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|
open Type_internal
open Ast
open Format
let is_atomic_typ (Typ_aux(t,_)) =
match t with
| Typ_id _ | Typ_var _ | Typ_tup _ -> true
| _ -> false
let is_atomic_nexp (Nexp_aux(n,_)) =
match n with
| Nexp_var _ | Nexp_constant _ | Nexp_exp _ -> true
| _ -> false
let is_atomic_pat (P_aux(p,l)) =
match p with
| P_lit(_) | P_wild | P_id(_) | P_as _ | P_typ _ -> true
| P_app(_,pats) -> if (pats = []) then true else false
| P_record(_,_) | P_vector(_) | P_vector_indexed(_) | P_tup(_) | P_list(_) -> true
| _ -> false
let rec list_format (sep : string) (fmt : 'a -> string) (ls : 'a list) : string =
match ls with
| [] -> ""
| [a] -> fmt a
| a::ls -> (fmt a) ^ sep ^ (list_format sep fmt ls)
let rec list_pp i_format l_format =
fun ppf l ->
match l with
| [] -> fprintf ppf ""
| [i] -> fprintf ppf "%a" l_format i
| i::is -> fprintf ppf "%a%a" i_format i (list_pp i_format l_format) is
let kwd ppf s = fprintf ppf "%s" s
let base ppf s = fprintf ppf "%s" s
let parens is_atomic to_base v =
if (is_atomic v) then to_base v
else "(" ^ to_base v ^ ")"
let pp_parens is_atomic format =
fun ppf v ->
if (is_atomic v)
then format ppf v
else fprintf ppf "%a %a %a" kwd "(" format v kwd ")"
(****************************************************************************
* source to source pretty printer
****************************************************************************)
let pp_format_id (Id_aux(i,_)) =
match i with
| Id(i) -> i
| DeIid(x) -> "(deinfix " ^ x ^ ")"
let pp_id ppf id = base ppf (pp_format_id id)
let pp_format_var (Kid_aux(Var v,_)) = v
let pp_var ppf var = base ppf (pp_format_var var)
let pp_format_bkind (BK_aux(k,_)) =
match k with
| BK_type -> "Type"
| BK_nat -> "Nat"
| BK_order -> "Order"
| BK_effect -> "Effect"
let pp_bkind ppf bk = base ppf (pp_format_bkind bk)
let pp_format_kind (K_aux(K_kind(klst),_)) =
list_format " -> " pp_format_bkind klst
let pp_kind ppf k = base ppf (pp_format_kind k)
let rec pp_format_typ (Typ_aux(t,_)) =
match t with
| Typ_id(id) -> pp_format_id id
| Typ_var(var) -> pp_format_var var
| Typ_wild -> "_"
| Typ_fn(arg,ret,efct) -> "(" ^ (parens is_atomic_typ pp_format_typ arg) ^ " -> " ^
(parens is_atomic_typ pp_format_typ ret) ^ " effect " ^
(pp_format_effects efct) ^ ")"
| Typ_tup(typs) -> "(" ^ (list_format " * " pp_format_typ typs) ^ ")"
| Typ_app(id,args) -> (pp_format_id id) ^ "<" ^ (list_format ", " pp_format_typ_arg args) ^ ">"
and pp_format_nexp (Nexp_aux(n,_)) =
match n with
| Nexp_var(var) -> pp_format_var var
| Nexp_constant(i) -> string_of_int i
| Nexp_sum(n1,n2) -> "(" ^ (pp_format_nexp n1) ^ " + " ^ (pp_format_nexp n2) ^ ")"
| Nexp_times(n1,n2) -> "(" ^ (pp_format_nexp n1) ^ " * " ^ (pp_format_nexp n2) ^ ")"
| Nexp_exp(n1) -> "2** (" ^ (pp_format_nexp n1) ^ ")"
| Nexp_neg(n1) -> "(* - *)" ^ (pp_format_nexp n1)
and pp_format_ord (Ord_aux(o,_)) =
match o with
| Ord_var(var) -> pp_format_var var
| Ord_inc -> "inc"
| Ord_dec -> "dec"
and pp_format_effects (Effect_aux(e,_)) =
match e with
| Effect_var(var) -> pp_format_var var
| Effect_set(efcts) ->
if (efcts = [])
then "pure"
else "{" ^
(list_format ","
(fun (BE_aux(e,l)) ->
match e with
| BE_rreg -> "rreg"
| BE_wreg -> "wreg"
| BE_rmem -> "rmem"
| BE_wmem -> "wmem"
| BE_undef -> "undef"
| BE_unspec -> "unspec"
| BE_nondet -> "nondet")
efcts) ^ " }"
and pp_format_typ_arg (Typ_arg_aux(t,_)) =
match t with
| Typ_arg_typ(t) -> pp_format_typ t
| Typ_arg_nexp(n) -> pp_format_nexp n
| Typ_arg_order(o) -> pp_format_ord o
| Typ_arg_effect(e) -> pp_format_effects e
let pp_typ ppf t = base ppf (pp_format_typ t)
let pp_nexp ppf n = base ppf (pp_format_nexp n)
let pp_ord ppf o = base ppf (pp_format_ord o)
let pp_effects ppf e = base ppf (pp_format_effects e)
let pp_format_nexp_constraint (NC_aux(nc,_)) =
match nc with
| NC_fixed(n1,n2) -> pp_format_nexp n1 ^ " = " ^ pp_format_nexp n2
| NC_bounded_ge(n1,n2) -> pp_format_nexp n1 ^ " >= " ^ pp_format_nexp n2
| NC_bounded_le(n1,n2) -> pp_format_nexp n1 ^ " <= " ^ pp_format_nexp n2
| NC_nat_set_bounded(var,bounds) ->
pp_format_var var ^
" In {" ^
list_format ", " string_of_int bounds ^
"}"
let pp_nexp_constraint ppf nc = base ppf (pp_format_nexp_constraint nc)
let pp_format_qi (QI_aux(qi,_)) =
match qi with
| QI_const(n_const) -> pp_format_nexp_constraint n_const
| QI_id(KOpt_aux(ki,_)) ->
(match ki with
| KOpt_none(var) -> pp_format_var var
| KOpt_kind(k,var) -> pp_format_kind k ^ " " ^ pp_format_var var)
let pp_qi ppf qi = base ppf (pp_format_qi qi)
let pp_format_typquant (TypQ_aux(tq,_)) =
match tq with
| TypQ_no_forall -> ""
| TypQ_tq(qlist) ->
"forall " ^
(list_format ", " pp_format_qi qlist) ^
". "
let pp_typquant ppf tq = base ppf (pp_format_typquant tq)
let pp_format_typscm (TypSchm_aux(TypSchm_ts(tq,t),_)) =
(pp_format_typquant tq) ^ pp_format_typ t
let pp_typscm ppf ts = base ppf (pp_format_typscm ts)
let pp_format_lit (L_aux(l,_)) =
match l with
| L_unit -> "()"
| L_zero -> "0"
| L_one -> "1"
| L_true -> "true"
| L_false -> "false"
| L_num(i) -> string_of_int i
| L_hex(n) -> "0x" ^ n
| L_bin(n) -> "0b" ^ n
| L_undef -> "undefined"
| L_string(s) -> "\"" ^ s ^ "\""
let pp_lit ppf l = base ppf (pp_format_lit l)
let rec pp_format_pat (P_aux(p,l)) =
match p with
| P_lit(lit) -> pp_format_lit lit
| P_wild -> "_"
| P_id(id) -> pp_format_id id
| P_as(pat,id) -> "(" ^ pp_format_pat pat ^ " as " ^ pp_format_id id ^ ")"
| P_typ(typ,pat) -> "(" ^ pp_format_typ typ ^ ") " ^ pp_format_pat pat
| P_app(id,pats) -> if (pats = [])
then pp_format_id id
else pp_format_id id ^ "(" ^
list_format ", " (parens is_atomic_pat pp_format_pat) pats ^ ")"
| P_record(fpats,_) -> "{" ^
list_format "; " (fun (FP_aux(FP_Fpat(id,fpat),_)) ->
pp_format_id id ^ " = " ^ pp_format_pat fpat) fpats
^ "}"
| P_vector(pats) -> "[" ^ list_format "; " (parens is_atomic_pat pp_format_pat) pats ^ "]"
| P_vector_indexed(ipats) ->
"[" ^ list_format "; " (fun (i,p) -> string_of_int i ^ " = " ^ pp_format_pat p) ipats ^ "]"
| P_vector_concat(pats) -> list_format " ^ " pp_format_pat pats
| P_tup(pats) -> "(" ^ (list_format ", " (parens is_atomic_pat pp_format_pat) pats) ^ ")"
| P_list(pats) -> "[||" ^ (list_format "; " (parens is_atomic_pat pp_format_pat) pats) ^ "||]"
let pp_pat ppf p = base ppf (pp_format_pat p)
let pp_pat_atomic ppf p = base ppf (parens is_atomic_pat pp_format_pat p)
let rec pp_let ppf (LB_aux(lb,_)) =
match lb with
| LB_val_explicit(ts,pat,exp) -> fprintf ppf "@[<0>%a %a %a %a@ %a@]" kwd "let" pp_typscm ts pp_pat_atomic pat kwd " =" pp_exp exp
| LB_val_implicit(pat,exp) -> fprintf ppf "@[<0>%a %a %a@ %a@]" kwd "let" pp_pat_atomic pat kwd " =" pp_exp exp
(* Need an is_atomic? check and insert parens otherwise *)
and pp_exp ppf (E_aux(e,_)) =
match e with
| E_block(exps) -> fprintf ppf "@[<0>%a%a@ %a@]"
kwd "{"
(list_pp pp_semi_exp pp_exp) exps
kwd "}"
| E_id(id) -> pp_id ppf id
| E_lit(lit) -> pp_lit ppf lit
| E_cast(typ,exp) -> fprintf ppf "@[<0>%a%a%a %a@]" kwd "(" pp_typ typ kwd ")" pp_exp exp
| E_app(f,args) -> fprintf ppf "@[<0>%a(%a)@]" pp_id f (list_pp pp_comma_exp pp_exp) args
| E_app_infix(l,op,r) -> fprintf ppf "@[<0>%a %a %a@]" pp_exp l pp_id op pp_exp r
| E_tuple(exps) -> fprintf ppf "@[<0>%a %a %a@]" kwd "(" (list_pp pp_comma_exp pp_exp) exps kwd ")"
| E_if(c,t,e) -> fprintf ppf "@[<0>%a %a @[<1>%a %a@] @[<1>%a@ %a@]@]" kwd "if " pp_exp c kwd "then" pp_exp t kwd "else" pp_exp e
| E_for(id,exp1,exp2,exp3,order,exp4) ->
fprintf ppf "@[<0> %a %a (%a %a %a %a %a %a %a %a)@ @[<1>%a@]@]"
kwd "foreach " pp_id id kwd "from " pp_exp exp1 kwd " to " pp_exp exp2 kwd "by " pp_exp exp3 kwd "in" pp_ord order pp_exp exp4
| E_vector(exps) -> fprintf ppf "@[<0>%a%a%a@]" kwd "[" (list_pp pp_comma_exp pp_exp) exps kwd "]"
| E_vector_indexed(iexps) ->
let iformat ppf (i,e) = fprintf ppf "@[<1>%i%a %a%a@]" i kwd " = " pp_exp e kwd "," in
let lformat ppf (i,e) = fprintf ppf "@[<1>%i%a %a@]" i kwd " = " pp_exp e in
fprintf ppf "@[<0> %a%a%a@]" kwd "[" (list_pp iformat lformat) iexps kwd "]"
| E_vector_access(v,e) -> fprintf ppf "@[<0>%a%a%a%a@]" pp_exp v kwd "[" pp_exp e kwd "]"
| E_vector_subrange(v,e1,e2) -> fprintf ppf "@[<0>%a%a%a%a%a%a@]" pp_exp v kwd "[" pp_exp e1 kwd " : " pp_exp e1 kwd "]"
| E_vector_update(v,e1,e2) ->
fprintf ppf "@[<0>%a%a %a %a%a%a%a@]" kwd "[" pp_exp v kwd "with" pp_exp e1 kwd " = " pp_exp e2 kwd "]"
| E_vector_update_subrange(v,e1,e2,e3) ->
fprintf ppf "@[<0>%a%a %a %a %a %a %a %a %a@]" kwd "[" pp_exp v kwd "with" pp_exp e1 kwd ":" pp_exp e2 kwd " = " pp_exp e3 kwd "]"
| E_list(exps) -> fprintf ppf "@[<0>%a%a%a@]" kwd "[||" (list_pp pp_comma_exp pp_exp) exps kwd "||]"
| E_cons(e1,e2) -> fprintf ppf "@[<0>%a%a%a@]" pp_exp e1 kwd ":" pp_exp e2
| E_record(FES_aux(FES_Fexps(fexps,_),_)) -> fprintf ppf "@[<0>%a%a%a@]" kwd "{" (list_pp pp_semi_fexp pp_fexp) fexps kwd "}"
| E_record_update(exp,(FES_aux(FES_Fexps(fexps,_),_))) ->
fprintf ppf "@[<0>%a%a %a %a%a@]" kwd "{" pp_exp exp kwd " with " (list_pp pp_semi_fexp pp_fexp) fexps kwd "}"
| E_field(fexp,id) -> fprintf ppf "@[<0>%a%a%a@]" pp_exp fexp kwd "." pp_id id
| E_case(exp,pexps) -> fprintf ppf "@[<0>%a %a %a %a %a@]" kwd "switch " pp_exp exp kwd "{" (list_pp pp_case pp_case) pexps kwd "}"
| E_let(leb,exp) -> fprintf ppf "@[<0>%a@ %a@ %a@]" pp_let leb kwd "in" pp_exp exp
| E_assign(lexp,exp) -> fprintf ppf "@[<0>%a%a%a@]" pp_lexp lexp kwd " := " pp_exp exp
and pp_semi_exp ppf e = fprintf ppf "@[<1>%a%a@]" pp_exp e kwd ";"
and pp_comma_exp ppf e = fprintf ppf "@[<1>%a%a@]" pp_exp e kwd ","
and pp_fexp ppf (FE_aux(FE_Fexp(id,exp),_)) = fprintf ppf "@[<1>%a %a %a@]" pp_id id kwd " = " pp_exp exp
and pp_semi_fexp ppf fexp = fprintf ppf "@[<1>%a%a@]" pp_fexp fexp kwd ";"
and pp_case ppf (Pat_aux(Pat_exp(pat,exp),_)) =
fprintf ppf "@[<1>%a %a@@[<1>%a@]@]" pp_pat_atomic pat kwd "-> " pp_exp exp
and pp_lexp ppf (LEXP_aux(lexp,_)) =
match lexp with
| LEXP_id(id) -> pp_id ppf id
| LEXP_memory(id,args) -> fprintf ppf "@[%a(%a)@]" pp_id id (list_pp pp_exp pp_exp) args
| LEXP_vector(v,exp) -> fprintf ppf "@[%a%a%a%a@]" pp_lexp v kwd "[" pp_exp exp kwd "]"
| LEXP_vector_range(v,e1,e2) -> fprintf ppf "@[%a%a%a%a%a%a@]" pp_lexp v kwd "[" pp_exp e1 kwd ":" pp_exp e2 kwd "]"
| LEXP_field(v,id) -> fprintf ppf "@[%a%a%a@]" pp_lexp v kwd "." pp_id id
let pp_default ppf (DT_aux(df,_)) =
match df with
| DT_kind(bk,var) -> fprintf ppf "@[<0>%a %a %a@]@\n" kwd "default" pp_bkind bk pp_var var
| DT_typ(ts,id) -> fprintf ppf "@[<0>%a %a %a@]@\n" kwd "default" pp_typscm ts pp_id id
let pp_spec ppf (VS_aux(v,_)) =
match v with
| VS_val_spec(ts,id) -> fprintf ppf "@[<0>%a %a %a@]@\n" kwd "val" pp_typscm ts pp_id id
| VS_extern_spec(ts,id,s) -> fprintf ppf "@[<0>%a %a %a %a %a \"%s\"@]@\n" kwd "val" kwd "extern" pp_typscm ts pp_id id kwd "=" s
| VS_extern_no_rename(ts,id) -> fprintf ppf "@[<0>%a %a %a %a@]@\n" kwd "val" kwd "extern" pp_typscm ts pp_id id
let pp_namescm ppf (Name_sect_aux(ns,_)) =
match ns with
| Name_sect_none -> fprintf ppf ""
| Name_sect_some(s) -> fprintf ppf "[%a \"%s\"]" kwd "name =" s
let rec pp_range ppf (BF_aux(r,_)) =
match r with
| BF_single(i) -> fprintf ppf "%i" i
| BF_range(i1,i2) -> fprintf ppf "%i..%i" i1 i2
| BF_concat(ir1,ir2) -> fprintf ppf "%a%a %a" pp_range ir1 kwd ", " pp_range ir2
let pp_typdef ppf (TD_aux(td,_)) =
match td with
| TD_abbrev(id,namescm,typschm) ->
fprintf ppf "@[<0>%a %a %a %a %a@]@\n" kwd "typedef" pp_id id pp_namescm namescm kwd "=" pp_typscm typschm
| TD_record(id,nm,typq,fs,_) ->
let f_pp ppf (typ,id) =
fprintf ppf "@[<1>%a %a%a@]" pp_typ typ pp_id id kwd ";" in
fprintf ppf "@[<0>%a %a %a%a %a %a %a%a@[<1>%a@]%a@]@\n"
kwd "typedef" pp_id id pp_namescm nm kwd "=" kwd "const" kwd "struct" pp_typquant typq kwd "{" (list_pp f_pp f_pp) fs kwd "}"
| TD_variant(id,nm,typq,ar,_) ->
let a_pp ppf (Tu_aux(typ_u,_)) =
match typ_u with
| Tu_ty_id(typ,id) -> fprintf ppf "@[<1>%a %a%a@]" pp_typ typ pp_id id kwd ";"
| Tu_id(id) -> fprintf ppf "@[<1>%a%a@]" pp_id id kwd ";"
in
fprintf ppf "@[<0>%a %a %a %a %a %a %a %a@[<1>%a@] %a@]@\n"
kwd "typedef" pp_id id pp_namescm nm kwd "=" kwd "const" kwd "union" pp_typquant typq kwd "{" (list_pp a_pp a_pp) ar kwd "}"
| TD_enum(id,ns,enums,_) ->
let pp_id_semi ppf id = fprintf ppf "%a%a " pp_id id kwd ";" in
fprintf ppf "@[<0>%a %a %a %a %a %a%a %a@]@\n"
kwd "typedef" pp_id id pp_namescm ns kwd "=" kwd "enumerate" kwd "{" (list_pp pp_id_semi pp_id) enums kwd "}"
| TD_register(id,n1,n2,rs) ->
let pp_rid ppf (r,id) = fprintf ppf "%a%a%a%a " pp_range r kwd ":" pp_id id kwd ";" in
let pp_rids = (list_pp pp_rid pp_rid) in
fprintf ppf "@[<0>%a %a %a %a %a %a%a%a%a%a %a%a%a@]@\n"
kwd "typedef" pp_id id kwd "=" kwd "register" kwd "bits" kwd "[" pp_nexp n1 kwd ":" pp_nexp n2 kwd "]" kwd "{" pp_rids rs kwd "}"
let pp_rec ppf (Rec_aux(r,_)) =
match r with
| Rec_nonrec -> fprintf ppf ""
| Rec_rec -> fprintf ppf "rec "
let pp_tannot_opt ppf (Typ_annot_opt_aux(t,_)) =
match t with
| Typ_annot_opt_some(tq,typ) -> fprintf ppf "%a%a " pp_typquant tq pp_typ typ
let pp_effects_opt ppf (Effect_opt_aux(e,_)) =
match e with
| Effect_opt_pure -> fprintf ppf "effect pure"
| Effect_opt_effect e -> fprintf ppf "effect %a" pp_effects e
let pp_funcl ppf (FCL_aux(FCL_Funcl(id,pat,exp),_)) =
fprintf ppf "%a %a %a @[<1>%a@]@\n" pp_id id pp_pat_atomic pat kwd "=" pp_exp exp
let pp_fundef ppf (FD_aux(FD_function(r, typa, efa, fcls),_)) =
let pp_funcls ppf funcl = fprintf ppf "%a %a" kwd "and" pp_funcl funcl in
fprintf ppf "@[<0>%a %a%a%a @[<1>%a@] @[<1>%a@] @]@\n"
kwd "function" pp_rec r pp_tannot_opt typa pp_effects_opt efa pp_funcl (List.hd fcls) (list_pp pp_funcls pp_funcls) (List.tl fcls)
let pp_def ppf (DEF_aux(d,(l,_))) =
match d with
| DEF_default(df) -> pp_default ppf df
| DEF_spec(v_spec) -> pp_spec ppf v_spec
| DEF_type(t_def) -> pp_typdef ppf t_def
| DEF_fundef(f_def) -> pp_fundef ppf f_def
| DEF_val(lbind) -> fprintf ppf "@[<0>%a@]@\n" pp_let lbind
| DEF_reg_dec(typ,id) -> fprintf ppf "@[<0>%a %a %a@]@\n" kwd "register" pp_typ typ pp_id id
| _ -> raise (Reporting_basic.err_unreachable l "initial_check didn't remove all scattered Defs")
let pp_defs ppf (Defs(defs)) =
fprintf ppf "@[%a@]@\n" (list_pp pp_def pp_def) defs
(****************************************************************************
* annotated source to Lem ast pretty printer
****************************************************************************)
let rec pp_format_l_lem = function
| Parse_ast.Unknown -> "Unknown"
| Parse_ast.Trans(s,None) -> "(Trans \"" ^ s ^ "\" Nothing)"
| Parse_ast.Trans(s,(Some l)) -> "(Trans \"" ^ s ^ "\" (Just " ^ (pp_format_l_lem l) ^ "))"
| Parse_ast.Range(p1,p2) -> "(Range \"" ^ p1.Lexing.pos_fname ^ "\" " ^
(string_of_int p1.Lexing.pos_lnum) ^ " " ^
(string_of_int (p1.Lexing.pos_cnum - p1.Lexing.pos_bol)) ^ " " ^
(string_of_int p2.Lexing.pos_lnum) ^ " " ^
(string_of_int (p2.Lexing.pos_cnum - p2.Lexing.pos_bol)) ^ ")"
let pp_lem_l ppf l = base ppf (pp_format_l_lem l)
let pp_format_id_lem (Id_aux(i,l)) =
"(Id_aux " ^
(match i with
| Id(i) -> "(Id \"" ^ i ^ "\")"
| DeIid(x) -> "(DeIid \"" ^ x ^ "\")") ^ " " ^
(pp_format_l_lem l) ^ ")"
let pp_lem_id ppf id = base ppf (pp_format_id_lem id)
let pp_format_var_lem (Kid_aux(Var v,l)) = "(Kid_aux (Var \"" ^ v ^ "\") " ^ (pp_format_l_lem l) ^ ")"
let pp_lem_var ppf var = base ppf (pp_format_var_lem var)
let pp_format_bkind_lem (BK_aux(k,l)) =
"(BK_aux " ^
(match k with
| BK_type -> "BK_type"
| BK_nat -> "BK_nat"
| BK_order -> "BK_order"
| BK_effect -> "BK_effect") ^ " " ^
(pp_format_l_lem l) ^ ")"
let pp_lem_bkind ppf bk = base ppf (pp_format_bkind_lem bk)
let pp_format_kind_lem (K_aux(K_kind(klst),l)) =
"(K_aux (K_kind [" ^ list_format "; " pp_format_bkind_lem klst ^ "]) " ^ (pp_format_l_lem l) ^ ")"
let pp_lem_kind ppf k = base ppf (pp_format_kind_lem k)
let rec pp_format_typ_lem (Typ_aux(t,l)) =
"(Typ_aux " ^
(match t with
| Typ_id(id) -> "(Typ_id " ^ pp_format_id_lem id ^ ")"
| Typ_var(var) -> "(Typ_var " ^ pp_format_var_lem var ^ ")"
| Typ_fn(arg,ret,efct) -> "(Typ_fn " ^ pp_format_typ_lem arg ^ " " ^
pp_format_typ_lem ret ^ " " ^
(pp_format_effects_lem efct) ^ ")"
| Typ_tup(typs) -> "(Typ_tup [" ^ (list_format "; " pp_format_typ_lem typs) ^ "])"
| Typ_app(id,args) -> "(Typ_app " ^ (pp_format_id_lem id) ^ " [" ^ (list_format "; " pp_format_typ_arg_lem args) ^ "])"
| Typ_wild -> "Typ_wild") ^ " " ^
(pp_format_l_lem l) ^ ")"
and pp_format_nexp_lem (Nexp_aux(n,l)) =
"(Nexp_aux " ^
(match n with
| Nexp_var(v) -> "(Nexp_var " ^ pp_format_var_lem v ^ ")"
| Nexp_constant(i) -> "(Nexp_constant " ^ string_of_int i ^ ")"
| Nexp_sum(n1,n2) -> "(Nexp_sum " ^ (pp_format_nexp_lem n1) ^ " " ^ (pp_format_nexp_lem n2) ^ ")"
| Nexp_times(n1,n2) -> "(Nexp_times " ^ (pp_format_nexp_lem n1) ^ " " ^ (pp_format_nexp_lem n2) ^ ")"
| Nexp_exp(n1) -> "(Nexp_exp " ^ (pp_format_nexp_lem n1) ^ ")"
| Nexp_neg(n1) -> "(Nexp_neg " ^ (pp_format_nexp_lem n1) ^ ")") ^ " " ^
(pp_format_l_lem l) ^ ")"
and pp_format_ord_lem (Ord_aux(o,l)) =
"(Ord_aux " ^
(match o with
| Ord_var(v) -> "(Ord_var " ^ pp_format_var_lem v ^ ")"
| Ord_inc -> "Ord_inc"
| Ord_dec -> "Ord_dec") ^ " " ^
(pp_format_l_lem l) ^ ")"
and pp_format_base_effect_lem (BE_aux(e,l)) =
"(BE_aux " ^
(match e with
| BE_rreg -> "BE_rreg"
| BE_wreg -> "BE_wreg"
| BE_rmem -> "BE_rmem"
| BE_wmem -> "BE_wmem"
| BE_undef -> "BE_undef"
| BE_unspec -> "BE_unspec"
| BE_nondet -> "BE_nondet") ^ " " ^
(pp_format_l_lem l) ^ ")"
and pp_format_effects_lem (Effect_aux(e,l)) =
"(Effect_aux " ^
(match e with
| Effect_var(v) -> "(Effect_var " ^ pp_format_var v ^ ")"
| Effect_set(efcts) ->
"(Effect_set [" ^
(list_format "; " pp_format_base_effect_lem efcts) ^ " ])") ^ " " ^
(pp_format_l_lem l) ^ ")"
and pp_format_typ_arg_lem (Typ_arg_aux(t,l)) =
"(Typ_arg_aux " ^
(match t with
| Typ_arg_typ(t) -> "(Typ_arg_typ " ^ pp_format_typ_lem t ^ ")"
| Typ_arg_nexp(n) -> "(Typ_arg_nexp " ^ pp_format_nexp_lem n ^ ")"
| Typ_arg_order(o) -> "(Typ_arg_order " ^ pp_format_ord_lem o ^ ")"
| Typ_arg_effect(e) -> "(Typ_arg_effect " ^ pp_format_effects_lem e ^ ")") ^ " " ^
(pp_format_l_lem l) ^ ")"
let pp_lem_typ ppf t = base ppf (pp_format_typ_lem t)
let pp_lem_nexp ppf n = base ppf (pp_format_nexp_lem n)
let pp_lem_ord ppf o = base ppf (pp_format_ord_lem o)
let pp_lem_effects ppf e = base ppf (pp_format_effects_lem e)
let pp_lem_beffect ppf be = base ppf (pp_format_base_effect_lem be)
let pp_format_nexp_constraint_lem (NC_aux(nc,l)) =
"(NC_aux " ^
(match nc with
| NC_fixed(n1,n2) -> "(NC_fixed " ^ pp_format_nexp_lem n1 ^ " " ^ pp_format_nexp_lem n2 ^ ")"
| NC_bounded_ge(n1,n2) -> "(NC_bounded_ge " ^ pp_format_nexp_lem n1 ^ " " ^ pp_format_nexp_lem n2 ^ ")"
| NC_bounded_le(n1,n2) -> "(NC_bounded_le " ^ pp_format_nexp_lem n1 ^ " " ^ pp_format_nexp_lem n2 ^ ")"
| NC_nat_set_bounded(id,bounds) -> "(NC_nat_set_bounded " ^
pp_format_var_lem id ^
" [" ^
list_format "; " string_of_int bounds ^
"])") ^ " " ^
(pp_format_l_lem l) ^ ")"
let pp_lem_nexp_constraint ppf nc = base ppf (pp_format_nexp_constraint_lem nc)
let pp_format_qi_lem (QI_aux(qi,lq)) =
"(QI_aux " ^
(match qi with
| QI_const(n_const) -> "(QI_const " ^ pp_format_nexp_constraint_lem n_const ^ ")"
| QI_id(KOpt_aux(ki,lk)) ->
"(QI_id (KOpt_aux " ^
(match ki with
| KOpt_none(var) -> "(KOpt_none " ^ pp_format_var_lem var ^ ")"
| KOpt_kind(k,var) -> "(KOpt_kind " ^ pp_format_kind_lem k ^ " " ^ pp_format_var_lem var ^ ")") ^ " " ^
(pp_format_l_lem lk) ^ "))") ^ " " ^
(pp_format_l_lem lq) ^ ")"
let pp_lem_qi ppf qi = base ppf (pp_format_qi_lem qi)
let pp_format_typquant_lem (TypQ_aux(tq,l)) =
"(TypQ_aux " ^
(match tq with
| TypQ_no_forall -> "TypQ_no_forall"
| TypQ_tq(qlist) ->
"(TypQ_tq [" ^
(list_format "; " pp_format_qi_lem qlist) ^
"])") ^ " " ^
(pp_format_l_lem l) ^ ")"
let pp_lem_typquant ppf tq = base ppf (pp_format_typquant_lem tq)
let pp_format_typscm_lem (TypSchm_aux(TypSchm_ts(tq,t),l)) =
"(TypSchm_aux (TypSchm_ts " ^ (pp_format_typquant_lem tq) ^ " " ^ pp_format_typ_lem t ^ ") " ^
(pp_format_l_lem l) ^ ")"
let pp_lem_typscm ppf ts = base ppf (pp_format_typscm_lem ts)
let pp_format_lit_lem (L_aux(lit,l)) =
"(L_aux " ^
(match lit with
| L_unit -> "L_unit"
| L_zero -> "L_zero"
| L_one -> "L_one"
| L_true -> "L_true"
| L_false -> "L_false"
| L_num(i) -> "(L_num " ^ string_of_int i ^ ")"
| L_hex(n) -> "(L_hex \"" ^ n ^ "\")"
| L_bin(n) -> "(L_bin \"" ^ n ^ "\")"
| L_undef -> "L_undef"
| L_string(s) -> "(L_string \"" ^ s ^ "\")") ^ " " ^
(pp_format_l_lem l) ^ ")"
let pp_lem_lit ppf l = base ppf (pp_format_lit_lem l)
let rec pp_format_t t =
match t.t with
| Tid i -> "(T_id (Id_aux (Id \"" ^ i ^ "\") Unknown))"
| Tvar i -> "(T_var (Kid_aux (Var \"" ^ i ^ "\") Unknown))"
| Tfn(t1,t2,e) -> "(T_fn " ^ (pp_format_t t1) ^ " " ^ (pp_format_t t2) ^ " " ^ pp_format_e e ^ ")"
| Ttup(tups) -> "(T_tup [" ^ (list_format "; " pp_format_t tups) ^ "])"
| Tapp(i,args) -> "(T_app (Id_aux (Id \"" ^ i ^ "\") Unknown) (T_args [" ^ list_format "; " pp_format_targ args ^ "]))"
| Tuvar(_) -> "(T_var (Kid_aux (Var \"fresh_v\") Unknown))"
and pp_format_targ = function
| TA_typ t -> "(T_arg_typ " ^ pp_format_t t ^ ")"
| TA_nexp n -> "(T_arg_nexp " ^ pp_format_n n ^ ")"
| TA_eft e -> "(T_arg_effect " ^ pp_format_e e ^ ")"
| TA_ord o -> "(T_arg_order " ^ pp_format_o o ^ ")"
and pp_format_n n =
match n.nexp with
| Nvar i -> "(Ne_var (Kid_aux (Var \"" ^ i ^ "\") Unknown))"
| Nconst i -> "(Ne_const " ^ string_of_int i ^ ")"
| Nadd(n1,n2) -> "(Ne_add [" ^ (pp_format_n n1) ^ "; " ^ (pp_format_n n2) ^ "])"
| Nmult(n1,n2) -> "(Ne_mult " ^ (pp_format_n n1) ^ " " ^ (pp_format_n n2) ^ ")"
| N2n n -> "(Ne_exp " ^ (pp_format_n n) ^ ")"
| Nneg n -> "(Ne_unary " ^ (pp_format_n n) ^ ")"
| Nuvar(_) -> "(Ne_var (Kid_aux (Var \"fresh_v\") Unknown))"
and pp_format_e e =
"(Effect_aux " ^
(match e.effect with
| Evar i -> "(Effect_var (Kid_aux (Var \"" ^ i ^ "\") Unknown))"
| Eset es -> "(Effect_set [" ^
(list_format "; " pp_format_base_effect_lem es) ^ " ])"
| Euvar(_) -> "(Effect_var (Kid_aux (Var \"fresh_v\") Unknown))")
^ " Unknown)"
and pp_format_o o =
"(Ord_aux " ^
(match o.order with
| Ovar i -> "(Ord_var (Kid_aux (Var \"" ^ i ^ "\") Unknown))"
| Oinc -> "Ord_inc"
| Odec -> "Ord_dec"
| Ouvar(_) -> "(Ord_var (Kid_aux (Var \"fresh_v\") Unknown))")
^ " Unknown)"
let pp_format_tag = function
| Emp -> "Tag_empty"
| External (Some s) -> "(Tag_extern (Just \""^s^"\"))"
| External None -> "(Tag_extern Nothing)"
| Default -> "Tag_default"
| Constructor -> "Tag_ctor"
| Enum -> "Tag_enum"
| Spec -> "Tag_spec"
let pp_format_nes nes =
"[" ^
(list_format "; "
(fun ne -> match ne with
| LtEq(_,n1,n2) -> "(Nec_lteq " ^ pp_format_n n1 ^ " " ^ pp_format_n n2 ^ ")"
| Eq(_,n1,n2) -> "(Nec_eq " ^ pp_format_n n1 ^ " " ^ pp_format_n n2 ^ ")"
| GtEq(_,n1,n2) -> "(Nec_gteq " ^ pp_format_n n1 ^ " " ^ pp_format_n n2 ^ ")"
| In(_,i,ns) -> "(Nec_in (Kid_aux (Var \"" ^ i ^ "\") Unknown) [" ^ (list_format "; " string_of_int ns)^ "])")
nes) ^ "]"
let pp_format_annot = function
| None -> "Nothing"
| Some((_,t),tag,nes,efct) ->
"(Just (" ^ pp_format_t t ^ ", " ^ pp_format_tag tag ^ ", " ^ pp_format_nes nes ^ ", " ^ pp_format_e efct ^ "))"
let pp_annot ppf ant = base ppf (pp_format_annot ant)
let rec pp_format_pat_lem (P_aux(p,(l,annot))) =
"(P_aux " ^
(match p with
| P_lit(lit) -> "(P_lit " ^ pp_format_lit_lem lit ^ ")"
| P_wild -> "P_wild"
| P_id(id) -> "(P_id " ^ pp_format_id_lem id ^ ")"
| P_as(pat,id) -> "(P_as " ^ pp_format_pat_lem pat ^ " " ^ pp_format_id_lem id ^ ")"
| P_typ(typ,pat) -> "(P_typ " ^ pp_format_typ_lem typ ^ " " ^ pp_format_pat_lem pat ^ ")"
| P_app(id,pats) -> "(P_app " ^ pp_format_id_lem id ^ " [" ^
list_format "; " pp_format_pat_lem pats ^ "])"
| P_record(fpats,_) -> "(P_record [" ^
list_format "; " (fun (FP_aux(FP_Fpat(id,fpat),_)) ->
"(FP_Fpat " ^ pp_format_id_lem id ^ " " ^ pp_format_pat_lem fpat ^ ")") fpats
^ "])"
| P_vector(pats) -> "(P_vector [" ^ list_format "; " pp_format_pat_lem pats ^ "])"
| P_vector_indexed(ipats) ->
"(P_vector_indexed [" ^ list_format "; " (fun (i,p) -> Printf.sprintf "(%d, %s)" i (pp_format_pat_lem p)) ipats ^ "])"
| P_vector_concat(pats) -> "(P_vector_concat [" ^ list_format "; " pp_format_pat_lem pats ^ "])"
| P_tup(pats) -> "(P_tup [" ^ (list_format "; " pp_format_pat_lem pats) ^ "])"
| P_list(pats) -> "(P_list [" ^ (list_format "; " pp_format_pat_lem pats) ^ "])") ^
" (" ^ pp_format_l_lem l ^ ", " ^ pp_format_annot annot ^ "))"
let pp_lem_pat ppf p = base ppf (pp_format_pat_lem p)
let rec pp_lem_let ppf (LB_aux(lb,(l,annot))) =
let print_lb ppf lb =
match lb with
| LB_val_explicit(ts,pat,exp) ->
fprintf ppf "@[<0>(%a %a %a %a)@]" kwd "LB_val_explicit" pp_lem_typscm ts pp_lem_pat pat pp_lem_exp exp
| LB_val_implicit(pat,exp) ->
fprintf ppf "@[<0>(%a %a %a)@]" kwd "LB_val_implicit" pp_lem_pat pat pp_lem_exp exp in
fprintf ppf "@[<0>(LB_aux %a (%a, %a))@]" print_lb lb pp_lem_l l pp_annot annot
and pp_lem_exp ppf (E_aux(e,(l,annot))) =
let print_e ppf e =
match e with
| E_block(exps) -> fprintf ppf "@[<0>%a [%a] %a@]"
kwd "(E_block"
(list_pp pp_semi_lem_exp pp_lem_exp) exps
kwd ")"
| E_id(id) -> fprintf ppf "(%a %a)" kwd "E_id" pp_lem_id id
| E_lit(lit) -> fprintf ppf "(%a %a)" kwd "E_lit" pp_lem_lit lit
| E_cast(typ,exp) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "E_cast" pp_lem_typ typ pp_lem_exp exp
| E_app(f,args) -> fprintf ppf "@[<0>(%a %a [%a])@]" kwd "E_app" pp_lem_id f (list_pp pp_semi_lem_exp pp_lem_exp) args
| E_app_infix(l,op,r) -> fprintf ppf "@[<0>(%a %a %a %a)@]" kwd "E_app_infix" pp_lem_exp l pp_lem_id op pp_lem_exp r
| E_tuple(exps) -> fprintf ppf "@[<0>%a [%a] %a@]" kwd "(E_tuple" (list_pp pp_semi_lem_exp pp_lem_exp) exps kwd ")"
| E_if(c,t,e) -> fprintf ppf "@[<0>(%a %a @[<1>%a@] @[<1> %a@])@]" kwd "E_if" pp_lem_exp c pp_lem_exp t pp_lem_exp e
| E_for(id,exp1,exp2,exp3,order,exp4) ->
fprintf ppf "@[<0>(%a %a %a %a %a %a @ @[<1> %a @])@]"
kwd "E_for" pp_lem_id id pp_lem_exp exp1 pp_lem_exp exp2 pp_lem_exp exp3 pp_lem_ord order pp_lem_exp exp4
| E_vector(exps) -> fprintf ppf "@[<0>(%a [%a])@]" kwd "E_vector" (list_pp pp_semi_lem_exp pp_lem_exp) exps
| E_vector_indexed(iexps) ->
let iformat ppf (i,e) = fprintf ppf "@[<1>(%i %a %a) %a@]" i kwd ", " pp_lem_exp e kwd ";" in
let lformat ppf (i,e) = fprintf ppf "@[<1>(%i %a %a) @]" i kwd ", " pp_lem_exp e in
fprintf ppf "@[<0>(%a [%a]) @]" kwd "E_vector_indexed" (list_pp iformat lformat) iexps
| E_vector_access(v,e) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "E_vector_access" pp_lem_exp v pp_lem_exp e
| E_vector_subrange(v,e1,e2) ->
fprintf ppf "@[<0>(%a %a %a %a)@]" kwd "E_vector_subrange" pp_lem_exp v pp_lem_exp e1 pp_lem_exp e1
| E_vector_update(v,e1,e2) ->
fprintf ppf "@[<0>(%a %a %a %a)@]" kwd "E_vector_update" pp_lem_exp v pp_lem_exp e1 pp_lem_exp e2
| E_vector_update_subrange(v,e1,e2,e3) ->
fprintf ppf "@[<0>(%a %a %a %a %a)@]" kwd "E_vector_update_subrange" pp_lem_exp v pp_lem_exp e1 pp_lem_exp e2 pp_lem_exp e3
| E_list(exps) -> fprintf ppf "@[<0>(%a [%a])@]" kwd "E_list" (list_pp pp_semi_lem_exp pp_lem_exp) exps
| E_cons(e1,e2) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "E_cons" pp_lem_exp e1 pp_lem_exp e2
| E_record(FES_aux(FES_Fexps(fexps,_),_)) ->
fprintf ppf "@[<0>(%a [%a]))@]" kwd "E_record(FES_Fexps" (list_pp pp_semi_lem_fexp pp_lem_fexp) fexps
| E_record_update(exp,(FES_aux(FES_Fexps(fexps,_),_))) ->
fprintf ppf "@[<0>(%a %a (%a [%a]))@]"
kwd "E_record_update" pp_lem_exp exp kwd "FES_Fexps" (list_pp pp_semi_lem_fexp pp_lem_fexp) fexps
| E_field(fexp,id) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "E_field" pp_lem_exp fexp pp_lem_id id
| E_case(exp,pexps) ->
fprintf ppf "@[<0>(%a %a [%a])@]" kwd "E_case" pp_lem_exp exp (list_pp pp_semi_lem_case pp_lem_case) pexps
| E_let(leb,exp) -> fprintf ppf "@[<0>(%a %a %a) @]" kwd "E_let" pp_lem_let leb pp_lem_exp exp
| E_assign(lexp,exp) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "E_assign" pp_lem_lexp lexp pp_lem_exp exp
in
fprintf ppf "@[<0>(E_aux %a (%a, %a))@]" print_e e pp_lem_l l pp_annot annot
and pp_semi_lem_exp ppf e = fprintf ppf "@[<1>%a%a@]" pp_lem_exp e kwd ";"
and pp_lem_fexp ppf (FE_aux(FE_Fexp(id,exp),(l,annot))) =
fprintf ppf "@[<1>(FE_aux (%a %a %a) (%a, %a))@]" kwd "FE_Fexp" pp_lem_id id pp_lem_exp exp pp_lem_l l pp_annot annot
and pp_semi_lem_fexp ppf fexp = fprintf ppf "@[<1>%a %a@]" pp_lem_fexp fexp kwd ";"
and pp_lem_case ppf (Pat_aux(Pat_exp(pat,exp),(l,annot))) =
fprintf ppf "@[<1>(Pat_aux (%a %a@ %a) (%a, %a))@]" kwd "Pat_exp" pp_lem_pat pat pp_lem_exp exp pp_lem_l l pp_annot annot
and pp_semi_lem_case ppf case = fprintf ppf "@[<1>%a %a@]" pp_lem_case case kwd ";"
and pp_lem_lexp ppf (LEXP_aux(lexp,(l,annot))) =
let print_le ppf lexp =
match lexp with
| LEXP_id(id) -> fprintf ppf "(%a %a)" kwd "LEXP_id" pp_lem_id id
| LEXP_memory(id,args) -> fprintf ppf "(%a %a [%a])" kwd "LEXP_memory" pp_lem_id id (list_pp pp_semi_lem_exp pp_lem_exp) args
| LEXP_vector(v,exp) -> fprintf ppf "@[(%a %a %a)@]" kwd "LEXP_vector" pp_lem_lexp v pp_lem_exp exp
| LEXP_vector_range(v,e1,e2) ->
fprintf ppf "@[(%a %a %a %a)@]" kwd "LEXP_vector_range" pp_lem_lexp v pp_lem_exp e1 pp_lem_exp e2
| LEXP_field(v,id) -> fprintf ppf "@[(%a %a %a)@]" kwd "LEXP_field" pp_lem_lexp v pp_lem_id id
in
fprintf ppf "@[(LEXP_aux %a (%a, %a))@]" print_le lexp pp_lem_l l pp_annot annot
let pp_lem_default ppf (DT_aux(df,(l,annot))) =
let print_de ppf df =
match df with
| DT_kind(bk,var) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "DT_kind" pp_lem_bkind bk pp_lem_var var
| DT_typ(ts,id) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "DT_typ" pp_lem_typscm ts pp_lem_id id
in
fprintf ppf "@[<0>(DT_aux %a (%a, %a))@]" print_de df pp_lem_l l pp_annot annot
let pp_lem_spec ppf (VS_aux(v,(l,annot))) =
let print_spec ppf v =
match v with
| VS_val_spec(ts,id) -> fprintf ppf "@[<0>(%a %a %a)@]@\n" kwd "VS_val_spec" pp_lem_typscm ts pp_lem_id id
| VS_extern_spec(ts,id,s) -> fprintf ppf "@[<0>(%a %a %a \"%s\")@]@\n" kwd "VS_extern_spec" pp_lem_typscm ts pp_lem_id id s
| VS_extern_no_rename(ts,id) -> fprintf ppf "@[<0>(%a %a %a)@]@\n" kwd "VS_extern_no_rename" pp_lem_typscm ts pp_lem_id id
in
fprintf ppf "@[<0>(VS_aux %a (%a, %a))@]" print_spec v pp_lem_l l pp_annot annot
let pp_lem_namescm ppf (Name_sect_aux(ns,l)) =
match ns with
| Name_sect_none -> fprintf ppf "(Name_sect_aux Name_sect_none %a)" pp_lem_l l
| Name_sect_some(s) -> fprintf ppf "(Name_sect_aux (Name_sect_some \"%s\") %a)" s pp_lem_l l
let rec pp_lem_range ppf (BF_aux(r,l)) =
match r with
| BF_single(i) -> fprintf ppf "(BF_aux (BF_single %i) %a)" i pp_lem_l l
| BF_range(i1,i2) -> fprintf ppf "(BF_aux (BF_range %i %i) %a)" i1 i2 pp_lem_l l
| BF_concat(ir1,ir2) -> fprintf ppf "(BF_aux (BF_concat %a %a) %a)" pp_lem_range ir1 pp_lem_range ir2 pp_lem_l l
let pp_lem_typdef ppf (TD_aux(td,(l,annot))) =
let print_td ppf td =
match td with
| TD_abbrev(id,namescm,typschm) ->
fprintf ppf "@[<0>(%a %a %a %a)@]" kwd "TD_abbrev" pp_lem_id id pp_lem_namescm namescm pp_lem_typscm typschm
| TD_record(id,nm,typq,fs,_) ->
let f_pp ppf (typ,id) =
fprintf ppf "@[<1>(%a, %a)%a@]" pp_lem_typ typ pp_lem_id id kwd ";" in
fprintf ppf "@[<0>(%a %a %a %a [%a] false)@]"
kwd "TD_record" pp_lem_id id pp_lem_namescm nm pp_lem_typquant typq (list_pp f_pp f_pp) fs
| TD_variant(id,nm,typq,ar,_) ->
let a_pp ppf (Tu_aux(typ_u,l)) =
match typ_u with
| Tu_ty_id(typ,id) -> fprintf ppf "@[<1>(Tu_aux (Tu_ty_id %a %a) %a);@]"
pp_lem_typ typ pp_lem_id id pp_lem_l l
| Tu_id(id) -> fprintf ppf "@[<1>(Tu_aux (Tu_id %a) %a);@]" pp_lem_id id pp_lem_l l
in
fprintf ppf "@[<0>(%a %a %a %a [%a] false)@]"
kwd "TD_variant" pp_lem_id id pp_lem_namescm nm pp_lem_typquant typq (list_pp a_pp a_pp) ar
| TD_enum(id,ns,enums,_) ->
let pp_id_semi ppf id = fprintf ppf "%a%a " pp_lem_id id kwd ";" in
fprintf ppf "@[<0>(%a %a %a [%a] false)@]"
kwd "TD_enum" pp_lem_id id pp_lem_namescm ns (list_pp pp_id_semi pp_lem_id) enums
| TD_register(id,n1,n2,rs) ->
let pp_rid ppf (r,id) = fprintf ppf "(%a, %a)%a " pp_lem_range r pp_lem_id id kwd ";" in
let pp_rids = (list_pp pp_rid pp_rid) in
fprintf ppf "@[<0>(%a %a %a %a [%a])@]"
kwd "TD_register" pp_lem_id id pp_lem_nexp n1 pp_lem_nexp n2 pp_rids rs
in
fprintf ppf "@[<0>(TD_aux %a (%a, %a))@]" print_td td pp_lem_l l pp_annot annot
let pp_lem_rec ppf (Rec_aux(r,l)) =
match r with
| Rec_nonrec -> fprintf ppf "(Rec_aux Rec_nonrec %a)" pp_lem_l l
| Rec_rec -> fprintf ppf "(Rec_aux Rec_rec %a)" pp_lem_l l
let pp_lem_tannot_opt ppf (Typ_annot_opt_aux(t,l)) =
match t with
| Typ_annot_opt_some(tq,typ) ->
fprintf ppf "(Typ_annot_opt_aux (Typ_annot_opt_some %a %a) %a)" pp_lem_typquant tq pp_lem_typ typ pp_lem_l l
let pp_lem_effects_opt ppf (Effect_opt_aux(e,l)) =
match e with
| Effect_opt_pure -> fprintf ppf "(Effect_opt_aux Effect_opt_pure %a)" pp_lem_l l
| Effect_opt_effect e -> fprintf ppf "(Effect_opt_aux (Effect_opt_effect %a) %a)" pp_lem_effects e pp_lem_l l
let pp_lem_funcl ppf (FCL_aux(FCL_Funcl(id,pat,exp),(l,annot))) =
fprintf ppf "@[<0>(FCL_aux (%a %a %a %a) (%a, %a))@]@\n"
kwd "FCL_Funcl" pp_lem_id id pp_lem_pat pat pp_lem_exp exp pp_lem_l l pp_annot annot
let pp_lem_fundef ppf (FD_aux(FD_function(r, typa, efa, fcls),(l,annot))) =
let pp_funcls ppf funcl = fprintf ppf "%a %a" pp_lem_funcl funcl kwd ";" in
fprintf ppf "@[<0>(FD_aux (%a %a %a %a [%a]) (%a, %a))@]"
kwd "FD_function" pp_lem_rec r pp_lem_tannot_opt typa pp_lem_effects_opt efa (list_pp pp_funcls pp_funcls) fcls
pp_lem_l l pp_annot annot
let pp_lem_def ppf (DEF_aux(d,(l,annot))) =
let print_d ppf d =
match d with
| DEF_default(df) -> fprintf ppf "(DEF_default %a)" pp_lem_default df
| DEF_spec(v_spec) -> fprintf ppf "(DEF_spec %a)" pp_lem_spec v_spec
| DEF_type(t_def) -> fprintf ppf "(DEF_type %a)" pp_lem_typdef t_def
| DEF_fundef(f_def) -> fprintf ppf "(DEF_fundef %a)" pp_lem_fundef f_def
| DEF_val(lbind) -> fprintf ppf "(DEF_val %a)" pp_lem_let lbind
| DEF_reg_dec(typ,id) -> fprintf ppf "@[<0>(%a %a %a)@]" kwd "DEF_reg_dec" pp_lem_typ typ pp_lem_id id
| _ -> raise (Reporting_basic.err_unreachable l "initial_check didn't remove all scattered Defs")
in
fprintf ppf "@[<0>(DEF_aux %a (%a, %a))@];@\n" print_d d pp_lem_l l pp_annot annot
let pp_lem_defs ppf (Defs(defs)) =
fprintf ppf "Defs [@[%a@]]@\n" (list_pp pp_lem_def pp_lem_def) defs
|
