Source file printer.ml
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open Pp
open CErrors
open Util
open Names
open Constr
open Context
open Environ
open Evd
open Constrextern
open Ppconstr
open Declarations
module RelDecl = Context.Rel.Declaration
module NamedDecl = Context.Named.Declaration
module CompactedDecl = Context.Compacted.Declaration
let print_goal_tag_opt_name = ["Printing";"Goal";"Tags"]
let should_tag =
Goptions.declare_bool_option_and_ref
~depr:false
~key:print_goal_tag_opt_name
~value:false
let should_unfoc =
Goptions.declare_bool_option_and_ref
~depr:false
~key:["Printing";"Unfocused"]
~value:false
let should_gname =
Goptions.declare_bool_option_and_ref
~depr:false
~key:["Printing";"Goal";"Names"]
~value:false
let print_goal_names = should_gname
(** Terms *)
let pr_econstr_n_env ?lax ?inctx ?scope env sigma n t =
pr_constr_expr_n env sigma n (extern_constr ?lax ?inctx ?scope env sigma t)
let pr_econstr_env ?lax ?inctx ?scope env sigma t =
pr_constr_expr env sigma (extern_constr ?lax ?inctx ?scope env sigma t)
let pr_leconstr_env = Proof_diffs.pr_leconstr_env
let pr_constr_n_env ?lax ?inctx ?scope env sigma n c =
pr_econstr_n_env ?lax ?inctx ?scope env sigma n (EConstr.of_constr c)
let pr_constr_env ?lax ?inctx ?scope env sigma c =
pr_econstr_env ?lax ?inctx ?scope env sigma (EConstr.of_constr c)
let pr_lconstr_env = Proof_diffs.pr_lconstr_env
let pr_open_lconstr_env ?lax ?inctx ?scope env sigma (_,c) =
pr_leconstr_env ?lax ?inctx ?scope env sigma c
let pr_open_constr_env ?lax ?inctx ?scope env sigma (_,c) =
pr_econstr_env ?lax ?inctx ?scope env sigma c
let pr_constr_under_binders_env_gen pr env sigma (ids,c) =
let assums = List.map (fun id -> (make_annot (Name id) Sorts.Relevant, mkProp)) ids in
pr (Termops.push_rels_assum assums env) sigma c
let pr_constr_under_binders_env = pr_constr_under_binders_env_gen pr_econstr_env
let pr_lconstr_under_binders_env = pr_constr_under_binders_env_gen pr_leconstr_env
let pr_etype_env ?lax ?goal_concl_style env sigma t =
pr_constr_expr env sigma (extern_type ?lax ?goal_concl_style env sigma t)
let pr_letype_env = Proof_diffs.pr_letype_env
let pr_type_env ?lax ?goal_concl_style env sigma c =
pr_etype_env ?lax ?goal_concl_style env sigma (EConstr.of_constr c)
let pr_ltype_env ?lax ?goal_concl_style env sigma ?impargs c =
pr_letype_env ?lax ?goal_concl_style env sigma ?impargs (EConstr.of_constr c)
let pr_ljudge_env env sigma j =
(pr_leconstr_env env sigma j.uj_val, pr_leconstr_env env sigma j.uj_type)
let pr_lglob_constr_env env sigma c =
pr_lconstr_expr env sigma (extern_glob_constr (extern_env env sigma) c)
let pr_glob_constr_env env sigma c =
pr_constr_expr env sigma (extern_glob_constr (extern_env env sigma) c)
let pr_closed_glob_n_env ?lax ?goal_concl_style ?inctx ?scope env sigma n c =
pr_constr_expr_n env sigma n (extern_closed_glob ?lax ?goal_concl_style ?inctx ?scope env sigma c)
let pr_closed_glob_env ?lax ?goal_concl_style ?inctx ?scope env sigma c =
pr_constr_expr env sigma (extern_closed_glob ?lax ?goal_concl_style ?inctx ?scope env sigma c)
let pr_lconstr_pattern_env env sigma c =
pr_lconstr_pattern_expr env sigma (extern_constr_pattern (Termops.names_of_rel_context env) sigma c)
let pr_constr_pattern_env env sigma c =
pr_constr_pattern_expr env sigma (extern_constr_pattern (Termops.names_of_rel_context env) sigma c)
let pr_cases_pattern t =
pr_cases_pattern_expr (extern_cases_pattern Names.Id.Set.empty t)
let pr_sort sigma s = pr_sort_expr (extern_sort sigma s)
let () = Termops.Internal.set_print_constr
(fun env sigma t -> pr_lconstr_expr env sigma (extern_constr ~lax:true env sigma t))
let x = str "(* " ++ x ++ str " *)"
(** Term printers resilient to [Nametab] errors *)
(** When the nametab isn't up-to-date, the term printers above
could raise [Not_found] during [Nametab.shortest_qualid_of_global].
In this case, we build here a fully-qualified name based upon
the kernel modpath and label of constants, and the idents in
the [mutual_inductive_body] for the inductives and constructors
(needs an environment for this). *)
let id_of_global env = let open GlobRef in function
| ConstRef kn -> Label.to_id (Constant.label kn)
| IndRef (kn,0) -> Label.to_id (MutInd.label kn)
| IndRef (kn,i) ->
(Environ.lookup_mind kn env).mind_packets.(i).mind_typename
| ConstructRef ((kn,i),j) ->
(Environ.lookup_mind kn env).mind_packets.(i).mind_consnames.(j-1)
| VarRef v -> v
let rec dirpath_of_mp = function
| MPfile sl -> sl
| MPbound uid -> DirPath.make [MBId.to_id uid]
| MPdot (mp,l) ->
Libnames.add_dirpath_suffix (dirpath_of_mp mp) (Label.to_id l)
let dirpath_of_global = let open GlobRef in function
| ConstRef kn -> dirpath_of_mp (Constant.modpath kn)
| IndRef (kn,_) | ConstructRef ((kn,_),_) ->
dirpath_of_mp (MutInd.modpath kn)
| VarRef _ -> DirPath.empty
let qualid_of_global ?loc env r =
Libnames.make_qualid ?loc (dirpath_of_global r) (id_of_global env r)
let safe_gen f env sigma c =
let orig_extern_ref = Constrextern.get_extern_reference () in
let extern_ref ?loc vars r =
try orig_extern_ref vars r
with e when CErrors.noncritical e ->
qualid_of_global ?loc env r
in
Constrextern.set_extern_reference extern_ref;
try
let p = f env sigma c in
Constrextern.set_extern_reference orig_extern_ref;
p
with e when CErrors.noncritical e ->
Constrextern.set_extern_reference orig_extern_ref;
str "??"
let safe_pr_lconstr_env = safe_gen pr_lconstr_env
let safe_pr_constr_env = safe_gen pr_constr_env
let u_ident = Id.of_string "u"
let universe_binders_with_opt_names orig names =
let orig = Univ.AbstractContext.names orig in
let orig = Array.to_list orig in
let udecl = match names with
| None -> orig
| Some udecl ->
try
List.map2 (fun orig {CAst.v = na} ->
match na with
| Anonymous -> orig
| Name id -> Name id) orig udecl
with Invalid_argument _ ->
let open UnivGen in
raise (UniverseLengthMismatch {
actual = List.length orig;
expect = List.length udecl;
})
in
let fold_named i ubind = function
| Name id -> Id.Map.add id (Univ.Level.var i) ubind
| Anonymous -> ubind
in
let ubind = List.fold_left_i fold_named 0 UnivNames.empty_binders udecl in
let fold_anons i (u_ident, ubind) = function
| Name _ -> u_ident, ubind
| Anonymous ->
let id = Namegen.next_ident_away_from u_ident (fun id -> Id.Map.mem id ubind) in
(id, Id.Map.add id (Univ.Level.var i) ubind)
in
let (_, ubind) = List.fold_left_i fold_anons 0 (u_ident, ubind) udecl in
ubind
let pr_universe_ctx_set sigma c =
if !Detyping.print_universes && not (Univ.ContextSet.is_empty c) then
fnl()++pr_in_comment (v 0 (Univ.pr_universe_context_set (Termops.pr_evd_level sigma) c))
else
mt()
let pr_universe_ctx sigma ?variance c =
if !Detyping.print_universes && not (Univ.UContext.is_empty c) then
fnl()++pr_in_comment (v 0 (Univ.pr_universe_context (Termops.pr_evd_level sigma) ?variance c))
else
mt()
let pr_abstract_universe_ctx sigma ?variance ?priv c =
let open Univ in
let priv = Option.default Univ.ContextSet.empty priv in
let has_priv = not (ContextSet.is_empty priv) in
if !Detyping.print_universes && (not (Univ.AbstractContext.is_empty c) || has_priv) then
let prlev u = Termops.pr_evd_level sigma u in
let pub = (if has_priv then str "Public universes:" ++ fnl() else mt()) ++ v 0 (Univ.pr_abstract_universe_context prlev ?variance c) in
let priv = if has_priv then fnl() ++ str "Private universes:" ++ fnl() ++ v 0 (Univ.pr_universe_context_set prlev priv) else mt() in
fnl()++pr_in_comment (pub ++ priv)
else
mt()
let pr_universes sigma ?variance ?priv = function
| Declarations.Monomorphic -> mt ()
| Declarations.Polymorphic ctx -> pr_abstract_universe_ctx sigma ?variance ?priv ctx
let pr_global_env = Nametab.pr_global_env
let pr_global = pr_global_env Id.Set.empty
let pr_universe_instance_constraints evd inst csts =
let open Univ in
let prlev = Termops.pr_evd_level evd in
let pcsts = if Constraints.is_empty csts then mt()
else str " |= " ++
prlist_with_sep (fun () -> str "," ++ spc())
(fun (u,d,v) -> hov 0 (prlev u ++ pr_constraint_type d ++ prlev v))
(Constraints.elements csts)
in
str"@{" ++ Instance.pr prlev inst ++ pcsts ++ str"}"
let pr_universe_instance evd inst =
pr_universe_instance_constraints evd inst Univ.Constraints.empty
let pr_puniverses f env sigma (c,u) =
if !Constrextern.print_universes
then f env c ++ pr_universe_instance sigma u
else f env c
let pr_existential_key = Termops.pr_existential_key
let pr_existential env sigma ev = pr_lconstr_env env sigma (mkEvar ev)
let pr_constant env cst = pr_global_env (Termops.vars_of_env env) (GlobRef.ConstRef cst)
let pr_inductive env ind = pr_global_env (Termops.vars_of_env env) (GlobRef.IndRef ind)
let pr_constructor env cstr = pr_global_env (Termops.vars_of_env env) (GlobRef.ConstructRef cstr)
let pr_pconstant = pr_puniverses pr_constant
let pr_pinductive = pr_puniverses pr_inductive
let pr_pconstructor = pr_puniverses pr_constructor
let pr_evaluable_reference ref =
pr_global (Tacred.global_of_evaluable_reference ref)
let get_compact_context,set_compact_context =
let compact_context = ref false in
(fun () -> !compact_context),(fun b -> compact_context := b)
let pr_compacted_decl env sigma decl =
let ids, pbody, typ = match decl with
| CompactedDecl.LocalAssum (ids, typ) ->
ids, mt (), typ
| CompactedDecl.LocalDef (ids,c,typ) ->
let pb = pr_lconstr_env ~inctx:true env sigma c in
let pb = if isCast c then surround pb else pb in
ids, (str" := " ++ pb ++ cut ()), typ
in
let pids = prlist_with_sep pr_comma (fun id -> pr_id id.binder_name) ids in
let pt = pr_ltype_env env sigma typ in
let ptyp = (str" : " ++ pt) in
hov 0 (pids ++ pbody ++ ptyp)
let pr_named_decl env sigma decl =
decl |> CompactedDecl.of_named_decl |> pr_compacted_decl env sigma
let pr_rel_decl env sigma decl =
let na = RelDecl.get_name decl in
let typ = RelDecl.get_type decl in
let pbody = match decl with
| RelDecl.LocalAssum _ -> mt ()
| RelDecl.LocalDef (_,c,_) ->
let pb = pr_lconstr_env ~inctx:true env sigma c in
let pb = if isCast c then surround pb else pb in
(str":=" ++ spc () ++ pb ++ spc ()) in
let ptyp = pr_ltype_env env sigma typ in
match na with
| Anonymous -> hov 0 (str"<>" ++ spc () ++ pbody ++ str":" ++ spc () ++ ptyp)
| Name id -> hov 0 (pr_id id ++ spc () ++ pbody ++ str":" ++ spc () ++ ptyp)
let pr_named_context_of env sigma =
let make_decl_list env d pps = pr_named_decl env sigma d :: pps in
let psl = List.rev (fold_named_context make_decl_list env ~init:[]) in
hv 0 (prlist_with_sep (fun _ -> ws 2) (fun x -> x) psl)
let pr_var_list_decl env sigma decl =
hov 0 (pr_compacted_decl env sigma decl)
let pr_named_context env sigma ne_context =
hv 0 (Context.Named.fold_outside
(fun d pps -> pps ++ ws 2 ++ pr_named_decl env sigma d)
ne_context ~init:(mt ()))
let pr_rel_context env sigma rel_context =
let rel_context = List.map (fun d -> Termops.map_rel_decl EConstr.of_constr d) rel_context in
pr_binders env sigma (extern_rel_context None env sigma rel_context)
let pr_rel_context_of env sigma =
pr_rel_context env sigma (rel_context env)
let pr_context_unlimited env sigma =
let sign_env =
Context.Compacted.fold
(fun d pps ->
let pidt = pr_compacted_decl env sigma d in
(pps ++ fnl () ++ pidt))
(Termops.compact_named_context (named_context env)) ~init:(mt ())
in
let db_env =
fold_rel_context
(fun env d pps ->
let pnat = pr_rel_decl env sigma d in (pps ++ fnl () ++ pnat))
env ~init:(mt ())
in
(sign_env ++ db_env)
let pr_ne_context_of env sigma =
if List.is_empty (Environ.rel_context env) &&
List.is_empty (Environ.named_context env) then (mt ())
else let penv = pr_context_unlimited env sigma in (header ++ penv ++ fnl ())
let should_compact env sigma typ =
get_compact_context() &&
let type_of_typ = Retyping.get_type_of env sigma (EConstr.of_constr typ) in
not (is_Prop (EConstr.to_constr sigma type_of_typ))
let rec bld_sign_env env sigma ctxt pps =
match ctxt with
| [] -> pps
| CompactedDecl.LocalAssum (ids,typ)::ctxt' when should_compact env sigma typ ->
let pps',ctxt' = bld_sign_env_id env sigma ctxt (mt ()) true in
bld_sign_env env sigma ctxt' (pps ++ brk (0,0) ++ hov 0 pps')
| d:: ctxt' ->
let pidt = pr_var_list_decl env sigma d in
let pps' = pps ++ brk (0,0) ++ pidt in
bld_sign_env env sigma ctxt' pps'
and bld_sign_env_id env sigma ctxt pps is_start =
match ctxt with
| [] -> pps,ctxt
| CompactedDecl.LocalAssum(ids,typ) as d :: ctxt' when should_compact env sigma typ ->
let pidt = pr_var_list_decl env sigma d in
let pps' = pps ++ (if not is_start then brk (3,0) else (mt ())) ++ pidt in
bld_sign_env_id env sigma ctxt' pps' false
| _ -> pps,ctxt
let pr_context_limit_compact ?n env sigma =
let ctxt = Termops.compact_named_context (named_context env) in
let lgth = List.length ctxt in
let n_capped =
match n with
| None -> lgth
| Some n when n > lgth -> lgth
| Some n -> n in
let ctxt_chopped,ctxt_hidden = Util.List.chop n_capped ctxt in
let hidden_dots = String.make (List.length ctxt_hidden) '.' in
let sign_env = v 0 (str hidden_dots ++ (mt ())
++ bld_sign_env env sigma (List.rev ctxt_chopped) (mt ())) in
let db_env =
fold_rel_context (fun env d pps -> pps ++ fnl () ++ pr_rel_decl env sigma d)
env ~init:(mt ()) in
sign_env ++ db_env
let print_hyps_limit =
Goptions.declare_intopt_option_and_ref ~depr:false ~key:["Hyps";"Limit"]
let pr_context_of env sigma = match print_hyps_limit () with
| None -> hv 0 (pr_context_limit_compact env sigma)
| Some n -> hv 0 (pr_context_limit_compact ~n env sigma)
let pr_predicate pr_elt (b, elts) =
let pr_elts = prlist_with_sep spc pr_elt elts in
if b then
str"all" ++
(if List.is_empty elts then mt () else str" except: " ++ pr_elts)
else
if List.is_empty elts then str"none" else pr_elts
let pr_cpred p =
let safe_pr_constant env kn =
try pr_constant env kn
with Not_found when !Flags.in_debugger || !Flags.in_toplevel ->
Names.Constant.print kn in
pr_predicate (safe_pr_constant (Global.env())) (Cpred.elements p)
let pr_idpred p = pr_predicate Id.print (Id.Pred.elements p)
let pr_transparent_state ts =
hv 0 (str"VARIABLES: " ++ pr_idpred ts.TransparentState.tr_var ++ fnl () ++
str"CONSTANTS: " ++ pr_cpred ts.TransparentState.tr_cst ++ fnl ())
let goal_repr sigma g =
let evi = Evd.find sigma g in
Evd.evar_filtered_env (Global.env ()) evi, Evd.evar_concl evi
let pr_goal ?(diffs=false) ?og_s g_s =
let g = sig_it g_s in
let sigma = Tacmach.Old.project g_s in
let env, concl = goal_repr sigma g in
let goal =
if diffs then
Proof_diffs.diff_goal ?og_s g sigma
else
pr_context_of env sigma ++ cut () ++
str "============================" ++ cut () ++
hov 0 (pr_letype_env ~goal_concl_style:true env sigma concl)
in
str " " ++ v 0 goal
let pr_goal_tag g =
let s = " (ID " ^ Goal.uid g ^ ")" in
str s
let pr_goal_name sigma g =
if should_gname() then str " " ++ Pp.surround (pr_existential_key (Global.env ()) sigma g)
else mt ()
let nme sigma g =
str "goal " ++ nme ++ (if should_tag() then pr_goal_tag g else str"")
++ (if should_gname() then str " " ++ Pp.surround (pr_existential_key (Global.env ()) sigma g) else mt ())
let pr_concl n ?(diffs=false) ?og_s sigma g =
let env, concl = goal_repr sigma g in
let pc =
if diffs then
Proof_diffs.diff_concl ?og_s sigma g
else
pr_letype_env ~goal_concl_style:true env sigma concl
in
let = pr_goal_header (int n) sigma g in
header ++ str " is:" ++ cut () ++ str" " ++ pc
let pr_evgl_sign env sigma evi =
let env = evar_env env evi in
let ps = pr_named_context_of env sigma in
let _, l = match Filter.repr (evar_filter evi) with
| None -> [], []
| Some f -> List.filter2 (fun b c -> not b) f (evar_context evi)
in
let ids = List.rev_map NamedDecl.get_id l in
let warn =
if List.is_empty ids then mt () else
(str " (" ++ prlist_with_sep pr_comma pr_id ids ++ str " cannot be used)")
in
let pc = pr_leconstr_env env sigma evi.evar_concl in
let candidates =
match evi.evar_body, evi.evar_candidates with
| Evar_empty, Some l ->
spc () ++ str "= {" ++
prlist_with_sep (fun () -> str "|") (pr_leconstr_env env sigma) l ++ str "}"
| _ ->
mt ()
in
hov 0 (str"[" ++ ps ++ spc () ++ str"|- " ++ pc ++ str"]" ++
candidates ++ warn)
let pr_evar sigma (evk, evi) =
let env = Global.env () in
let pegl = pr_evgl_sign env sigma evi in
hov 0 (pr_existential_key env sigma evk ++ str " : " ++ pegl)
let rec pr_evars_int_hd pr sigma i = function
| [] -> mt ()
| (evk,evi)::rest ->
(hov 0 (pr i evk evi)) ++
(match rest with [] -> mt () | _ -> fnl () ++ pr_evars_int_hd pr sigma (i+1) rest)
let pr_evars_int sigma ~shelf ~given_up i evs =
let pr_status i =
if List.mem i shelf then str " (shelved)"
else if List.mem i given_up then str " (given up)"
else mt () in
pr_evars_int_hd
(fun i evk evi ->
str "Existential " ++ int i ++ str " =" ++
spc () ++ pr_evar sigma (evk,evi) ++ pr_status evk)
sigma i (Evar.Map.bindings evs)
let pr_evars sigma evs =
pr_evars_int_hd (fun i evk evi -> pr_evar sigma (evk,evi)) sigma 1 (Evar.Map.bindings evs)
let pr_ne_evar_set hd tl sigma l =
if l != Evar.Set.empty then
let l = Evar.Set.fold (fun ev ->
Evar.Map.add ev (Evarutil.nf_evar_info sigma (Evd.find sigma ev)))
l Evar.Map.empty in
hd ++ pr_evars sigma l ++ tl
else
mt ()
let pr_selected_subgoal name sigma g =
let pg = pr_goal { sigma=sigma ; it=g; } in
let = pr_goal_header name sigma g in
v 0 (header ++ str " is:" ++ cut () ++ pg)
let pr_subgoal n sigma =
let rec prrec p = function
| [] -> user_err Pp.(str "No such goal.")
| g::rest ->
if Int.equal p 1 then
pr_selected_subgoal (int n) sigma g
else
prrec (p-1) rest
in
prrec n
let pr_internal_existential_key ev = Evar.print ev
let print_evar_constraints gl sigma =
let pr_env =
match gl with
| None -> fun e' -> pr_context_of e' sigma
| Some g ->
let env, _ = goal_repr sigma g in fun e' ->
begin
if Context.Named.equal Constr.equal (named_context env) (named_context e') then
if Context.Rel.equal Constr.equal (rel_context env) (rel_context e') then mt ()
else pr_rel_context_of e' sigma ++ str " |-" ++ spc ()
else pr_context_of e' sigma ++ str " |-" ++ spc ()
end
in
let pr_evconstr (pbty,env,t1,t2) =
let t1 = Evarutil.nf_evar sigma t1
and t2 = Evarutil.nf_evar sigma t2 in
let env =
Namegen.make_all_name_different env sigma in
str" " ++
hov 2 (pr_env env ++ pr_leconstr_env env sigma t1 ++ spc () ++
str (match pbty with
| Reduction.CONV -> "=="
| Reduction.CUMUL -> "<=") ++
spc () ++ pr_leconstr_env env sigma t2)
in
let pr_candidate ev evi (candidates,acc) =
if Option.has_some evi.evar_candidates then
(succ candidates, acc ++ pr_evar sigma (ev,evi) ++ fnl ())
else (candidates, acc)
in
let constraints =
let _, cstrs = Evd.extract_all_conv_pbs sigma in
if List.is_empty cstrs then mt ()
else fnl () ++ str (String.plural (List.length cstrs) "unification constraint")
++ str":" ++ fnl () ++ hov 0 (prlist_with_sep fnl pr_evconstr cstrs)
in
let candidates, ppcandidates = Evd.fold_undefined pr_candidate sigma (0,mt ()) in
constraints ++
if candidates > 0 then
fnl () ++ str (String.plural candidates "existential") ++
str" with candidates:" ++ fnl () ++ hov 0 ppcandidates
else mt ()
let should_print_dependent_evars =
Goptions.declare_bool_option_and_ref
~depr:false
~key:["Printing";"Dependent";"Evars";"Line"]
~value:false
let print_dependent_evars gl sigma seeds =
if should_print_dependent_evars () then
let mt_pp = mt () in
let evars = Evarutil.gather_dependent_evars sigma seeds in
let evars_pp = Evar.Map.fold (fun e i s ->
let e' = pr_internal_existential_key e in
let sep = if s = mt_pp then "" else ", " in
s ++ str sep ++ e' ++
(match i with
| None -> str ":" ++ (Termops.pr_existential_key (Global.env ()) sigma e)
| Some i ->
let using = Evar.Set.fold (fun d s ->
s ++ str " " ++ (pr_internal_existential_key d))
i mt_pp in
str " using" ++ using))
evars mt_pp
in
let evars_current_pp = match gl with
| None -> mt_pp
| Some gl ->
let evars_current = Evarutil.gather_dependent_evars sigma [ gl ] in
Evar.Map.fold (fun e _ s ->
s ++ str " " ++ (pr_internal_existential_key e))
evars_current mt_pp
in
cut () ++ cut () ++
str "(dependent evars: " ++ evars_pp ++
str "; in current goal:" ++ evars_current_pp ++ str ")"
else mt ()
module GoalMap = Evar.Map
let pr_subgoals ?(pr_first=true) ?(diffs=false) ?os_map
close_cmd sigma ~seeds ~shelf ~stack ~unfocused ~goals =
let diff_goal_map =
match os_map with
| Some (_, diff_goal_map) -> diff_goal_map
| None -> GoalMap.empty
in
let rec print_stack a = function
| [] -> Pp.int a
| b::l -> Pp.int a ++ str"-" ++ print_stack b l
in
let print_unfocused_nums l =
match l with
| [] -> None
| a::l -> Some (str"unfocused: " ++ print_stack a l)
in
let print_shelf l =
match l with
| [] -> None
| _ -> Some (str"shelved: " ++ Pp.int (List.length l))
in
let rec print_comma_separated_list a l =
match l with
| [] -> a
| b::l -> print_comma_separated_list (a++str", "++b) l
in
let l =
match l with
| [] -> Pp.mt ()
| a::l -> Pp.spc () ++ str"(" ++ print_comma_separated_list a l ++ str")"
in
let = Option.List.flatten [ print_unfocused_nums stack ; print_shelf shelf ] in
let = print_extra_list extra in
let focused_if_needed =
let needed = not (CList.is_empty extra) && pr_first in
if needed then str" focused "
else str" "
in
let get_ogs g =
match os_map with
| Some (osigma, _) ->
(try Some (GoalMap.find g diff_goal_map, osigma)
with Not_found -> None)
| None -> None
in
let rec pr_rec n = function
| [] -> (mt ())
| g::rest ->
let og_s = get_ogs g in
let pc = pr_concl n ~diffs ?og_s sigma g in
let prest = pr_rec (n+1) rest in
(cut () ++ pc ++ prest)
in
let print_multiple_goals g l =
if pr_first then
let og_s = get_ogs g in
pr_goal ~diffs ?og_s { it = g ; sigma = sigma }
++ (if l=[] then mt () else cut ())
++ pr_rec 2 l
else
pr_rec 1 (g::l)
in
let pr_evar_info gl sigma seeds =
let first_goal = if pr_first then gl else None in
print_evar_constraints gl sigma ++ print_dependent_evars first_goal sigma seeds
in
let () =
match close_cmd with
| Some cmd -> Feedback.msg_info cmd
| None -> ()
in
match goals with
| [] ->
let exl = Evd.undefined_map sigma in
if Evar.Map.is_empty exl then
v 0 (str "No more goals." ++ pr_evar_info None sigma seeds)
else
let pei = pr_evars_int sigma ~shelf ~given_up:[] 1 exl in
v 0 ((str "No more goals,"
++ str " but there are non-instantiated existential variables:"
++ cut () ++ (hov 0 pei)
++ pr_evar_info None sigma seeds
++ cut () ++ str "You can use Unshelve."))
| g1::rest ->
let goals = print_multiple_goals g1 rest in
let ngoals = List.length rest+1 in
v 0 (
hov 0 (int ngoals ++ focused_if_needed ++ str(String.plural ngoals "goal")
++ print_extra)
++ str (if pr_first && (should_gname()) && ngoals > 1 then ", goal 1" else "")
++ (if pr_first && should_tag() then pr_goal_tag g1 else str"")
++ (if pr_first then pr_goal_name sigma g1 else mt()) ++ cut () ++ goals
++ (if unfocused=[] then str ""
else (cut() ++ cut() ++ str "*** Unfocused goals:" ++ cut()
++ pr_rec (List.length rest + 2) unfocused))
++ pr_evar_info (Some g1) sigma seeds
)
let pr_open_subgoals_diff ?(quiet=false) ?(diffs=false) ?oproof proof =
let p = proof in
let Proof.{goals; stack; sigma} = Proof.data p in
let shelf = Evd.shelf sigma in
let given_up = Evd.given_up sigma in
let stack = List.map (fun (l,r) -> List.length l + List.length r) stack in
let seeds = Proof.V82.top_evars p in
begin match goals with
| [] -> let { Evd.it = bgoals ; sigma = bsigma } = Proof.V82.background_subgoals p in
begin match bgoals,shelf,given_up with
| [] , [] , g when Evar.Set.is_empty g -> pr_subgoals None sigma ~seeds ~shelf ~stack ~unfocused:[] ~goals
| [] , [] , _ ->
Feedback.msg_info (str "No more goals, but there are some goals you gave up:");
fnl ()
++ pr_subgoals ~pr_first:false None bsigma ~seeds ~shelf:[] ~stack:[] ~unfocused:[] ~goals:(Evar.Set.elements given_up)
++ fnl () ++ str "You need to go back and solve them."
| [] , _ , _ ->
Feedback.msg_info (str "All the remaining goals are on the shelf.");
fnl ()
++ pr_subgoals ~pr_first:false None bsigma ~seeds ~shelf:[] ~stack:[] ~unfocused:[] ~goals:shelf
| _ , _, _ ->
let cmd = if quiet then None else
Some
(str "This subproof is complete, but there are some unfocused goals." ++
(let s = Proof_bullet.suggest p in
if Pp.ismt s then s else fnl () ++ s) ++
fnl ())
in
pr_subgoals ~pr_first:false cmd bsigma ~seeds ~shelf ~stack:[] ~unfocused:[] ~goals:bgoals
end
| _ ->
let { Evd.it = bgoals ; sigma = bsigma } = Proof.V82.background_subgoals p in
let bgoals_focused, bgoals_unfocused = List.partition (fun x -> List.mem x goals) bgoals in
let unfocused_if_needed = if should_unfoc() then bgoals_unfocused else [] in
let os_map = match oproof with
| Some op when diffs ->
(try
let Proof.{sigma=osigma} = Proof.data op in
let diff_goal_map = Proof_diffs.make_goal_map oproof proof in
Some (osigma, diff_goal_map)
with Pp_diff.Diff_Failure msg ->
Proof_diffs.notify_proof_diff_failure msg;
None)
| _ -> None
in
pr_subgoals ~pr_first:true ~diffs ?os_map None bsigma ~seeds ~shelf ~stack:[]
~unfocused:unfocused_if_needed ~goals:bgoals_focused
end
let pr_open_subgoals ~proof =
pr_open_subgoals_diff proof
let pr_nth_open_subgoal ~proof n =
let Proof.{goals;sigma} = Proof.data proof in
pr_subgoal n sigma goals
let pr_goal_by_id ~proof id =
try
let { Proof.sigma } = Proof.data proof in
let g = Evd.evar_key id sigma in
pr_selected_subgoal (pr_id id) sigma g
with Not_found -> user_err Pp.(str "No such goal.")
(** print a goal identified by the goal id as it appears in -emacs mode.
sid should be the Stm state id corresponding to proof. Used to support
the Prooftree tool in Proof General. (https://askra.de/software/prooftree/).
*)
let pr_goal_emacs ~proof gid sid =
match proof with
| None -> user_err Pp.(str "No proof for that state.")
| Some proof ->
let pr gs =
v 0 ((str "goal ID " ++ (int gid) ++ str " at state " ++ (int sid)) ++ cut ()
++ pr_goal gs)
in
try
let { Proof.sigma } = Proof.data proof in
pr { it = Evar.unsafe_of_int gid ; sigma }
with Not_found -> user_err Pp.(str "No such goal.")
type axiom =
| Constant of Constant.t
| Positive of MutInd.t
| Guarded of GlobRef.t
| TypeInType of GlobRef.t
| UIP of MutInd.t
type context_object =
| Variable of Id.t
| Axiom of axiom * (Label.t * Constr.rel_context * types) list
| Opaque of Constant.t
| Transparent of Constant.t
module OrderedContextObject =
struct
type t = context_object
let compare_axiom x y =
match x,y with
| Constant k1 , Constant k2 ->
Constant.CanOrd.compare k1 k2
| Positive m1 , Positive m2
| UIP m1, UIP m2 ->
MutInd.CanOrd.compare m1 m2
| Guarded k1 , Guarded k2
| TypeInType k1, TypeInType k2 ->
GlobRef.CanOrd.compare k1 k2
| Constant _, _ -> -1
| _, Constant _ -> 1
| Positive _, _ -> -1
| _, Positive _ -> 1
| Guarded _, _ -> -1
| _, Guarded _ -> 1
| TypeInType _, _ -> -1
| _, TypeInType _ -> 1
let compare x y =
match x , y with
| Variable i1 , Variable i2 -> Id.compare i1 i2
| Variable _ , _ -> -1
| _ , Variable _ -> 1
| Axiom (k1,_) , Axiom (k2, _) -> compare_axiom k1 k2
| Axiom _ , _ -> -1
| _ , Axiom _ -> 1
| Opaque k1 , Opaque k2 -> Constant.CanOrd.compare k1 k2
| Opaque _ , _ -> -1
| _ , Opaque _ -> 1
| Transparent k1 , Transparent k2 -> Constant.CanOrd.compare k1 k2
end
module ContextObjectSet = Set.Make (OrderedContextObject)
module ContextObjectMap = Map.Make (OrderedContextObject)
let pr_assumptionset env sigma s =
if ContextObjectMap.is_empty s &&
not (is_impredicative_set env) then
str "Closed under the global context"
else
let safe_pr_constant env kn =
try pr_constant env kn
with Not_found ->
Names.Constant.print kn
in
let safe_pr_global env gr =
try pr_global_env (Termops.vars_of_env env) gr
with Not_found ->
let open GlobRef in match gr with
| VarRef id -> Id.print id
| ConstRef con -> Constant.print con
| IndRef (mind,_) -> MutInd.print mind
| ConstructRef _ -> assert false
in
let safe_pr_inductive env kn =
try pr_inductive env (kn,0)
with Not_found ->
MutInd.print kn
in
let safe_pr_ltype env sigma typ =
try str " : " ++ pr_ltype_env env sigma typ
with e when CErrors.noncritical e -> mt ()
in
let safe_pr_ltype_relctx (rctx, typ) =
let env = Environ.push_rel_context rctx env in
try str " " ++ pr_ltype_env env sigma typ
with e when CErrors.noncritical e -> mt ()
in
let pr_axiom env ax typ =
match ax with
| Constant kn ->
hov 1 (safe_pr_constant env kn ++ cut() ++ safe_pr_ltype env sigma typ)
| Positive m ->
hov 2 (safe_pr_inductive env m ++ spc () ++ strbrk"is assumed to be positive.")
| Guarded gr ->
hov 2 (safe_pr_global env gr ++ spc () ++ strbrk"is assumed to be guarded.")
| TypeInType gr ->
hov 2 (safe_pr_global env gr ++ spc () ++ strbrk"relies on an unsafe hierarchy.")
| UIP mind ->
hov 2 (safe_pr_inductive env mind ++ spc () ++ strbrk"relies on definitional UIP.")
in
let fold t typ accu =
let (v, a, o, tr) = accu in
match t with
| Variable id ->
let var = pr_id id ++ spc() ++ str ": " ++ pr_ltype_env env sigma typ in
(var :: v, a, o, tr)
| Axiom (axiom, []) ->
let ax = pr_axiom env axiom typ in
(v, ax :: a, o, tr)
| Axiom (axiom,l) ->
let ax = pr_axiom env axiom typ ++
spc() ++
prlist_with_sep cut (fun (lbl, ctx, ty) ->
str "used in " ++ Label.print lbl ++
str " to prove" ++ fnl() ++ safe_pr_ltype_relctx (ctx,ty))
l in
(v, ax :: a, o, tr)
| Opaque kn ->
let opq = safe_pr_constant env kn ++ safe_pr_ltype env sigma typ in
(v, a, opq :: o, tr)
| Transparent kn ->
let tran = safe_pr_constant env kn ++ safe_pr_ltype env sigma typ in
(v, a, o, tran :: tr)
in
let (vars, axioms, opaque, trans) =
ContextObjectMap.fold fold s ([], [], [], [])
in
let theory =
if is_impredicative_set env then
[str "Set is impredicative"]
else []
in
let theory =
if type_in_type env then
str "Type hierarchy is collapsed (logic is inconsistent)" :: theory
else theory
in
let opt_list title = function
| [] -> None
| l ->
let section =
title ++ fnl () ++
v 0 (prlist_with_sep fnl (fun s -> s) l) in
Some section
in
let assums = [
opt_list (str "Transparent constants:") trans;
opt_list (str "Section Variables:") vars;
opt_list (str "Axioms:") axioms;
opt_list (str "Opaque constants:") opaque;
opt_list (str "Theory:") theory;
] in
prlist_with_sep fnl (fun x -> x) (Option.List.flatten assums)
let print_and_diff oldp newp =
match newp with
| None -> ()
| Some proof ->
let output =
if Proof_diffs.show_diffs () then
try pr_open_subgoals_diff ~diffs:true ?oproof:oldp proof
with Pp_diff.Diff_Failure msg -> begin
Feedback.msg_warning Pp.(str ("Diff failure: " ^ msg) ++ cut()
++ str "Showing results without diff highlighting" );
pr_open_subgoals ~proof
end
else
pr_open_subgoals ~proof
in
Feedback.msg_notice output
let pr_typing_flags flags =
str "check_guarded: " ++ bool flags.check_guarded ++ fnl ()
++ str "check_positive: " ++ bool flags.check_positive ++ fnl ()
++ str "check_universes: " ++ bool flags.check_universes ++ fnl ()
++ str "cumulative sprop: " ++ bool flags.cumulative_sprop ++ fnl ()
++ str "definitional uip: " ++ bool flags.allow_uip