- (* Find any patterns (ie. tactics) which match the one we
- * are searching for. This returns a binding for the goal args,
- * so we end up with a list of (pattern, name, goal, args).
- *)
- let patterns : (Ast.pattern * Ast.id * Ast.goal * Ast.expr list) list =
- filter_map (
- fun (pattern, name, ((params, _, _, _) as goal)) ->
- match matching_pattern env loc tactic cargs pattern params with
- | None -> None
- | Some args -> Some (pattern, name, goal, args)
- ) patterns in
-
- match patterns with
- | [] ->
- (* There's no matching goal, but we don't need one if
- * the tactic doesn't need to be rebuilt.
- *)
- let targs = List.map (function Ast.CString s -> [Ast.SString s]) cargs in
- let p = Ast.PTactic (loc, tactic, targs) in
- if needs_rebuild env loc [] [] p then
- failwithf "%a: don't know how to build %s"
- Ast.string_loc loc debug_tactic
-
- | [_, name, goal, args] ->
- (* Single goal matches, run it. *)
- let key = name, args in
- Jobs.start group key (
- fun () -> run_goal env loc name args goal []
- )
-
- | goals ->
- (* Two or more goals match. Only one must have a CODE section,
- * and we combine the dependencies into a "supergoal".
- *)
- let with_code, without_code =
- List.partition (
- fun (_, _, (_, _, _, code), _) -> code <> None
- ) goals in
-
- let (_, name, goal, args), extra_deps =
- match with_code with
- | [g] ->
- let extra_deps =
- List.flatten (
- List.map (fun (_, _, (_, _, deps, _), _) -> deps) without_code
- ) in
- (g, extra_deps)
-
- | [] ->
- (* This is OK, it means we'll rebuild all dependencies
- * but there is no code to run. Pick the first goal
- * without code and the dependencies from the other goals.
- *)
- let g = List.hd without_code in
- let extra_deps =
- List.flatten (
- List.map (fun (_, _, (_, _, deps, _), _) -> deps)
- (List.tl without_code)
- ) in
- (g, extra_deps)
-
- | _ :: _ ->
- failwithf "%a: multiple goals found which match tactic %s, but more than one of these goals have {code} sections which is not allowed"
- Ast.string_loc loc debug_tactic in
-
- let key = name, args in
- Jobs.start group key (fun () ->
- run_goal env loc name args goal extra_deps
- )
-
-(* Test if pattern matches *tactic(cargs). If it does
- * then we return Some args where args is the arguments that must
- * be passed to the matching goal. The params parameter is
- * the names of the parameters of that goal.
- *)
-and matching_pattern env loc tactic cargs pattern params =
- match pattern with
- | Ast.PTactic (loc, ttactic, targs)
- when tactic <> ttactic ||
- List.length cargs <> List.length targs ->
- None (* Can't possibly match if tactic name or #args is different. *)
- | Ast.PTactic (loc, ttactic, targs) ->
- (* Do the args match with a possible params binding? *)
- try Some (matching_params env loc params targs cargs)
- with Not_found -> None
-
-(* Return a possible binding. For example the goal is:
- * goal compile (name) = "%name.o": "%name.c" {}
- * which means that params = ["name"] and targs = ["%name.o"].
- *
- * If we are called with cargs = ["file1.o"], we would
- * return ["file1"].
- *
- * On non-matching this raises Not_found.
- *)
-and matching_params env loc params targs cargs =
- (* This is going to record the resulting binding. *)
- let res = ref Ast.Env.empty in
- List.iter2 (matching_param env loc params res) targs cargs;
-
- (* Rearrange the result into goal parameter order. Also this
- * checks that every parameter got a binding.
- *)
- let res = !res in
- List.map (
- (* Allow the Not_found exception to escape if no binding for this param. *)
- fun param -> Ast.Env.find param res
- ) params
-
-(* If targ = "%name.o" and carg = "file.o" then this would set
- * name => "file" in !res. If they don't match, raises Not_found.
- *)
-and matching_param env loc params res targ carg =
- match carg with
- | Ast.CString carg ->
- (* Substitute any non parameters in targ from the environment. *)
- let targ =
- List.map (
- function
- | Ast.SString _ as s -> s
- | Ast.SVar name ->
- if not (List.mem name params) then (
- try
- let expr = Ast.getvar env loc name in
- match Eval.to_constant env expr with
- | Ast.CString s -> Ast.SString s
- with Failure _ -> raise Not_found
- )
- else
- Ast.SVar name
- ) targ in
-
- (* Do the actual pattern matching. Any remaining SVar elements
- * must refer to goal parameters.
- *)
- let carg = ref carg in
- let rec loop = function
- | [] ->
- (* End of targ, we must have matched all of carg. *)
- if !carg <> "" then raise Not_found
- | Ast.SString s :: rest ->
- (* Does this match the first part of !carg? *)
- let clen = String.length !carg in
- let slen = String.length s in
- if slen > clen || s <> String.sub !carg 0 slen then
- raise Not_found;
- (* Yes, so continue after the matching prefix. *)
- carg := String.sub !carg slen (clen-slen);
- loop rest
- | Ast.SVar name :: Ast.SString s :: rest ->
- (* This is a goal parameter. Find s later in !carg. *)
- let i = string_find !carg s in
- if i = -1 then raise Not_found;
- (* Set the binding in !res. *)
- let r = Ast.EConstant (Ast.noloc,
- Ast.CString (String.sub !carg 0 i)) in
- res := Ast.Env.add name r !res;
- (* Continue after the match. *)
- let skip = i + String.length s in
- carg := String.sub !carg skip (String.length !carg - skip);
- loop rest
- | Ast.SVar name :: [] ->
- (* Matches the whole remainder of the string. *)
- let r = Ast.EConstant (Ast.noloc, Ast.CString !carg) in
- res := Ast.Env.add name r !res
- | Ast.SVar x :: Ast.SVar y :: _ ->
- (* TODO! We cannot match a target like "%x%y". *)
- assert false
- in
- loop targ