let rawsep = "###"
let sep = Pcre.regexp (sprintf "^%s" rawsep)
+let sep2 = Pcre.regexp (sprintf "^%s%s" rawsep rawsep)
let print s = print_string s; flush stdout
let print_endline s = print_endline s
let print_endline_to_channel ch s = output_string ch (s ^ "\n")
-type state = Term | EMetasenv | ETerm | EType | EReduced
+type state = Term | EEnv | EMetasenv | ETerm | EType | EReduced
(* regtest file format
* < cic term in concrete syntax >
+ * separatorseparator INTERPRETATION NUMBER <n> separatorseparator
+ * separator (* see sep above *)
+ * < expected disambiguating environment (EnvironmentP3.to_string) >
* separator (* see sep above *)
* < expected metasenv after disambiguation (CicMetaSubst.ppmetasenv) >
* separator (* see sep above *)
* < expected cic type as per type_of (CicPp.ppterm) >
* separator (* see sep above *)
* < expected reduced cic term as (CicPp.ppterm) >
+ * ... (* repeat from ... INTERPRETATION NUMBER ... *)
*)
type regtest = {
term: string; (* raw cic term *)
+ eenv : string; (* disambiguating parsing environment *)
emetasenv : string; (* expected metasenv *)
eterm: string; (* expected term *)
etype: string; (* expected type *)
incr i ;
output_string oc
(String.concat ""
- [ sprintf "INTERPRETATION NUMBER %d\n" !i;
+ [ sprintf "%s%s INTERPRETATION NUMBER %d %s%s\n" rawsep rawsep !i rawsep rawsep ;
+ sprintf "%s (* disambiguation environment *)\n" rawsep;
+ test.eenv;
sprintf "%s (* METASENV after disambiguation *)\n" rawsep;
test.emetasenv;
sprintf "%s (* TERM after disambiguation *)\n" rawsep;
sprintf "%s (* TYPE_OF the disambiguated term *)\n" rawsep;
test.etype;
sprintf "%s (* REDUCED disambiguated term *)\n" rawsep;
- test.ereduced;
- "\n" ])
+ test.ereduced ])
) tests;
close_out oc
let parse_regtest =
let term = Buffer.create 1024 in (* raw term *)
+ let eenv = Buffer.create 1024 in (* disambiguating parser environment *)
let emetasenv = Buffer.create 1024 in (* expected metasenv *)
let eterm = Buffer.create 1024 in (* raw expected term *)
let etype = Buffer.create 1024 in (* raw expected type *)
let state = ref Term in
let bump_state () =
match !state with
- | Term -> state := EMetasenv
+ | Term -> state := EEnv
+ | EEnv -> state := EMetasenv
| EMetasenv -> state := ETerm
| ETerm -> state := EType
| EType -> state := EReduced
| EReduced -> assert false
in
let buffer_of_state = function
- | Term -> term | EMetasenv -> emetasenv | ETerm -> eterm | EType -> etype
+ | Term -> term | EEnv -> eenv | EMetasenv -> emetasenv | ETerm -> eterm | EType -> etype
| EReduced -> ereduced
in
let clear_buffers () =
- List.iter Buffer.clear [ term; emetasenv; eterm; etype; ereduced ]
+ List.iter Buffer.clear [ eenv; emetasenv; eterm; etype; ereduced ]
in
fun fname ->
state := Term;
- clear_buffers ();
+ let first = ref true in
+ let res = ref [] in
+ let push_res () =
+ res :=
+ {term = Buffer.contents term;
+ eenv = Buffer.contents eenv;
+ emetasenv = Buffer.contents emetasenv;
+ eterm = Buffer.contents eterm;
+ etype = Buffer.contents etype;
+ ereduced = Buffer.contents ereduced } :: !res ;
+ in
+ Buffer.clear term;
let ic = open_in fname in
(try
while true do
let line = input_line ic in
match line with
+ | l when Pcre.pmatch ~rex:sep2 l ->
+ if !first then first := false else push_res () ;
+ clear_buffers ();
+ state := Term
| l when Pcre.pmatch ~rex:sep l -> bump_state ()
| l -> Buffer.add_string (buffer_of_state !state) (line ^ "\n")
done
with End_of_file -> ());
- [{ term = Buffer.contents term;
- emetasenv = Buffer.contents emetasenv;
- eterm = Buffer.contents eterm;
- etype = Buffer.contents etype;
- ereduced = Buffer.contents ereduced }]
+ push_res () ;
+ List.rev !res
let as_expected_one och expected found = (* ignores "term" field *)
let eterm_ok = expected.eterm = found.eterm in
+ let eenv_ok = expected.eenv = found.eenv in
let emetasenv_ok = expected.emetasenv = found.emetasenv in
let etype_ok = expected.etype = found.etype in
let ereduced_ok = expected.ereduced = found.ereduced in
- let outcome = eterm_ok && emetasenv_ok && etype_ok && ereduced_ok in
+ let outcome =
+ eterm_ok && eenv_ok && emetasenv_ok && etype_ok && ereduced_ok
+ in
begin
- let print_endline = print_endline_to_channel (Lazy.force och) in
+ let print_endline s = print_endline_to_channel (Lazy.force och) s in
if not eterm_ok then begin
print_endline "### Term mismatch ###";
print_endline "# expected:";
print_endline "# found:";
print_endline (" " ^ found.eterm);
end;
+ if not eenv_ok then begin
+ print_endline "### Disambiguation environment mismatch ###";
+ print_endline "# expected:";
+ print_endline (" " ^ expected.eenv);
+ print_endline "# found:";
+ print_endline (" " ^ found.eenv);
+ end;
if not emetasenv_ok then begin
print_endline "### Metasenv mismatch ###";
print_endline "# expected:";
let as_expected report_fname expected found =
(if Sys.file_exists report_fname then Sys.remove report_fname) ;
let och = lazy (open_out report_fname) in
- let print_endline = print_endline_to_channel (Lazy.force och) in
+ let print_endline s = print_endline_to_channel (Lazy.force och) s in
+ let print_interpretation test =
+ print_endline "## Interpretation dump ##";
+ print_endline "# Disambiguation environment:";
+ print_endline test.eenv;
+ print_endline "# Metasenv:";
+ print_endline test.emetasenv;
+ print_endline "# Term:";
+ print_endline test.eterm;
+ print_endline "# Type:";
+ print_endline test.etype;
+ print_endline "# Reduced term:";
+ print_endline test.ereduced;
+ in
let rec aux =
function
[],[] -> true
| ex::extl, fo::fotl ->
- as_expected_one och ex fo &&
- aux (extl,fotl)
+ let outcome1 = as_expected_one och ex fo in
+ let outcome2 = aux (extl,fotl) in
+ outcome1 && outcome2
| [],found ->
- print_endline "### Too many interpretations found" ;
+ print_endline "### Too many interpretations found:" ;
+ List.iter print_interpretation found;
false
| expected,[] ->
- print_endline "### Too few interpretations found" ;
+ print_endline "### Too few interpretations found:" ;
+ List.iter print_interpretation expected;
false
in
let outcome = aux (expected,found) in
let test_this mqi_handle uri_pred raw_term =
let empty_context = [] in
List.map
- (function (metasenv, cic_term) ->
+ (function (env, metasenv, cic_term) ->
let etype =
try
CicPp.ppterm
CicPp.ppterm (CicReduction.whd empty_context cic_term)
with _ -> "MALFORMED"
in
- {
- term = raw_term; (* useless *)
+ { term = raw_term; (* useless *)
+ eenv = DisambiguatingParser.EnvironmentP3.to_string env ^ "\n";
emetasenv = CicMetaSubst.ppmetasenv metasenv [] ^ "\n";
eterm = CicPp.ppterm cic_term ^ "\n";
etype = etype ^ "\n";
else
CicEnvironment.empty ()
-let main mqi_handle generate dump fnames tryvars varsprefix =
- let uri_pred = BatchParser.uri_pred_of_conf tryvars varsprefix in
+let main mqi_handle generate dump fnames tryvars prefix varsprefix =
+ let uri_pred = BatchParser.uri_pred_of_conf tryvars ~prefix ~varsprefix in
if generate then
begin
(* gen mode *)
(if append_NL then prerr_endline else prerr_string)
(HelmLogger.string_of_html_msg msg));
- let mqi_debug_fun = ignore in
+ let mqi_debug_fun s =
+ HelmLogger.log ~append_NL:true (`Msg (`T s)) in
let mqi_handle = MQIConn.init ~log:mqi_debug_fun () in
let fnames = ref [] in
let tryvars = ref false in
let dump = ref false in
let nodump = ref false in
- let varsprefix = ref "" in
+ let prefix = ref "" in
+ let varsprefix = ref "###" in
let usage = "regtest [OPTION] ... test1 ..." in
let spec =
["-gen", Arg.Set gen,
"--nodump", Arg.Set nodump, "do not dump the final environment" ;
"-vars", Arg.Set tryvars, "try also variables" ;
"-novars", Arg.Clear tryvars, "do not try variables (default)" ;
+ "-prefix", Arg.Set_string prefix,
+ "limit object choices to URIs beginning with prefix" ;
+ "--prefix", Arg.Set_string prefix,
+ "limit object choices to URIs beginning with prefix" ;
"-varsprefix", Arg.Set_string varsprefix,
- "limit variable choices to URIs beginning with prefix" ;
+ "limit variable choices to URIs beginning with prefix; overrides -prefix" ;
"--varsprefix", Arg.Set_string varsprefix,
- "limit variable choices to URIs beginning with prefix" ;
+ "limit variable choices to URIs beginning with prefix; overrides -prefix"
]
in
Arg.parse spec (fun filename -> fnames := filename::!fnames ) usage ;
if !fnames = [] then
Arg.usage spec (Sys.argv.(0) ^ ": missing argument test. You must provide at least one test file.\n" ^ usage) ;
- main mqi_handle !gen ((!gen || !dump) && (not !nodump)) !fnames !tryvars !varsprefix;
+ if !varsprefix = "###" then varsprefix := !prefix ;
+ main mqi_handle !gen ((!gen || !dump) && (not !nodump)) !fnames !tryvars !prefix !varsprefix;
MQIConn.close mqi_handle