277 lines
8.8 KiB
OCaml
277 lines
8.8 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* Automatique. Distributed only by permission. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* Detection of partial matches and unused match cases. *)
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open Misc
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open Asttypes
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open Typedtree
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let make_pat desc ty =
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{pat_desc = desc; pat_loc = Location.none; pat_type = ty}
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let omega = make_pat Tpat_any Ctype.none
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let rec omegas i =
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if i <= 0 then [] else omega :: omegas (i-1)
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let omega_list l = omegas(List.length l)
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let has_guard act =
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match act.exp_desc with
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Texp_when(_, _) -> true
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| _ -> false
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let simple_match p1 p2 =
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match p1.pat_desc, p2.pat_desc with
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Tpat_construct(c1, _), Tpat_construct(c2, _) ->
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c1.cstr_tag = c2.cstr_tag
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| Tpat_constant(c1), Tpat_constant(c2) ->
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c1 = c2
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| Tpat_tuple(_), Tpat_tuple(_) -> true
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| Tpat_record(_), Tpat_record(_) -> true
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| _, (Tpat_any | Tpat_var(_)) -> true
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| _, _ -> false
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(* Return the set of labels and number of fields for a record pattern. *)
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let record_labels p =
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match p.pat_desc with
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Tpat_record((lbl1, pat1) :: rem) -> Array.to_list lbl1.lbl_all
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| _ -> fatal_error "Parmatch.record_labels"
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let record_num_fields p =
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match p.pat_desc with
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Tpat_record((lbl1, pat1) :: rem) -> Array.length lbl1.lbl_all
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| _ -> fatal_error "Parmatch.record_num_fields"
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let set_fields size l =
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let v = Array.create size omega in
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let rec change_rec l = match l with
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(lbl,p)::l -> v.(lbl.lbl_pos) <- p ; change_rec l
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| [] -> () in
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change_rec l;
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Array.to_list v
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let simple_match_args p1 p2 =
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match p2.pat_desc with
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Tpat_construct(cstr, args) -> args
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| Tpat_tuple(args) -> args
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| Tpat_record(args) -> set_fields (record_num_fields p1) args
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| (Tpat_any | Tpat_var(_)) ->
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begin match p1.pat_desc with
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Tpat_construct(_, args) -> omega_list args
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| Tpat_tuple(args) -> omega_list args
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| Tpat_record(args) -> omega_list args
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| _ -> []
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end
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| _ -> []
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(*
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Computes the discriminating pattern for matching by the first
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column of pss, that is:
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checks for a tuple or a record when q is a variable.
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*)
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let rec simple_pat q pss = match pss with
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({pat_desc = Tpat_alias(p,_)}::ps)::pss ->
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simple_pat q ((p::ps)::pss)
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| ({pat_desc = Tpat_or(p1,p2)}::ps)::pss ->
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simple_pat q ((p1::ps)::(p2::ps)::pss)
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| ({pat_desc = (Tpat_any | Tpat_var(_))}::_)::pss ->
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simple_pat q pss
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| (({pat_desc = Tpat_tuple(args)} as p)::_)::_ ->
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make_pat (Tpat_tuple(omega_list args)) p.pat_type
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| (({pat_desc = Tpat_record(args)} as p)::_)::pss ->
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make_pat (Tpat_record (List.map (fun lbl -> (lbl,omega)) (record_labels p)))
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p.pat_type
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| _ -> q
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let filter_one q pss =
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let rec filter_rec = function
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({pat_desc = Tpat_alias(p,_)}::ps)::pss ->
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filter_rec ((p::ps)::pss)
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| ({pat_desc = Tpat_or(p1,p2)}::ps)::pss ->
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filter_rec ((p1::ps)::(p2::ps)::pss)
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| (p::ps)::pss ->
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if simple_match q p
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then (simple_match_args q p @ ps) :: filter_rec pss
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else filter_rec pss
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| _ -> [] in
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filter_rec pss
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let filter_extra pss =
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let rec filter_rec = function
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({pat_desc = Tpat_alias(p,_)}::ps)::pss ->
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filter_rec ((p::ps)::pss)
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| ({pat_desc = Tpat_or(p1,p2)}::ps)::pss ->
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filter_rec ((p1::ps)::(p2::ps)::pss)
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| ({pat_desc = (Tpat_any | Tpat_var(_))} :: qs) :: pss ->
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qs :: filter_rec pss
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| _::pss -> filter_rec pss
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| [] -> [] in
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filter_rec pss
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let filter_all pat0 pss =
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let rec insert q qs env =
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match env with
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[] -> [q, [simple_match_args q q @ qs]]
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| ((p,pss) as c)::env ->
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if simple_match q p
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then (p, ((simple_match_args p q @ qs) :: pss)) :: env
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else c :: insert q qs env in
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let rec filter_rec env = function
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({pat_desc = Tpat_alias(p,_)}::ps)::pss ->
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filter_rec env ((p::ps)::pss)
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| ({pat_desc = Tpat_or(p1,p2)}::ps)::pss ->
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filter_rec env ((p1::ps)::(p2::ps)::pss)
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| ({pat_desc = (Tpat_any | Tpat_var(_))}::_)::pss ->
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filter_rec env pss
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| (p::ps)::pss ->
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filter_rec (insert p ps env) pss
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| _ -> env
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and filter_omega env = function
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({pat_desc = Tpat_alias(p,_)}::ps)::pss ->
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filter_omega env ((p::ps)::pss)
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| ({pat_desc = Tpat_or(p1,p2)}::ps)::pss ->
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filter_omega env ((p1::ps)::(p2::ps)::pss)
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| ({pat_desc = (Tpat_any | Tpat_var(_))}::ps)::pss ->
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filter_omega
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(List.map (fun (q,qss) -> (q,(simple_match_args q omega @ ps) :: qss)) env)
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pss
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| _::pss -> filter_omega env pss
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| [] -> env in
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filter_omega
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(filter_rec
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(match pat0.pat_desc with
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(Tpat_record(_) | Tpat_tuple(_)) -> [pat0,[]]
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| _ -> [])
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pss)
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pss
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let full_match env =
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match env with
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({pat_desc = Tpat_construct(c,_)},_) :: _ ->
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List.length env = c.cstr_consts + c.cstr_nonconsts
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| ({pat_desc = Tpat_constant(Const_char _)},_) :: _ ->
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List.length env = 256
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| ({pat_desc = Tpat_constant(_)},_) :: _ -> false
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| ({pat_desc = Tpat_tuple(_)},_) :: _ -> true
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| ({pat_desc = Tpat_record(_)},_) :: _ -> true
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| _ -> fatal_error "Parmatch.full_match"
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(*
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Is the last row of pattern matrix pss + qs satisfiable ?
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That is :
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Does there List.exists at least one value vector, es such that :
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1/ for all ps in pss ps # es (ps and es are not compatible)
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2/ qs <= es (es matches qs)
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*)
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let rec satisfiable pss qs =
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match pss with
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[] -> true
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| _ ->
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match qs with
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[] -> false
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| {pat_desc = Tpat_or(q1,q2)}::qs ->
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satisfiable pss (q1::qs) or satisfiable pss (q2::qs)
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| {pat_desc = Tpat_alias(q,_)}::qs ->
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satisfiable pss (q::qs)
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| {pat_desc = (Tpat_any | Tpat_var(_))}::qs ->
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let q0 = simple_pat omega pss in
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begin match filter_all q0 pss with
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(* first column of pss is made of variables only *)
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[] -> satisfiable (filter_extra pss) qs
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| constrs ->
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let try_non_omega (p,pss) =
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satisfiable pss (simple_match_args p omega @ qs) in
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if full_match constrs
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then List.exists try_non_omega constrs
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else satisfiable (filter_extra pss) qs or
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List.exists try_non_omega constrs
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end
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| q::qs ->
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let q0 = simple_pat q pss in
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satisfiable (filter_one q0 pss) (simple_match_args q0 q @ qs)
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let rec initial_matrix = function
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[] -> []
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| (pat, act) :: rem ->
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if has_guard act
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then initial_matrix rem
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else [pat] :: initial_matrix rem
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let rec le_pat p q =
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match (p.pat_desc, q.pat_desc) with
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(Tpat_var _ | Tpat_any), _ -> true
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| Tpat_alias(p,_), _ -> le_pat p q
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| _, Tpat_alias(q,_) -> le_pat p q
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| Tpat_or(p1,p2), _ -> le_pat p1 q or le_pat p2 q
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| _, Tpat_or(q1,q2) -> le_pat p q1 & le_pat p q2
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| Tpat_constant(c1), Tpat_constant(c2) -> c1 = c2
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| Tpat_construct(c1,ps), Tpat_construct(c2,qs) ->
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c1.cstr_tag = c2.cstr_tag & le_pats ps qs
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| Tpat_tuple(ps), Tpat_tuple(qs) -> le_pats ps qs
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| Tpat_record(l1), Tpat_record(l2) ->
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let size = record_num_fields p in
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le_pats (set_fields size l1) (set_fields size l2)
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| _, _ -> false
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and le_pats ps qs =
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match ps,qs with
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p::ps, q::qs -> le_pat p q & le_pats ps qs
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| _, _ -> true
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let get_mins ps =
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let rec select_rec r = function
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[] -> r
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| p::ps ->
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if List.exists (fun p0 -> le_pats p0 p) ps
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then select_rec r ps
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else select_rec (p::r) ps in
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select_rec [] (select_rec [] ps)
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let check_partial loc casel =
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let pss = get_mins (initial_matrix casel) in
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if match pss with
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[] -> true
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| ps::_ -> satisfiable pss (List.map (fun _ -> omega) ps)
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then Location.print_warning loc "this pattern-matching is not exhaustive"
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let location_of_clause = function
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pat :: _ -> pat.pat_loc
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| _ -> fatal_error "Parmatch.location_of_clause"
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let check_unused casel =
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let prefs =
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List.fold_right
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(fun (pat,act as clause) r ->
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if has_guard act
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then ([], ([pat], act)) :: r
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else ([], ([pat], act)) ::
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List.map (fun (pss,clause) -> [pat]::pss,clause) r)
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casel [] in
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List.iter
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(fun (pss, ((qs, _) as clause)) ->
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if not (satisfiable pss qs) then
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Location.print_warning (location_of_clause qs)
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"this match case is unused.")
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prefs
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