(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* str"," ++ spc() let strip_prod_binders_expr n ty = let rec strip_ty acc n ty = match ty with Topconstr.CProdN(_,bll,a) -> let nb = List.fold_left (fun i (nal,_) -> i + List.length nal) 0 bll in if nb >= n then (List.rev (bll@acc), a) else strip_ty (bll@acc) (n-nb) a | Topconstr.CArrow(_,a,b) -> if n=1 then (List.rev (([(dummy_loc,Anonymous)],a)::acc), b) else strip_ty (([(dummy_loc,Anonymous)],a)::acc) (n-1) b | _ -> error "Cannot translate fix tactic: not enough products" in strip_ty [] n ty (* In v8 syntax only double quote char is escaped by repeating it *) let rec escape_string_v8 s = let rec escape_at s i = if i<0 then s else if s.[i] == '"' then let s' = String.sub s 0 i^"\""^String.sub s i (String.length s - i) in escape_at s' (i-1) else escape_at s (i-1) in escape_at s (String.length s - 1) let qstringnew s = str ("\""^escape_string_v8 s^"\"") let qsnew = qstringnew let translate_v7_ltac = function | "DiscrR" -> "discrR" | "Sup0" -> "prove_sup0" | "SupOmega" -> "omega_sup" | "Sup" -> "prove_sup" | "RCompute" -> "Rcompute" | "IntroHypG" -> "intro_hyp_glob" | "IntroHypL" -> "intro_hyp_pt" | "IsDiff_pt" -> "is_diff_pt" | "IsDiff_glob" -> "is_diff_glob" | "IsCont_pt" -> "is_cont_pt" | "IsCont_glob" -> "is_cont_glob" | "RewTerm" -> "rew_term" | "ConsProof" -> "deriv_proof" | "SimplifyDerive" -> "simplify_derive" | "Reg" -> "reg" (* ??? *) | "SplitAbs" -> "split_case_Rabs" | "SplitAbsolu" -> "split_Rabs" | "SplitRmult" -> "split_Rmult" | "CaseEqk" -> "case_eq" | "SqRing" -> "ring_Rsqr" | "TailSimpl" -> "tail_simpl" | "CoInduction" -> "coinduction" | "ElimCompare" -> "elim_compare" | "CCsolve" -> "CCsolve" (* ?? *) | "ArrayAccess" -> "array_access" | "MemAssoc" -> "mem_assoc" | "SeekVarAux" -> "seek_var_aux" | "SeekVar" -> "seek_var" | "NumberAux" -> "number_aux" | "Number" -> "number" | "BuildVarList" -> "build_varlist" | "Assoc" -> "assoc" | "Remove" -> "remove" | "Union" -> "union" | "RawGiveMult" -> "raw_give_mult" | "GiveMult" -> "give_mult" | "ApplyAssoc" -> "apply_assoc" | "ApplyDistrib" -> "apply_distrib" | "GrepMult" -> "grep_mult" | "WeakReduce" -> "weak_reduce" | "Multiply" -> "multiply" | "ApplyMultiply" -> "apply_multiply" | "ApplyInverse" -> "apply_inverse" | "StrongFail" -> "strong_fail" | "InverseTestAux" -> "inverse_test_aux" | "InverseTest" -> "inverse_test" | "ApplySimplif" -> "apply_simplif" | "Unfolds" -> "unfolds" | "Reduce" -> "reduce" | "Field_Gen_Aux" -> "field_gen_aux" | "Field_Gen" -> "field_gen" | "EvalWeakReduce" -> "eval_weak_reduce" | "Field_Term" -> "field_term" | "Fourier" -> "fourier" (* ou Fourier ?? *) | "FourierEq" -> "fourier_eq" | "S_to_plus" -> "rewrite_S_to_plus_term" | "S_to_plus_eq" -> "rewrite_S_to_plus" | "NatRing" -> "ring_nat" | "Solve1" -> "solve1" | "Solve2" -> "solve2" | "Elim_eq_term" -> "elim_eq_term" | "Elim_eq_Z" -> "elim_eq_Z" | "Elim_eq_pos" -> "elim_eq_pos" | "Elim_Zcompare" -> "elim_Zcompare" | "ProveStable" -> "prove_stable" | "interp_A" -> "interp_A" | "InitExp" -> "init_exp" | "SimplInv" -> "simpl_inv" | "Map" -> "map_tactic" | "BuildMonomAux" -> "build_monom_aux" | "BuildMonom" -> "build_monom" | "SimplMonomAux" -> "simpl_monom_aux" | "SimplMonom" -> "simpl_monom" | "SimplAllMonoms" -> "simpl_all_monomials" | "AssocDistrib" -> "assoc_distrib" | "NowShow" -> "now_show" | ("subst"|"simpl"|"elim"|"destruct"|"apply"|"intro" (* ... *)) as x -> let x' = x^"_" in msgerrnl (str ("Warning: '"^ x^"' is now a primitive tactic; it has been translated to '"^x'^"'")); x' | x -> x let id_of_ltac_v7_id id = id_of_string (translate_v7_ltac (string_of_id id)) let pr_ltac_or_var pr = function | ArgArg x -> pr x | ArgVar (loc,id) -> pr_with_comments loc (pr_id (id_of_ltac_v7_id id)) let pr_arg pr x = spc () ++ pr x let pr_ltac_constant sp = (* Source de bug: le nom le plus court n'est pas forcement correct apres renommage *) let qid = Nametab.shortest_qualid_of_tactic sp in let dir,id = repr_qualid qid in pr_qualid (make_qualid dir (id_of_ltac_v7_id id)) let pr_evaluable_reference_env env = function | EvalVarRef id -> pr_id (Constrextern.v7_to_v8_id id) | EvalConstRef sp -> pr_global (Termops.vars_of_env env) (Libnames.ConstRef sp) let pr_inductive vars ind = pr_global vars (Libnames.IndRef ind) let pr_quantified_hypothesis = function | AnonHyp n -> int n | NamedHyp id -> pr_id id let pr_quantified_hypothesis_arg h = spc () ++ pr_quantified_hypothesis h (* let pr_binding prc = function | NamedHyp id, c -> hov 1 (pr_id id ++ str " := " ++ cut () ++ prc c) | AnonHyp n, c -> hov 1 (int n ++ str " := " ++ cut () ++ prc c) *) let pr_esubst prc l = let pr_qhyp = function (_,AnonHyp n,c) -> str "(" ++ int n ++ str" := " ++ prc c ++ str ")" | (_,NamedHyp id,c) -> str "(" ++ pr_id id ++ str" := " ++ prc c ++ str ")" in prlist_with_sep spc pr_qhyp l let pr_bindings_gen for_ex prlc prc = function | ImplicitBindings l -> spc () ++ hv 2 ((if for_ex then mt() else str "with" ++ spc ()) ++ prlist_with_sep spc prc l) | ExplicitBindings l -> spc () ++ hv 2 ((if for_ex then mt() else str "with" ++ spc ()) ++ pr_esubst prlc l) | NoBindings -> mt () let pr_bindings prlc prc = pr_bindings_gen false prlc prc let pr_with_bindings prlc prc (c,bl) = if Options.do_translate () then (* translator calls pr_with_bindings on rawconstr: we cast it! *) let bl' = translate_with_bindings (fst (Obj.magic c) : rawconstr) bl in hov 1 (prc c ++ pr_bindings prlc prc bl') else hov 1 (prc c ++ pr_bindings prlc prc bl) let pr_with_constr prc = function | None -> mt () | Some c -> spc () ++ hov 1 (str "with" ++ spc () ++ prc c) (* Translator copy of pr_intro_pattern based on a translating "pr_id" *) let rec pr_intro_pattern = function | IntroOrAndPattern pll -> pr_case_intro_pattern pll | IntroWildcard -> str "_" | IntroIdentifier id -> pr_id id and pr_case_intro_pattern = function | [_::_ as pl] -> str "(" ++ hov 0 (prlist_with_sep pr_coma pr_intro_pattern pl) ++ str ")" | pll -> str "[" ++ hv 0 (prlist_with_sep pr_bar (fun l -> hov 0 (prlist_with_sep spc pr_intro_pattern l)) pll) ++ str "]" let pr_with_names = function | None -> mt () | Some ipat -> spc () ++ hov 1 (str "as" ++ spc () ++ pr_intro_pattern ipat) let pr_occs pp = function [] -> pp | nl -> hov 1 (pp ++ spc() ++ str"at " ++ hov 0 (prlist_with_sep spc int nl)) let pr_hyp_location pr_id = function | id, occs, InHyp -> spc () ++ pr_occs (pr_id id) occs | id, occs, InHypTypeOnly -> spc () ++ pr_occs (str "(type of " ++ pr_id id ++ str ")") occs | id, occs, InHypValueOnly -> spc () ++ pr_occs (str "(value of " ++ pr_id id ++ str ")") occs let pr_hyp_location pr_id (id,occs,(hl,hl')) = if !hl' <> None then pr_hyp_location pr_id (id,occs,out_some !hl') else (if hl = InHyp && Options.do_translate () then msgerrnl (h 0 (str "Translator warning: Unable to detect if " ++ pr_id id ++ spc () ++ str "denotes a local definition")); pr_hyp_location pr_id (id,occs,hl)) let pr_in pp = spc () ++ hov 0 (str "in" ++ pp) let pr_simple_clause pr_id = function | [] -> mt () | l -> pr_in (spc () ++ prlist_with_sep spc pr_id l) let pr_clauses pr_id = function { onhyps=None; onconcl=true; concl_occs=nl } -> pr_in (pr_occs (str " *") nl) | { onhyps=None; onconcl=false } -> pr_in (str " * |-") | { onhyps=Some l; onconcl=true; concl_occs=nl } -> pr_in (prlist_with_sep (fun () -> str",") (pr_hyp_location pr_id) l ++ pr_occs (str" |- *") nl) | { onhyps=Some l; onconcl=false } -> pr_in (prlist_with_sep (fun()->str",") (pr_hyp_location pr_id) l) let pr_clause_pattern pr_id = function | (None, []) -> mt () | (glopt,l) -> str " in" ++ prlist (fun (id,nl) -> prlist (pr_arg int) nl ++ spc () ++ pr_id id) l ++ pr_opt (fun nl -> prlist_with_sep spc int nl ++ str " Goal") glopt let pr_induction_arg prc = function | ElimOnConstr c -> prc c | ElimOnIdent (loc,id) -> pr_with_comments loc (pr_id id) | ElimOnAnonHyp n -> int n let pr_induction_kind = function | SimpleInversion -> str "simple inversion" | FullInversion -> str "inversion" | FullInversionClear -> str "inversion_clear" let pr_match_pattern pr_pat = function | Term a -> pr_pat a | Subterm (None,a) -> str "context [" ++ pr_pat a ++ str "]" | Subterm (Some id,a) -> str "context " ++ pr_id id ++ str "[" ++ pr_pat a ++ str "]" let pr_match_hyps pr_pat = function | Hyp (nal,mp) -> pr_lname nal ++ str ":" ++ pr_match_pattern pr_pat mp let pr_match_rule m pr pr_pat = function | Pat ([],mp,t) when m -> pr_match_pattern pr_pat mp ++ spc () ++ str "=>" ++ brk (1,4) ++ pr t | Pat (rl,mp,t) -> prlist_with_sep (fun () -> str",") (pr_match_hyps pr_pat) rl ++ spc () ++ str "|-" ++ spc () ++ pr_match_pattern pr_pat mp ++ spc () ++ str "=>" ++ brk (1,4) ++ pr t | All t -> str "_" ++ spc () ++ str "=>" ++ brk (1,4) ++ pr t let pr_funvar = function | None -> spc () ++ str "_" | Some id -> spc () ++ pr_id id let pr_let_clause k pr = function | (id,None,t) -> hov 0 (str k ++ pr_lident id ++ str " :=" ++ brk (1,1) ++ pr (TacArg t)) | (id,Some c,t) -> hv 0 (str k ++ pr_lident id ++ str" :" ++ brk(1,2) ++ pr c ++ str " :=" ++ brk (1,1) ++ pr (TacArg t)) let pr_let_clauses pr = function | hd::tl -> hv 0 (pr_let_clause "let " pr hd ++ prlist (fun t -> spc () ++ pr_let_clause "with " pr t) tl) | [] -> anomaly "LetIn must declare at least one binding" let pr_rec_clause pr (id,(l,t)) = hov 0 (pr_lident id ++ prlist pr_funvar l ++ str " :=") ++ spc () ++ pr t let pr_rec_clauses pr l = prlist_with_sep (fun () -> fnl () ++ str "with ") (pr_rec_clause pr) l let pr_seq_body pr tl = hv 0 (str "[ " ++ prlist_with_sep (fun () -> spc () ++ str "| ") pr tl ++ str " ]") let pr_as_names_force force ids (pp,ids') = pr_with_names (if (!pp or force) & List.exists ((<>) (ref [])) ids' then Some (IntroOrAndPattern (List.map (fun x -> !x) ids')) else ids) let duplicate force nodup ids pr = function | [] -> pr (pr_as_names_force force ids (ref false,[])) | x::l when List.for_all (fun y -> snd x=snd y) l -> pr (pr_as_names_force force ids x) | l -> if List.exists (fun (b,ids) -> !b) l & (force or List.exists (fun (_,ids) -> ids <> (snd (List.hd l))) (List.tl l)) then if nodup then begin msgerrnl (h 0 (str "Translator warning: Unable to enforce v7 names while translating Induction/NewDestruct/NewInduction. Names in the different branches are") ++ brk (0,0) ++ hov 0 (prlist_with_sep spc (fun id -> hov 0 (pr_as_names_force true ids id)) (List.rev l))); pr (pr_as_names_force force ids (ref false,[])) end else pr_seq_body (fun x -> pr (pr_as_names_force force ids x)) (List.rev l) else pr (pr_as_names_force force ids (ref false,[])) let pr_hintbases = function | None -> spc () ++ str "with *" | Some [] -> mt () | Some l -> spc () ++ hov 2 (str "with" ++ prlist (fun s -> spc () ++ str s) l) let pr_autoarg_adding = function | [] -> mt () | l -> spc () ++ str "adding [" ++ hv 0 (prlist_with_sep spc pr_reference l) ++ str "]" let pr_autoarg_destructing = function | true -> spc () ++ str "destructing" | false -> mt () let pr_autoarg_usingTDB = function | true -> spc () ++ str "using tdb" | false -> mt () let rec pr_tacarg_using_rule pr_gen = function | Egrammar.TacTerm s :: l, al -> spc () ++ str s ++ pr_tacarg_using_rule pr_gen (l,al) | Egrammar.TacNonTerm _ :: l, a :: al -> pr_gen a ++ pr_tacarg_using_rule pr_gen (l,al) | [], [] -> mt () | _ -> failwith "Inconsistent arguments of extended tactic" let pr_then () = str ";" open Closure let make_pr_tac (pr_tac,pr_tac0,pr_constr,pr_lconstr,pr_pat,pr_cst,pr_ind,pr_ref,pr_ident,pr_extend,strip_prod_binders) = let pr_bindings env = pr_bindings (pr_lconstr env) (pr_constr env) in let pr_ex_bindings env = pr_bindings_gen true (pr_lconstr env) (pr_constr env) in let pr_with_bindings env = pr_with_bindings (pr_lconstr env) (pr_constr env) in let pr_eliminator env cb = str "using" ++ pr_arg (pr_with_bindings env) cb in let pr_constrarg env c = spc () ++ pr_constr env c in let pr_lconstrarg env c = spc () ++ pr_lconstr env c in let pr_intarg n = spc () ++ int n in let pr_binder_fix env (nal,t) = (* match t with | CHole _ -> spc() ++ prlist_with_sep spc (pr_lname) nal | _ ->*) let s = prlist_with_sep spc (pr_lname) nal ++ str ":" ++ pr_lconstr env t in spc() ++ hov 1 (str"(" ++ s ++ str")") in let pr_fix_tac env (id,n,c) = let rec set_nth_name avoid n = function (nal,ty)::bll -> if n <= List.length nal then match list_chop (n-1) nal with _, (_,Name id) :: _ -> id, (nal,ty)::bll | bef, (loc,Anonymous) :: aft -> let id = next_ident_away_from (id_of_string"y") avoid in id, ((bef@(loc,Name id)::aft, ty)::bll) | _ -> assert false else let (id,bll') = set_nth_name avoid (n-List.length nal) bll in (id,(nal,ty)::bll') | [] -> assert false in let (bll,ty) = strip_prod_binders n c in let names = List.fold_left (fun ln (nal,_) -> List.fold_left (fun ln na -> match na with (_,Name id) -> id::ln | _ -> ln) ln nal) [] bll in let idarg,bll = set_nth_name names n bll in let annot = if List.length names = 1 then mt() else spc() ++ str"{struct " ++ pr_id idarg ++ str"}" in hov 1 (str"(" ++ pr_id id ++ prlist (pr_binder_fix env) bll ++ annot ++ str" :" ++ pr_lconstrarg env ty ++ str")") in (* spc() ++ hov 0 (pr_id id ++ pr_intarg n ++ str":" ++ pr_constrarg env c) *) let pr_cofix_tac env (id,c) = hov 1 (str"(" ++ pr_id id ++ str" :" ++ pr_lconstrarg env c ++ str")") in (* Printing tactics as arguments *) let rec pr_atom0 env = function | TacIntroPattern [] -> str "intros" | TacIntroMove (None,None) -> str "intro" | TacAssumption -> str "assumption" | TacAnyConstructor None -> str "constructor" | TacTrivial (Some []) -> str "trivial" | TacAuto (None,Some []) -> str "auto" (* | TacAutoTDB None -> str "autotdb" | TacDestructConcl -> str "dconcl"*) | TacReflexivity -> str "reflexivity" | t -> str "(" ++ pr_atom1 env t ++ str ")" (* Main tactic printer *) and pr_atom1 env = function | TacAutoTDB _ | TacDestructHyp _ | TacDestructConcl | TacSuperAuto _ | TacExtend (_, ("GTauto"|"GIntuition"|"TSimplif"| "LinearIntuition"),_) -> errorlabstrm "Obsolete V8" (str "Tactic is not ported to V8.0") | TacExtend (loc,s,l) -> pr_with_comments loc (pr_extend (pr_constr env) (pr_lconstr env) (pr_tac env) s l) | TacAlias (loc,s,l,_) -> pr_with_comments loc (pr_extend (pr_constr env) (pr_lconstr env) (pr_tac env) s (List.map snd l)) (* Basic tactics *) | TacIntroPattern [] as t -> pr_atom0 env t | TacIntroPattern (_::_ as p) -> hov 1 (str "intros" ++ spc () ++ prlist_with_sep spc pr_intro_pattern p) | TacIntrosUntil h -> hv 1 (str "intros until" ++ pr_arg pr_quantified_hypothesis h) | TacIntroMove (None,None) as t -> pr_atom0 env t | TacIntroMove (Some id1,None) -> str "intro " ++ pr_id id1 | TacIntroMove (ido1,Some id2) -> hov 1 (str "intro" ++ pr_opt pr_id ido1 ++ spc () ++ str "after " ++ pr_lident id2) | TacAssumption as t -> pr_atom0 env t | TacExact c -> hov 1 (str "exact" ++ pr_constrarg env c) | TacApply cb -> hov 1 (str "apply" ++ spc () ++ pr_with_bindings env cb) | TacElim (cb,cbo) -> hov 1 (str "elim" ++ pr_arg (pr_with_bindings env) cb ++ pr_opt (pr_eliminator env) cbo) | TacElimType c -> hov 1 (str "elimtype" ++ pr_constrarg env c) | TacCase cb -> hov 1 (str "case" ++ spc () ++ pr_with_bindings env cb) | TacCaseType c -> hov 1 (str "casetype" ++ pr_constrarg env c) | TacFix (ido,n) -> hov 1 (str "fix" ++ pr_opt pr_id ido ++ pr_intarg n) | TacMutualFix (id,n,l) -> hov 1 (str "fix" ++ spc () ++ pr_id id ++ pr_intarg n ++ spc() ++ str"with " ++ prlist_with_sep spc (pr_fix_tac env) l) | TacCofix ido -> hov 1 (str "cofix" ++ pr_opt pr_id ido) | TacMutualCofix (id,l) -> hov 1 (str "cofix" ++ spc () ++ pr_id id ++ spc() ++ str"with " ++ prlist_with_sep spc (pr_cofix_tac env) l) | TacCut c -> hov 1 (str "cut" ++ pr_constrarg env c) | TacTrueCut (Anonymous,c) -> hov 1 (str "assert" ++ pr_constrarg env c) | TacTrueCut (Name id,c) -> hov 1 (str "assert" ++ spc () ++ hov 1 (str"(" ++ pr_id id ++ str " :" ++ pr_lconstrarg env c ++ str")")) | TacForward (false,na,c) -> hov 1 (str "assert" ++ spc () ++ hov 1 (str"(" ++ pr_name na ++ str " :=" ++ pr_lconstrarg env c ++ str")")) | TacForward (true,Anonymous,c) -> if Options.do_translate () then (* Pose was buggy and was wrongly substituted in conclusion in v7 *) hov 1 (str "set" ++ pr_constrarg env c) else hov 1 (str "pose" ++ pr_constrarg env c) | TacForward (true,Name id,c) -> if Options.do_translate () then hov 1 (str "set" ++ spc() ++ hov 1 (str"(" ++ pr_id id ++ str " :=" ++ pr_lconstrarg env c ++ str")")) else hov 1 (str "pose" ++ spc() ++ hov 1 (str"(" ++ pr_id id ++ str " :=" ++ pr_lconstrarg env c ++ str")")) | TacGeneralize l -> hov 1 (str "generalize" ++ spc () ++ prlist_with_sep spc (pr_constr env) l) | TacGeneralizeDep c -> hov 1 (str "generalize" ++ spc () ++ str "dependent" ++ pr_constrarg env c) | TacLetTac (Anonymous,c,cl) -> hov 1 (str "set" ++ pr_constrarg env c) ++ pr_clauses pr_ident cl | TacLetTac (Name id,c,cl) -> hov 1 (str "set" ++ spc () ++ hov 1 (str"(" ++ pr_id id ++ str " :=" ++ pr_lconstrarg env c ++ str")") ++ pr_clauses pr_ident cl) | TacInstantiate (n,c,cls) -> hov 1 (str "instantiate" ++ spc() ++ hov 1 (str"(" ++ pr_arg int n ++ str" :=" ++ pr_lconstrarg env c ++ str ")" ++ pr_clauses pr_ident cls)) (* Derived basic tactics *) | TacSimpleInduction (h,l) -> if List.exists (fun (pp,_) -> !pp) !l then duplicate true true None (fun pnames -> hov 1 (str "induction" ++ pr_arg pr_quantified_hypothesis h ++ pnames)) !l else hov 1 (str "simple induction" ++ pr_arg pr_quantified_hypothesis h) | TacNewInduction (h,e,(ids,l)) -> duplicate false true ids (fun pnames -> hov 1 (str "induction" ++ spc () ++ pr_induction_arg (pr_constr env) h ++ pnames ++ pr_opt (pr_eliminator env) e)) !l | TacSimpleDestruct h -> hov 1 (str "simple destruct" ++ pr_arg pr_quantified_hypothesis h) | TacNewDestruct (h,e,(ids,l)) -> duplicate false true ids (fun pnames -> hov 1 (str "destruct" ++ spc () ++ pr_induction_arg (pr_constr env) h ++ pnames ++ pr_opt (pr_eliminator env) e)) !l | TacDoubleInduction (h1,h2) -> hov 1 (str "double induction" ++ pr_arg pr_quantified_hypothesis h1 ++ pr_arg pr_quantified_hypothesis h2) | TacDecomposeAnd c -> hov 1 (str "decompose record" ++ pr_constrarg env c) | TacDecomposeOr c -> hov 1 (str "decompose sum" ++ pr_constrarg env c) | TacDecompose (l,c) -> let vars = Termops.vars_of_env env in hov 1 (str "decompose" ++ spc () ++ hov 0 (str "[" ++ prlist_with_sep spc (pr_ind vars) l ++ str "]" ++ pr_constrarg env c)) | TacSpecialize (n,c) -> hov 1 (str "specialize" ++ spc () ++ pr_opt int n ++ pr_with_bindings env c) | TacLApply c -> hov 1 (str "lapply" ++ pr_constrarg env c) (* Automation tactics *) | TacTrivial (Some []) as x -> pr_atom0 env x | TacTrivial db -> hov 0 (str "trivial" ++ pr_hintbases db) | TacAuto (None,Some []) as x -> pr_atom0 env x | TacAuto (n,db) -> hov 0 (str "auto" ++ pr_opt int n ++ pr_hintbases db) (* | TacAutoTDB None as x -> pr_atom0 env x | TacAutoTDB (Some n) -> hov 0 (str "autotdb" ++ spc () ++ int n) | TacDestructHyp (true,id) -> hov 0 (str "cdhyp" ++ spc () ++ pr_lident id) | TacDestructHyp (false,id) -> hov 0 (str "dhyp" ++ spc () ++ pr_lident id) | TacDestructConcl as x -> pr_atom0 env x | TacSuperAuto (n,l,b1,b2) -> hov 1 (str "superauto" ++ pr_opt int n ++ pr_autoarg_adding l ++ pr_autoarg_destructing b1 ++ pr_autoarg_usingTDB b2)*) | TacDAuto (n,p) -> hov 1 (str "auto" ++ pr_opt int n ++ str "decomp" ++ pr_opt int p) (* Context management *) | TacClear l -> hov 1 (str "clear" ++ spc () ++ prlist_with_sep spc pr_ident l) | TacClearBody l -> hov 1 (str "clearbody" ++ spc () ++ prlist_with_sep spc pr_ident l) | TacMove (b,id1,id2) -> (* Rem: only b = true is available for users *) assert b; hov 1 (str "move" ++ brk (1,1) ++ pr_ident id1 ++ spc () ++ str "after" ++ brk (1,1) ++ pr_ident id2) | TacRename (id1,id2) -> hov 1 (str "rename" ++ brk (1,1) ++ pr_ident id1 ++ spc () ++ str "into" ++ brk (1,1) ++ pr_ident id2) (* Constructors *) | TacLeft l -> hov 1 (str "left" ++ pr_bindings env l) | TacRight l -> hov 1 (str "right" ++ pr_bindings env l) | TacSplit (false,l) -> hov 1 (str "split" ++ pr_bindings env l) | TacSplit (true,l) -> hov 1 (str "exists" ++ pr_ex_bindings env l) | TacAnyConstructor (Some t) -> hov 1 (str "constructor" ++ pr_arg (pr_tac0 env) t) | TacAnyConstructor None as t -> pr_atom0 env t | TacConstructor (n,l) -> hov 1 (str "constructor" ++ pr_or_metaid pr_intarg n ++ pr_bindings env l) (* Conversion *) | TacReduce (r,h) -> hov 1 (pr_red_expr (pr_constr env,pr_lconstr env,pr_cst env) r ++ pr_clauses pr_ident h) | TacChange (occ,c,h) -> hov 1 (str "change" ++ brk (1,1) ++ (match occ with None -> mt() | Some([],c1) -> hov 1 (pr_constr env c1 ++ spc() ++ str "with ") | Some(ocl,c1) -> hov 1 (pr_constr env c1 ++ spc() ++ str "at " ++ prlist_with_sep spc int ocl) ++ spc() ++ str "with ") ++ pr_constr env c ++ pr_clauses pr_ident h) (* Equivalence relations *) | TacReflexivity as x -> pr_atom0 env x | TacSymmetry cls -> str "symmetry " ++ pr_clauses pr_ident cls | TacTransitivity c -> str "transitivity" ++ pr_constrarg env c (* Equality and inversion *) | TacInversion (DepInversion (k,c,ids),hyp) -> hov 1 (str "dependent " ++ pr_induction_kind k ++ spc () ++ pr_quantified_hypothesis hyp ++ pr_with_names ids ++ pr_with_constr (pr_constr env) c) | TacInversion (NonDepInversion (k,cl,ids),hyp) -> hov 1 (pr_induction_kind k ++ spc () ++ pr_quantified_hypothesis hyp ++ pr_with_names ids ++ pr_simple_clause pr_ident cl) | TacInversion (InversionUsing (c,cl),hyp) -> hov 1 (str "inversion" ++ spc() ++ pr_quantified_hypothesis hyp ++ spc () ++ str "using" ++ spc () ++ pr_constr env c ++ pr_simple_clause pr_ident cl) in let ltop = (5,E) in let lseq = 5 in let ltactical = 3 in let lorelse = 2 in let llet = 1 in let lfun = 1 in let labstract = 3 in let lmatch = 1 in let latom = 0 in let lcall = 1 in let leval = 1 in let ltatom = 1 in let rec pr_tac env inherited tac = let (strm,prec) = match tac with | TacAbstract (t,None) -> str "abstract " ++ pr_tac env (labstract,L) t, labstract | TacAbstract (t,Some s) -> hov 0 (str "abstract (" ++ pr_tac env (labstract,L) t ++ str")" ++ spc () ++ str "using " ++ pr_id s), labstract | TacLetRecIn (l,t) -> hv 0 (str "let rec " ++ pr_rec_clauses (pr_tac env ltop) l ++ str " in" ++ fnl () ++ pr_tac env (llet,E) t), llet | TacLetIn (llc,u) -> v 0 (hv 0 (pr_let_clauses (pr_tac env ltop) llc ++ str " in") ++ fnl () ++ pr_tac env (llet,E) u), llet | TacMatch (t,lrul) -> hov 0 (str "match " ++ pr_tac env ltop t ++ str " with" ++ prlist (fun r -> fnl () ++ str "| " ++ pr_match_rule true (pr_tac env ltop) pr_pat r) lrul ++ fnl() ++ str "end"), lmatch | TacMatchContext (lr,lrul) -> hov 0 ( str (if lr then "match reverse goal with" else "match goal with") ++ prlist (fun r -> fnl () ++ str "| " ++ pr_match_rule false (pr_tac env ltop) pr_pat r) lrul ++ fnl() ++ str "end"), lmatch | TacFun (lvar,body) -> hov 2 (str "fun" ++ prlist pr_funvar lvar ++ str " =>" ++ spc () ++ pr_tac env (lfun,E) body), lfun | TacThens (t,tl) -> hov 1 (pr_tac env (lseq,E) t ++ pr_then () ++ spc () ++ pr_seq_body (pr_tac env ltop) tl), lseq | TacThen (t1,t2) -> let pp2 = (* Hook for translation names in induction/destruct *) match t2 with | TacAtom (_,TacSimpleInduction (h,l)) -> if List.exists (fun (pp,ids) -> !pp) !l then duplicate true false None (fun pnames -> hov 1 (str "induction" ++ pr_arg pr_quantified_hypothesis h ++ pnames)) !l else hov 1 (str "simple induction" ++ pr_arg pr_quantified_hypothesis h) | TacAtom (_,TacNewInduction (h,e,(ids,l))) -> duplicate false false ids (fun pnames -> hov 1 (str "induction" ++ spc () ++ pr_induction_arg (pr_constr env) h ++ pnames ++ pr_opt (pr_eliminator env) e)) !l | TacAtom (_,TacNewDestruct (h,e,(ids,l))) -> duplicate false false ids (fun pnames -> hov 1 (str "destruct" ++ spc () ++ pr_induction_arg (pr_constr env) h ++ pnames ++ pr_opt (pr_eliminator env) e)) !l (* end hook *) | _ -> pr_tac env (lseq,L) t2 in hov 1 (pr_tac env (lseq,E) t1 ++ pr_then () ++ spc () ++ pp2), lseq | TacTry t -> hov 1 (str "try" ++ spc () ++ pr_tac env (ltactical,E) t), ltactical | TacDo (n,t) -> hov 1 (str "do " ++ pr_or_var int n ++ spc () ++ pr_tac env (ltactical,E) t), ltactical | TacRepeat t -> hov 1 (str "repeat" ++ spc () ++ pr_tac env (ltactical,E) t), ltactical | TacProgress t -> hov 1 (str "progress" ++ spc () ++ pr_tac env (ltactical,E) t), ltactical | TacInfo t -> hov 1 (str "info" ++ spc () ++ pr_tac env (ltactical,E) t), ltactical | TacOrelse (t1,t2) -> hov 1 (pr_tac env (lorelse,L) t1 ++ str " ||" ++ brk (1,1) ++ pr_tac env (lorelse,E) t2), lorelse | TacFail (ArgArg 0,"") -> str "fail", latom | TacFail (n,s) -> str "fail" ++ (if n=ArgArg 0 then mt () else pr_arg (pr_or_var int) n) ++ (if s="" then mt() else qsnew s), latom | TacFirst tl -> str "first" ++ spc () ++ pr_seq_body (pr_tac env ltop) tl, llet | TacSolve tl -> str "solve" ++ spc () ++ pr_seq_body (pr_tac env ltop) tl, llet | TacId "" -> str "idtac", latom | TacId s -> str "idtac" ++ (qsnew s), latom | TacAtom (loc,t) -> pr_with_comments loc (hov 1 (pr_atom1 env t)), ltatom | TacArg(Tacexp e) -> pr_tac0 env e, latom | TacArg(ConstrMayEval (ConstrTerm c)) -> str "constr:" ++ pr_constr env c, latom | TacArg(ConstrMayEval c) -> pr_may_eval (pr_constr env) (pr_lconstr env) (pr_cst env) c, leval | TacArg(TacFreshId sopt) -> str "fresh" ++ pr_opt qsnew sopt, latom | TacArg(Integer n) -> int n, latom | TacArg(TacCall(loc,f,l)) -> pr_with_comments loc (hov 1 (pr_ref f ++ spc () ++ prlist_with_sep spc (pr_tacarg env) l)), lcall | TacArg a -> pr_tacarg env a, latom in if prec_less prec inherited then strm else str"(" ++ strm ++ str")" and pr_tacarg env = function | TacDynamic (loc,t) -> pr_with_comments loc (str ("")) | MetaIdArg (loc,s) -> pr_with_comments loc (str ("$" ^ s)) | IntroPattern ipat -> str "ipattern:" ++ pr_intro_pattern ipat | TacVoid -> str "()" | Reference r -> pr_ref r | ConstrMayEval c -> pr_may_eval (pr_constr env) (pr_lconstr env) (pr_cst env) c | TacFreshId sopt -> str "fresh" ++ pr_opt qsnew sopt | (TacCall _|Tacexp _|Integer _) as a -> str "ltac:" ++ pr_tac env (latom,E) (TacArg a) in ((fun env -> pr_tac env ltop), (fun env -> pr_tac env (latom,E)), pr_match_rule) let pi1 (a,_,_) = a let pi2 (_,a,_) = a let pi3 (_,_,a) = a let strip_prod_binders_rawterm n (ty,_) = let rec strip_ty acc n ty = if n=0 then (List.rev acc, (ty,None)) else match ty with Rawterm.RProd(loc,na,a,b) -> strip_ty (([dummy_loc,na],(a,None))::acc) (n-1) b | _ -> error "Cannot translate fix tactic: not enough products" in strip_ty [] n ty let strip_prod_binders_constr n ty = let rec strip_ty acc n ty = if n=0 then (List.rev acc, ty) else match Term.kind_of_term ty with Term.Prod(na,a,b) -> strip_ty (([dummy_loc,na],a)::acc) (n-1) b | _ -> error "Cannot translate fix tactic: not enough products" in strip_ty [] n ty let rec raw_printers = (pr_raw_tactic, pr_raw_tactic0, Ppconstrnew.pr_constr_env, Ppconstrnew.pr_lconstr_env, Ppconstrnew.pr_pattern, (fun _ -> pr_reference), (fun _ -> pr_reference), pr_reference, pr_or_metaid pr_lident, Pptactic.pr_raw_extend, strip_prod_binders_expr) and pr_raw_tactic env (t:raw_tactic_expr) = pi1 (make_pr_tac raw_printers) env t and pr_raw_tactic0 env t = pi2 (make_pr_tac raw_printers) env t and pr_raw_match_rule env t = pi3 (make_pr_tac raw_printers) env t let pr_and_constr_expr pr (c,_) = pr c let rec glob_printers = (pr_glob_tactic, pr_glob_tactic0, (fun env -> pr_and_constr_expr (Ppconstrnew.pr_rawconstr_env_no_translate env)), (fun env -> pr_and_constr_expr (Ppconstrnew.pr_lrawconstr_env_no_translate env)), (fun c -> Ppconstrnew.pr_constr_pattern_env (Global.env()) c), (fun env -> pr_or_var (pr_and_short_name (pr_evaluable_reference_env env))), (fun vars -> pr_or_var (pr_inductive vars)), pr_ltac_or_var (pr_located pr_ltac_constant), pr_lident, Pptactic.pr_glob_extend, strip_prod_binders_rawterm) and pr_glob_tactic env (t:glob_tactic_expr) = pi1 (make_pr_tac glob_printers) env t and pr_glob_tactic0 env t = pi2 (make_pr_tac glob_printers) env t and pr_glob_match_rule env t = pi3 (make_pr_tac glob_printers) env t let (pr_tactic,_,_) = make_pr_tac (pr_glob_tactic, pr_glob_tactic0, pr_term_env, pr_lterm_env, Ppconstrnew.pr_constr_pattern, pr_evaluable_reference_env, pr_inductive, pr_ltac_constant, pr_id, Pptactic.pr_extend, strip_prod_binders_constr)