oc "# This configuration file was generated by running:\n";
fprintf oc "# %s\n\n" (String.concat " " (List.map quote args));
generate_conf_files oc project;
generate_conf_includes oc project;
generate_conf_coq_config oc args;
generate_conf_defs oc project;
generate_conf_doc oc project;
generate_conf_extra_target oc project.extra_targets;
generate_conf_subdirs oc project.subdirs;
;;
let ensure_root_dir
({ ml_includes; r_includes; q_includes;
v_files; ml_files; mli_files; ml4_files;
mllib_files; mlpack_files } as project)
=
let exists f = List.exists (forget_source > f) in
let here = Sys.getcwd () in
let not_tops = List.for_all (fun s -> s.thing <> Filename.basename s.thing) in
if exists (fun { canonical_path = x } -> x = here) ml_includes
|| exists (fun ({ canonical_path = x },_) -> is_prefix x here) r_includes
|| exists (fun ({ canonical_path = x },_) -> is_prefix x here) q_includes
|| (not_tops v_files &&
not_tops mli_files && not_tops ml4_files && not_tops ml_files &&
not_tops mllib_files && not_tops mlpack_files)
then
project
else
let source x = {thing=x; source=CmdLine} in
let here_path = { path = "."; canonical_path = here } in
{ project with
ml_includes = source here_path :: ml_includes;
r_includes = source (here_path, "Top") :: r_includes }
;;
let warn_install_at_root_directory
({ q_includes; r_includes; } as project)
=
let open CList in
let inc_top_p =
map_filter
(fun {thing=({ path } ,ldir)} -> if ldir = "" then Some path else None)
(r_includes @ q_includes) in
let files = all_files project in
let bad = filter (fun f -> mem (Filename.dirname f.thing) inc_top_p) files in
if bad <> [] then begin
eprintf "Warning: No file should be installed at the root of Coq's library.\n";
eprintf "Warning: No logical path (-R, -Q) applies to these files:\n";
List.iter (fun x -> eprintf "Warning: %s\n" x.thing) bad;
eprintf "\n";
end
;;
let check_overlapping_include { q_includes; r_includes } =
let pwd = Sys.getcwd () in
let aux = function
| [] -> ()
| {thing = { path; canonical_path }, _} :: l ->
if not (is_prefix pwd canonical_path) then
eprintf "Warning: %s (used in -R or -Q) is not a subdirectory of the current directory\n\n" path;
List.iter (fun {thing={ path = p; canonical_path = cp }, _} ->
if is_prefix canonical_path cp || is_prefix cp canonical_path then
eprintf "Warning: %s and %s overlap (used in -R or -Q)\n\n"
path p) l
in
aux (q_includes @ r_includes)
;;
let chop_prefix p f =
let len_p = String.length p in
let len_f = String.length f in
String.sub f len_p (len_f - len_p)
let clean_path p =
Str.global_replace (Str.regexp_string "//") "/" p
let destination_of { ml_includes; q_includes; r_includes; } file =
let file_dir = CUnix.canonical_path_name (Filename.dirname file) in
let includes = q_includes @ r_includes in
let mk_destination logic canonical_path =
clean_path (physical_dir_of_logical_dir logic ^ "/" ^
chop_prefix canonical_path file_dir ^ "/") in
let candidates =
CList.map_filter (fun {thing={ canonical_path }, logic} ->
if is_prefix canonical_path file_dir then
Some(mk_destination logic canonical_path)
else None) includes
in
match candidates with
| [] ->
(* BACKWARD COMPATIBILITY: -I into the only logical root *)
begin match
r_includes,
List.find (fun {thing={ canonical_path = p }} -> is_prefix p file_dir)
ml_includes
with
| [{thing={ canonical_path }, logic}], {thing={ canonical_path = p }} ->
let destination =
clean_path (physical_dir_of_logical_dir logic ^ "/" ^
chop_prefix p file_dir ^ "/") in
Printf.printf "%s" (quote destination)
| _ -> () (* skip *)
| exception Not_found -> () (* skip *)
end
| [s] -> Printf.printf "%s" (quote s)
| _ -> assert false
let share_prefix s1 s2 =
let s1 = CString.split '.' s1 in
let s2 = CString.split '.' s2 in
match s1, s2 with
| x :: _ , y :: _ -> x = y
| _ -> false
let _ =
let _fhandle = Feedback.(add_feeder (console_feedback_listener Format.err_formatter)) in
let prog, args =
let args = Array.to_list Sys.argv in
let prog = List.hd args in
prog, List.tl args in
let only_destination, args = match args with
| "-destination-of" :: tgt :: rest -> Some tgt, rest
| _ -> None, args in
let project =
try cmdline_args_to_project ~curdir:Filename.current_dir_name args
with Parsing_error s -> prerr_endline s; usage_coq_project () in
if only_destination <> None then begin
destination_of project (Option.get only_destination);
exit 0
end;
if project.makefile = None then
eprintf "Warning: Omitting -o is deprecated\n\n";
(* We want to know the name of the Makefile (say m) in order to
* generate m.conf and include m.local *)
let conf_file = Option.default "CoqMakefile" project.makefile ^ ".conf" in
let local_file = Option.default "CoqMakefile" project.makefile ^ ".local" in
if project.extra_targets <> [] then begin
eprintf "Warning: -extra and -extra-phony are deprecated.\n";
eprintf "Warning: Write the extra targets in %s.\n\n" local_file;
end;
if project.subdirs <> [] then begin
eprintf "Warning: Subdirectories are deprecated.\n";
eprintf "Warning: Use double colon rules in %s.\n\n" local_file;
end;
let project = ensure_root_dir project in
if project.install_kind <> (Some CoqProject_file.NoInstall) then begin
warn_install_at_root_directory project;
end;
check_overlapping_include project;
Envars.set_coqlib ~fail:(fun x -> Printf.eprintf "Error: %s\n" x; exit 1);
let ocm = Option.cata open_out stdout project.makefile in
generate_makefile ocm conf_file local_file (prog :: args) project;
close_out ocm;
let occ = open_out conf_file in
generate_conf occ project (prog :: args);
close_out occ;
exit 0
|