| `Unfold None -> "unfold"
| `Whd -> "whd"
-let pp_tactic_pattern ~term_pp ~lazy_term_pp (what, hyp, goal) =
+let pp_tactic_pattern ~map_unicode_to_tex ~term_pp ~lazy_term_pp (what, hyp, goal) =
if what = None && hyp = [] && goal = None then "" else
let what_text =
match what with
let goal_text =
match goal with
| None -> ""
- | Some t -> Printf.sprintf "\\vdash (%s)" (term_pp t) in
- Printf.sprintf "%sin %s%s" what_text hyp_text goal_text
+ | Some t ->
+ let vdash = if map_unicode_to_tex then "\\vdash" else "⊢" in
+ Printf.sprintf "%s (%s)" vdash (term_pp t)
+ in
+ Printf.sprintf "%sin %s%s" what_text hyp_text goal_text
let pp_intros_specs s = function
| None, [] -> ""
| None, idents -> Printf.sprintf " %s%s" s (pp_idents idents)
| Some num, idents -> Printf.sprintf " %s%i %s" s num (pp_idents idents)
-let terms_pp ~term_pp terms = String.concat ", " (List.map term_pp terms)
+let pp_terms ~term_pp terms = String.concat ", " (List.map term_pp terms)
let opt_string_pp = function
| None -> ""
| Some what -> what ^ " "
+
+let pp_auto_params ~term_pp (univ, params) =
+ String.concat " "
+ (List.map (fun (k,v) -> if v <> "" then k ^ "=" ^ v else k) params) ^
+ if univ <> [] then
+ (if params <> [] then " " else "") ^ "by " ^
+ String.concat " " (List.map term_pp univ)
+ else ""
+;;
-let rec pp_tactic ~term_pp ~lazy_term_pp =
- let pp_reduction_kind = pp_reduction_kind ~term_pp in
- let pp_tactic_pattern = pp_tactic_pattern ~lazy_term_pp ~term_pp in
+let pp_just ~term_pp =
+ function
+ `Term term -> "exact " ^ term_pp term
+ | `Auto params -> pp_auto_params ~term_pp params
+;;
+
+let rec pp_tactic ~map_unicode_to_tex ~term_pp ~lazy_term_pp =
+ let pp_terms = pp_terms ~term_pp in
+ let pp_tactics = pp_tactics ~map_unicode_to_tex ~term_pp ~lazy_term_pp in
+ let pp_reduction_kind = pp_reduction_kind ~term_pp in
+ let pp_tactic_pattern =
+ pp_tactic_pattern ~map_unicode_to_tex ~lazy_term_pp ~term_pp in
+ let rec pp_tactic =
function
(* Higher order tactics *)
| Do (_, count, tac) ->
- Printf.sprintf "do %d %s" count (pp_tactic ~term_pp ~lazy_term_pp tac)
- | Repeat (_, tac) -> "repeat " ^ pp_tactic ~term_pp ~lazy_term_pp tac
- | Seq (_, tacs) -> pp_tactics ~term_pp ~lazy_term_pp ~sep:"; " tacs
+ Printf.sprintf "do %d %s" count (pp_tactic tac)
+ | Repeat (_, tac) -> "repeat " ^ pp_tactic tac
+ | Seq (_, tacs) -> pp_tactics ~sep:"; " tacs
| Then (_, tac, tacs) ->
- Printf.sprintf "%s; [%s]" (pp_tactic ~term_pp ~lazy_term_pp tac)
- (pp_tactics ~term_pp ~lazy_term_pp ~sep:" | " tacs)
+ Printf.sprintf "%s; [%s]" (pp_tactic tac)
+ (pp_tactics ~sep:" | " tacs)
| First (_, tacs) ->
- Printf.sprintf "tries [%s]" (pp_tactics ~term_pp ~lazy_term_pp ~sep:" | " tacs)
- | Try (_, tac) -> "try " ^ pp_tactic ~term_pp ~lazy_term_pp tac
+ Printf.sprintf "tries [%s]" (pp_tactics ~sep:" | " tacs)
+ | Try (_, tac) -> "try " ^ pp_tactic tac
| Solve (_, tac) ->
- Printf.sprintf "solve [%s]" (pp_tactics ~term_pp ~lazy_term_pp ~sep:" | " tac)
- | Progress (_, tac) -> "progress " ^ pp_tactic ~term_pp ~lazy_term_pp tac
+ Printf.sprintf "solve [%s]" (pp_tactics ~sep:" | " tac)
+ | Progress (_, tac) -> "progress " ^ pp_tactic tac
(* First order tactics *)
| Absurd (_, term) -> "absurd" ^ term_pp term
| Apply (_, term) -> "apply " ^ term_pp term
+ | ApplyRule (_, term) -> "apply rule " ^ term_pp term
+ | ApplyP (_, term) -> "applyP " ^ term_pp term
| ApplyS (_, term, params) ->
- "applyS " ^ term_pp term ^
- String.concat " "
- (List.map (fun (k,v) -> if v <> "" then k ^ "=" ^ v else k) params)
- | AutoBatch (_,params) -> "auto batch " ^
- String.concat " "
- (List.map (fun (k,v) -> if v <> "" then k ^ "=" ^ v else k) params)
+ "applyS " ^ term_pp term ^ pp_auto_params ~term_pp params
+ | AutoBatch (_,params) -> "autobatch " ^
+ pp_auto_params ~term_pp params
| Assumption _ -> "assumption"
- | Cases (_, term, specs) -> Printf.sprintf "cases " ^ term_pp term ^
- pp_intros_specs "names " specs
+ | Cases (_, term, pattern, specs) ->
+ Printf.sprintf "cases %s %s%s"
+ (term_pp term)
+ (pp_tactic_pattern pattern)
+ (pp_intros_specs "names " specs)
| Change (_, where, with_what) ->
Printf.sprintf "change %s with %s" (pp_tactic_pattern where) (lazy_term_pp with_what)
| Clear (_,ids) -> Printf.sprintf "clear %s" (pp_hyps ids)
| Decompose (_, names) ->
Printf.sprintf "decompose%s"
(pp_intros_specs "names " (None, names))
- | Demodulate _ -> "demodulate"
- | Destruct (_, term) -> "destruct " ^ term_pp term
+ | Demodulate (_, params) -> "demodulate " ^ pp_auto_params ~term_pp params
+ | Destruct (_, None) -> "destruct"
+ | Destruct (_, Some terms) -> "destruct " ^ pp_terms terms
| Elim (_, what, using, pattern, specs) ->
Printf.sprintf "elim %s%s %s%s"
(term_pp what)
(if linear then " linear " else "")
(match level_opt with None -> "" | Some i -> " depth = " ^ string_of_int i ^ " ")
(term_pp term)
- (match terms with [] -> "" | _ -> " to " ^ terms_pp ~term_pp terms)
+ (match terms with [] -> "" | _ -> " to " ^ pp_terms terms)
(match ident_opt with None -> "" | Some ident -> " as " ^ ident)
| Left _ -> "left"
| LetIn (_, term, ident) ->
| Right _ -> "right"
| Ring _ -> "ring"
| Split _ -> "split"
- | Subst _ -> "subst"
| Symmetry _ -> "symmetry"
| Transitivity (_, term) -> "transitivity " ^ term_pp term
(* Tattiche Aggiunte *)
| Assume (_, ident , term) -> "assume" ^ ident ^ ":" ^ term_pp term
| Suppose (_, term, ident,term1) -> "suppose" ^ term_pp term ^ "(" ^ ident ^ ")" ^ (match term1 with None -> " " | Some term1 -> term_pp term1)
- | Bydone (_, term) -> "by" ^ (match term with None -> "_" | Some term -> term_pp term) ^ "done"
- | By_term_we_proved (_, term, term1, ident, term2) -> "by" ^ (match term with None -> "_" | Some term -> term_pp term) ^ "we proved" ^ term_pp term1 ^ (match ident with None -> "" | Some ident -> "(" ^ident^ ")") ^
+ | Bydone (_, just) -> pp_just ~term_pp just ^ "done"
+ | By_just_we_proved (_, just, term1, ident, term2) -> pp_just ~term_pp just ^ "we proved" ^ term_pp term1 ^ (match ident with None -> "" | Some ident -> "(" ^ident^ ")") ^
(match term2 with None -> " " | Some term2 -> term_pp term2)
| We_need_to_prove (_, term, ident, term1) -> "we need to prove" ^ term_pp term ^ (match ident with None -> "" | Some ident -> "(" ^ ident ^ ")") ^ (match term1 with None -> " " | Some term1 -> term_pp term1)
| We_proceed_by_cases_on (_, term, term1) -> "we proceed by cases on" ^ term_pp term ^ "to prove" ^ term_pp term1
| We_proceed_by_induction_on (_, term, term1) -> "we proceed by induction on" ^ term_pp term ^ "to prove" ^ term_pp term1
| Byinduction (_, term, ident) -> "by induction hypothesis we know" ^ term_pp term ^ "(" ^ ident ^ ")"
| Thesisbecomes (_, term) -> "the thesis becomes " ^ term_pp term
- | ExistsElim (_, term0, ident, term, ident1, term1) -> "by " ^ (match term0 with None -> "_" | Some term -> term_pp term) ^ "let " ^ ident ^ ":" ^ term_pp term ^ "such that " ^ lazy_term_pp term1 ^ "(" ^ ident1 ^ ")"
- | AndElim (_, term, ident1, term1, ident2, term2) -> "by " ^ term_pp term ^ "we have " ^ term_pp term1 ^ " (" ^ ident1 ^ ") " ^ "and " ^ term_pp term2 ^ " (" ^ ident2 ^ ")"
- | RewritingStep (_, term, term1, term2, cont) -> (match term with None -> " " | Some (None,term) -> "conclude " ^ term_pp term | Some (Some name,term) -> "obtain (" ^ name ^ ") " ^ term_pp term) ^ "=" ^ term_pp term1 ^ " by " ^ (match term2 with `Auto params -> "_" ^ String.concat " " (List.map (fun (k,v) -> if v <> "" then k ^ "=" ^ v else k) params) | `Term term2 -> term_pp term2 | `Proof -> "proof") ^ (if cont then " done" else "")
+ | ExistsElim (_, just, ident, term, ident1, term1) -> pp_just ~term_pp just ^ "let " ^ ident ^ ":" ^ term_pp term ^ "such that " ^ lazy_term_pp term1 ^ "(" ^ ident1 ^ ")"
+ | AndElim (_, just, ident1, term1, ident2, term2) -> pp_just ~term_pp just ^ "we have " ^ term_pp term1 ^ " (" ^ ident1 ^ ") " ^ "and " ^ term_pp term2 ^ " (" ^ ident2 ^ ")"
+ | RewritingStep (_, term, term1, term2, cont) ->
+ (match term with
+ | None -> " "
+ | Some (None,term) -> "conclude " ^ term_pp term
+ | Some (Some name,term) ->
+ "obtain (" ^ name ^ ") " ^ term_pp term)
+ ^ "=" ^
+ term_pp term1 ^
+ (match term2 with
+ | `Auto params -> pp_auto_params ~term_pp params
+ | `Term term2 -> " exact " ^ term_pp term2
+ | `Proof -> " proof"
+ | `SolveWith term -> " using " ^ term_pp term)
+ ^ (if cont then " done" else "")
| Case (_, id, args) ->
"case" ^ id ^
String.concat " "
(List.map (function (id,term) -> "(" ^ id ^ ": " ^ term_pp term ^ ")")
args)
+ in pp_tactic
-and pp_tactics ~term_pp ~lazy_term_pp ~sep tacs =
- String.concat sep (List.map (pp_tactic ~lazy_term_pp ~term_pp) tacs)
+and pp_tactics ~map_unicode_to_tex ~term_pp ~lazy_term_pp ~sep tacs =
+ String.concat sep
+ (List.map (pp_tactic ~map_unicode_to_tex ~lazy_term_pp ~term_pp) tacs)
let pp_search_kind = function
| `Locate -> "locate"
else
"(" ^ s ^ ")"
-let pp_macro ~term_pp =
+let pp_macro ~term_pp ~lazy_term_pp =
let term_pp = pp_arg ~term_pp in
let style_pp = function
| Declarative -> ""
let prefix_pp prefix =
if prefix = "" then "" else Printf.sprintf " \"%s\"" prefix
in
+ let flavour_pp = function
+ | None -> ""
+ | Some `Definition -> " as definition"
+ | Some `MutualDefinition -> " as mutual"
+ | Some `Fact -> " as fact"
+ | Some `Lemma -> " as lemma"
+ | Some `Remark -> " as remark"
+ | Some `Theorem -> " as theorem"
+ | Some `Variant -> " as variant"
+ | Some `Axiom -> " as axiom"
+ in
+ let pp_reduction_kind = pp_reduction_kind ~term_pp:lazy_term_pp in
function
(* Whelp *)
| WInstance (_, term) -> "whelp instance " ^ term_pp term
| WElim (_, t) -> "whelp elim " ^ term_pp t
| WMatch (_, term) -> "whelp match " ^ term_pp term
(* real macros *)
+ | Eval (_, kind, term) ->
+ Printf.sprintf "eval %s on %s" (pp_reduction_kind kind) (term_pp term)
| Check (_, term) -> Printf.sprintf "check %s" (term_pp term)
- | Hint _ -> "hint"
- | AutoInteractive (_,params) -> "auto " ^
- String.concat " "
- (List.map (fun (k,v) -> if v <> "" then k ^ "=" ^ v else k) params)
- | Inline (_, style, suri, prefix) ->
- Printf.sprintf "inline %s\"%s\"%s" (style_pp style) suri (prefix_pp prefix)
+ | Hint (_, true) -> "hint rewrite"
+ | Hint (_, false) -> "hint"
+ | AutoInteractive (_,params) -> "auto " ^ pp_auto_params ~term_pp params
+ | Inline (_, style, suri, prefix, flavour) ->
+ Printf.sprintf "inline %s\"%s\"%s%s" (style_pp style) suri (prefix_pp prefix) (flavour_pp flavour)
let pp_associativity = function
| Gramext.LeftA -> "left associative"
Printf.sprintf "default \"%s\" %s" what
(String.concat " " (List.map UriManager.string_of_uri uris))
-let pp_coercion uri do_composites arity =
- Printf.sprintf "coercion %s %d (* %s *)" (UriManager.string_of_uri uri) arity
- (if do_composites then "compounds" else "no compounds")
+let pp_coercion ~term_pp t do_composites arity saturations=
+ Printf.sprintf "coercion %s %d %d %s"
+ (term_pp t) arity saturations
+ (if do_composites then "" else "nocomposites")
let pp_command ~term_pp ~obj_pp = function
| Index (_,_,uri) -> "Indexing " ^ UriManager.string_of_uri uri
- | Coercion (_, uri, do_composites, i) -> pp_coercion uri do_composites i
+ | Coercion (_, t, do_composites, i, j) ->
+ pp_coercion ~term_pp t do_composites i j
+ | PreferCoercion (_,t) ->
+ "prefer coercion " ^ term_pp t
+ | UnificationHint (_,t) ->
+ "unification hint " ^ term_pp t
| Default (_,what,uris) -> pp_default what uris
| Drop _ -> "drop"
| Include (_,path) -> "include \"" ^ path ^ "\""
| Unfocus _ -> "unfocus"
| Skip _ -> "skip"
-let pp_executable ~term_pp ~lazy_term_pp ~obj_pp =
+let pp_executable ~map_unicode_to_tex ~term_pp ~lazy_term_pp ~obj_pp =
function
- | Macro (_, macro) -> pp_macro ~term_pp macro ^ "."
+ | Macro (_, macro) -> pp_macro ~term_pp ~lazy_term_pp macro ^ "."
| Tactic (_, Some tac, punct) ->
- pp_tactic ~lazy_term_pp ~term_pp tac
+ pp_tactic ~map_unicode_to_tex ~lazy_term_pp ~term_pp tac
^ pp_punctuation_tactical ~lazy_term_pp ~term_pp punct
| Tactic (_, None, punct) ->
pp_punctuation_tactical ~lazy_term_pp ~term_pp punct
^ pp_punctuation_tactical ~lazy_term_pp ~term_pp punct
| Command (_, cmd) -> pp_command ~term_pp ~obj_pp cmd ^ "."
-let pp_comment ~term_pp ~lazy_term_pp ~obj_pp =
+let pp_comment ~map_unicode_to_tex ~term_pp ~lazy_term_pp ~obj_pp =
function
| Note (_,"") -> Printf.sprintf "\n"
| Note (_,str) -> Printf.sprintf "\n(* %s *)" str
| Code (_,code) ->
- Printf.sprintf "\n(** %s. **)" (pp_executable ~term_pp ~lazy_term_pp ~obj_pp code)
+ Printf.sprintf "\n(** %s. **)" (pp_executable ~map_unicode_to_tex ~term_pp ~lazy_term_pp ~obj_pp code)
let pp_statement ~term_pp ~lazy_term_pp ~obj_pp =
function