package coq-core
The Coq Proof Assistant -- Core Binaries and Tools
Install
Dune Dependency
Authors
Maintainers
Sources
coq-8.18.0.tar.gz
md5=8d852367b54f095d9fbabd000304d450
sha512=46922d5f2eb6802a148a52fd3e7f0be8370c93e7bc33cee05cf4a2044290845b10ccddbaa306f29c808e7c5019700763e37e45ff6deb507b874a4348010fed50
doc/src/coq-core.proofs/logic.ml.html
Source file logic.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269(************************************************************************) (* * The Coq Proof Assistant / The Coq Development Team *) (* v * Copyright INRIA, CNRS and contributors *) (* <O___,, * (see version control and CREDITS file for authors & dates) *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (* * (see LICENSE file for the text of the license) *) (************************************************************************) open Pp open CErrors open Util open Names open Nameops open Termops open Environ open Reductionops module NamedDecl = Context.Named.Declaration type refiner_error = (* Errors raised by the refiner *) | UnresolvedBindings of Name.t list | CannotApply of EConstr.t * EConstr.t | NonLinearProof of EConstr.t (* Errors raised by the tactics *) | IntroNeedsProduct | NoSuchHyp of Id.t exception RefinerError of Environ.env * Evd.evar_map * refiner_error let error_no_such_hypothesis env sigma id = raise (RefinerError (env, sigma, NoSuchHyp id)) (************************************************************************) (************************************************************************) (* Implementation of the structural rules (moving and deleting hypotheses around) *) (* The ClearBody tactic *) (* Reordering of the context *) (* faire le minimum d'echanges pour que l'ordre donne soit un *) (* sous-ordre du resultat. Par exemple, 2 hyps non mentionnee ne sont *) (* pas echangees. Choix: les hyps mentionnees ne peuvent qu'etre *) (* reculees par rapport aux autres (faire le contraire!) *) let mt_q = (Id.Map.empty,[]) let push_val y = function (_,[] as q) -> q | (m, (x,l)::q) -> (m, (x,Id.Set.add y l)::q) let push_item x v (m,l) = (Id.Map.add x v m, (x,Id.Set.empty)::l) let mem_q x (m,_) = Id.Map.mem x m let find_q x (m,q) = let v = Id.Map.find x m in let m' = Id.Map.remove x m in let rec find accs acc = function [] -> raise Not_found | [(x',l)] -> if Id.equal x x' then ((v,Id.Set.union accs l),(m',List.rev acc)) else raise Not_found | (x',l as i)::((x'',l'')::q as itl) -> if Id.equal x x' then ((v,Id.Set.union accs l), (m',List.rev acc@(x'',Id.Set.add x (Id.Set.union l l''))::q)) else find (Id.Set.union l accs) (i::acc) itl in find Id.Set.empty [] q let occur_vars_in_decl env sigma hyps d = if Id.Set.is_empty hyps then false else let ohyps = global_vars_set_of_decl env sigma d in Id.Set.exists (fun h -> Id.Set.mem h ohyps) hyps let reorder_context env sigma sign ord = let ords = List.fold_right Id.Set.add ord Id.Set.empty in if not (Int.equal (List.length ord) (Id.Set.cardinal ords)) then user_err Pp.(str "Order list has duplicates"); let rec step ord expected ctxt_head moved_hyps ctxt_tail = match ord with | [] -> List.rev ctxt_tail @ ctxt_head | top::ord' when mem_q top moved_hyps -> let ((d,h),mh) = find_q top moved_hyps in if occur_vars_in_decl env sigma h d then user_err (str "Cannot move declaration " ++ Id.print top ++ spc() ++ str "before " ++ pr_sequence Id.print (Id.Set.elements (Id.Set.inter h (global_vars_set_of_decl env sigma d))) ++ str "."); step ord' expected ctxt_head mh (d::ctxt_tail) | _ -> (match ctxt_head with | [] -> error_no_such_hypothesis env sigma (List.hd ord) | d :: ctxt -> let x = NamedDecl.get_id d in if Id.Set.mem x expected then step ord (Id.Set.remove x expected) ctxt (push_item x d moved_hyps) ctxt_tail else step ord expected ctxt (push_val x moved_hyps) (d::ctxt_tail)) in step ord ords sign mt_q [] let reorder_val_context env sigma sign ord = match ord with | [] | [_] -> (* Single variable-free definitions need not be reordered *) sign | _ :: _ :: _ -> let open EConstr in val_of_named_context (reorder_context env sigma (named_context_of_val sign) ord) let check_decl_position env sigma sign d = let open EConstr in let x = NamedDecl.get_id d in let needed = global_vars_set_of_decl env sigma d in let deps = dependency_closure env sigma (named_context_of_val sign) needed in if Id.List.mem x deps then user_err (str "Cannot create self-referring hypothesis " ++ Id.print x ++ str "."); x::deps (* Auxiliary functions for primitive MOVE tactic * * [move_hyp with_dep toleft (left,(hfrom,typfrom),right) hto] moves * hyp [hfrom] at location [hto] which belongs to the hyps on the * left side [left] of the full signature if [toleft=true] or to the hyps * on the right side [right] if [toleft=false]. * If [with_dep] then dependent hypotheses are moved accordingly. *) (** Move destination for hypothesis *) type 'id move_location = | MoveAfter of 'id | MoveBefore of 'id | MoveFirst | MoveLast (** can be seen as "no move" when doing intro *) (** Printing of [move_location] *) let pr_move_location pr_id = function | MoveAfter id -> brk(1,1) ++ str "after " ++ pr_id id | MoveBefore id -> brk(1,1) ++ str "before " ++ pr_id id | MoveFirst -> str " at top" | MoveLast -> str " at bottom" let move_location_eq m1 m2 = match m1, m2 with | MoveAfter id1, MoveAfter id2 -> Id.equal id1 id2 | MoveBefore id1, MoveBefore id2 -> Id.equal id1 id2 | MoveLast, MoveLast -> true | MoveFirst, MoveFirst -> true | _ -> false let mem_id_context id ctx = Id.Map.mem id ctx.Environ.env_named_map let split_sign env sigma hfrom l = let () = if not (mem_id_context hfrom l) then error_no_such_hypothesis env sigma hfrom in let rec splitrec left sign = match EConstr.match_named_context_val sign with | None -> assert false | Some (d, right) -> let hyp = NamedDecl.get_id d in if Id.equal hyp hfrom then (left, right, d) else splitrec (d :: left) right in splitrec [] l (* ocaml/ocaml#10027 triggered if inline record *) type cannot_move_hyp = { from : Id.t; hto : Id.t move_location; hyp : Id.t } exception CannotMoveHyp of cannot_move_hyp let () = CErrors.register_handler (function | CannotMoveHyp { from; hto; hyp } -> Some Pp.(str "Cannot move " ++ Id.print from ++ pr_move_location Id.print hto ++ str ": it occurs in the declaration of " ++ Id.print hyp ++ str ".") | _ -> None) let move_hyp env sigma toleft (left,declfrom,right) hto = let open EConstr in let push prefix sign = List.fold_right push_named_context_val prefix sign in let push_rev prefix sign = List.fold_left (fun accu d -> push_named_context_val d accu) sign prefix in let rec moverec_toleft ans first middle midvars = function | [] -> push middle @@ push first ans | d :: _ as right when move_location_eq hto (MoveBefore (NamedDecl.get_id d)) -> push_rev right @@ push middle @@ push first ans | d :: right -> let hyp = NamedDecl.get_id d in let (first', middle', midvars') = if occur_vars_in_decl env sigma midvars d then if not (move_location_eq hto (MoveAfter hyp)) then (first, d :: middle, Id.Set.add hyp midvars) else raise (CannotMoveHyp {from = NamedDecl.get_id declfrom; hto; hyp}) else (d::first, middle, midvars) in if move_location_eq hto (MoveAfter hyp) then push_rev right @@ push middle' @@ push first' ans else moverec_toleft ans first' middle' midvars' right in let rec moverec_toright first middle depvars right = match EConstr.match_named_context_val right with | None -> push_rev first @@ push_rev middle right | Some (d, _) when move_location_eq hto (MoveBefore (NamedDecl.get_id d)) -> push_rev first @@ push_rev middle @@ right | Some (d, right) -> let hyp = NamedDecl.get_id d in let (first', middle', depvars') = if Id.Set.mem hyp depvars then if not (move_location_eq hto (MoveAfter hyp)) then let vars = global_vars_set_of_decl env sigma d in let depvars = Id.Set.union vars depvars in (first, d::middle, depvars) else raise (CannotMoveHyp {from = NamedDecl.get_id declfrom; hto; hyp}) else (d::first, middle, depvars) in if move_location_eq hto (MoveAfter hyp) then push_rev first' @@ push_rev middle' @@ right else moverec_toright first' middle' depvars' right in if toleft then let id = NamedDecl.get_id declfrom in moverec_toleft right [] [declfrom] (Id.Set.singleton id) left else let depvars = global_vars_set_of_decl env sigma declfrom in let right = moverec_toright [] [declfrom] depvars right in push_rev left @@ right let move_hyp_in_named_context env sigma hfrom hto sign = let (left, right, declfrom) = split_sign env sigma hfrom sign in let toleft = match hto with | MoveLast -> true | MoveAfter id | MoveBefore id -> if mem_id_context id right then false else if mem_id_context id sign then true else error_no_such_hypothesis env sigma id | MoveFirst -> false in move_hyp env sigma toleft (left,declfrom,right) hto let insert_decl_in_named_context env sigma decl hto sign = move_hyp env sigma false ([],decl,sign) hto let convert_hyp ~check ~reorder env sigma d = let id = NamedDecl.get_id d in let b = NamedDecl.get_value d in let sign = Environ.named_context_val env in match lookup_named_ctxt id sign with | exception Not_found -> if check then error_no_such_hypothesis env sigma id else sign | d' -> let c = Option.map EConstr.of_constr (NamedDecl.get_value d') in if check && not (is_conv env sigma (NamedDecl.get_type d) (EConstr.of_constr (NamedDecl.get_type d'))) then user_err (str "Incorrect change of the type of " ++ Id.print id ++ str "."); if check && not (Option.equal (is_conv env sigma) b c) then user_err (str "Incorrect change of the body of "++ Id.print id ++ str "."); let sign' = apply_to_hyp sign id (fun _ _ _ -> EConstr.Unsafe.to_named_decl d) in if reorder then reorder_val_context env sigma sign' (check_decl_position env sigma sign d) else sign'