author | haftmann |
Thu, 26 Aug 2010 20:51:17 +0200 | |
changeset 38786 | e46e7a9cb622 |
parent 38555 | bd6359ed1636 |
child 38795 | 848be46708dc |
permissions | -rw-r--r-- |
37744 | 1 |
(* Title: HOL/Tools/hologic.ML |
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Author: Lawrence C Paulson and Markus Wenzel |
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Abstract syntax operations for HOL. |
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*) |
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signature HOLOGIC = |
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sig |
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val typeS: sort |
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val typeT: typ |
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val boolN: string |
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val boolT: typ |
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val Trueprop: term |
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val mk_Trueprop: term -> term |
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val dest_Trueprop: term -> term |
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val true_const: term |
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val false_const: term |
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val mk_setT: typ -> typ |
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val dest_setT: typ -> typ |
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val Collect_const: typ -> term |
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val mk_Collect: string * typ * term -> term |
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val mk_mem: term * term -> term |
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val dest_mem: term -> term * term |
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val mk_set: typ -> term list -> term |
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val dest_set: term -> term list |
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val mk_UNIV: typ -> term |
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val conj_intr: thm -> thm -> thm |
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val conj_elim: thm -> thm * thm |
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val conj_elims: thm -> thm list |
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val conj: term |
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val disj: term |
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val imp: term |
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val Not: term |
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val mk_conj: term * term -> term |
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val mk_disj: term * term -> term |
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val mk_imp: term * term -> term |
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val mk_not: term -> term |
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val dest_conj: term -> term list |
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val dest_disj: term -> term list |
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val disjuncts: term -> term list |
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val dest_imp: term -> term * term |
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val dest_not: term -> term |
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val eq_const: typ -> term |
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val mk_eq: term * term -> term |
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val dest_eq: term -> term * term |
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val all_const: typ -> term |
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val mk_all: string * typ * term -> term |
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val list_all: (string * typ) list * term -> term |
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val exists_const: typ -> term |
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val mk_exists: string * typ * term -> term |
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val choice_const: typ -> term |
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val class_eq: string |
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val mk_binop: string -> term * term -> term |
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val mk_binrel: string -> term * term -> term |
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val dest_bin: string -> typ -> term -> term * term |
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val unitT: typ |
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val is_unitT: typ -> bool |
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val unit: term |
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val is_unit: term -> bool |
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val mk_prodT: typ * typ -> typ |
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val dest_prodT: typ -> typ * typ |
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val pair_const: typ -> typ -> term |
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val mk_prod: term * term -> term |
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val dest_prod: term -> term * term |
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val mk_fst: term -> term |
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val mk_snd: term -> term |
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val split_const: typ * typ * typ -> term |
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val mk_split: term -> term |
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val flatten_tupleT: typ -> typ list |
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val mk_tupleT: typ list -> typ |
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val strip_tupleT: typ -> typ list |
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val mk_tuple: term list -> term |
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val strip_tuple: term -> term list |
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val mk_ptupleT: int list list -> typ list -> typ |
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val strip_ptupleT: int list list -> typ -> typ list |
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val flat_tupleT_paths: typ -> int list list |
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val mk_ptuple: int list list -> typ -> term list -> term |
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val strip_ptuple: int list list -> term -> term list |
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val flat_tuple_paths: term -> int list list |
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val mk_psplits: int list list -> typ -> typ -> term -> term |
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val strip_psplits: term -> term * typ list * int list list |
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val natT: typ |
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val zero: term |
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val is_zero: term -> bool |
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val mk_Suc: term -> term |
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val dest_Suc: term -> term |
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val Suc_zero: term |
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val mk_nat: int -> term |
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val dest_nat: term -> int |
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val class_size: string |
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val size_const: typ -> term |
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val code_numeralT: typ |
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val intT: typ |
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val pls_const: term |
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val min_const: term |
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val bit0_const: term |
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val bit1_const: term |
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val mk_bit: int -> term |
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val dest_bit: term -> int |
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val mk_numeral: int -> term |
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val dest_numeral: term -> int |
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val number_of_const: typ -> term |
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val add_numerals: term -> (term * typ) list -> (term * typ) list |
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val mk_number: typ -> int -> term |
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val dest_number: term -> typ * int |
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val realT: typ |
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val nibbleT: typ |
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val mk_nibble: int -> term |
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val dest_nibble: term -> int |
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val charT: typ |
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val mk_char: int -> term |
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val dest_char: term -> int |
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val listT: typ -> typ |
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val nil_const: typ -> term |
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val cons_const: typ -> term |
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val mk_list: typ -> term list -> term |
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val dest_list: term -> term list |
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val stringT: typ |
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val mk_string: string -> term |
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val dest_string: term -> string |
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val literalT: typ |
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val mk_literal: string -> term |
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val dest_literal: term -> string |
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val mk_typerep: typ -> term |
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val termT: typ |
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val term_of_const: typ -> term |
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val mk_term_of: typ -> term -> term |
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val reflect_term: term -> term |
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val mk_valtermify_app: string -> (string * typ) list -> typ -> term |
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val mk_return: typ -> typ -> term -> term |
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val mk_ST: ((term * typ) * (string * typ) option) list -> term -> typ -> typ option * typ -> term |
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val mk_random: typ -> term -> term |
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end; |
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structure HOLogic: HOLOGIC = |
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struct |
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(* HOL syntax *) |
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val typeS: sort = ["HOL.type"]; |
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val typeT = Type_Infer.anyT typeS; |
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(* bool and set *) |
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val boolN = "HOL.bool"; |
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val boolT = Type (boolN, []); |
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val true_const = Const ("HOL.True", boolT); |
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val false_const = Const ("HOL.False", boolT); |
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fun mk_setT T = T --> boolT; |
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38555 | 154 |
fun dest_setT (Type ("fun", [T, Type ("HOL.bool", [])])) = T |
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| dest_setT T = raise TYPE ("dest_setT: set type expected", [T], []); |
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30450 | 157 |
fun mk_set T ts = |
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let |
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val sT = mk_setT T; |
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val empty = Const ("Orderings.bot_class.bot", sT); |
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fun insert t u = Const ("Set.insert", T --> sT --> sT) $ t $ u; |
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in fold_rev insert ts empty end; |
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fun mk_UNIV T = Const ("Orderings.top_class.top", mk_setT T); |
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fun dest_set (Const ("Orderings.bot_class.bot", _)) = [] |
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| dest_set (Const ("Set.insert", _) $ t $ u) = t :: dest_set u |
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| dest_set t = raise TERM ("dest_set", [t]); |
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||
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fun Collect_const T = Const ("Set.Collect", (T --> boolT) --> mk_setT T); |
30450 | 171 |
fun mk_Collect (a, T, t) = Collect_const T $ absfree (a, T, t); |
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173 |
fun mk_mem (x, A) = |
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let val setT = fastype_of A in |
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Const ("Set.member", dest_setT setT --> setT --> boolT) $ x $ A |
30450 | 176 |
end; |
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||
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fun dest_mem (Const ("Set.member", _) $ x $ A) = (x, A) |
30450 | 179 |
| dest_mem t = raise TERM ("dest_mem", [t]); |
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||
8275 | 181 |
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7073 | 182 |
(* logic *) |
923 | 183 |
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38555 | 184 |
val Trueprop = Const ("HOL.Trueprop", boolT --> propT); |
923 | 185 |
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186 |
fun mk_Trueprop P = Trueprop $ P; |
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||
38555 | 188 |
fun dest_Trueprop (Const ("HOL.Trueprop", _) $ P) = P |
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| dest_Trueprop t = raise TERM ("dest_Trueprop", [t]); |
923 | 190 |
|
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parents:
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191 |
fun conj_intr thP thQ = |
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192 |
let |
35625 | 193 |
val (P, Q) = pairself (Object_Logic.dest_judgment o Thm.cprop_of) (thP, thQ) |
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194 |
handle CTERM (msg, _) => raise THM (msg, 0, [thP, thQ]); |
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195 |
val inst = Thm.instantiate ([], [(@{cpat "?P::bool"}, P), (@{cpat "?Q::bool"}, Q)]); |
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196 |
in Drule.implies_elim_list (inst @{thm conjI}) [thP, thQ] end; |
923 | 197 |
|
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198 |
fun conj_elim thPQ = |
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199 |
let |
35625 | 200 |
val (P, Q) = Thm.dest_binop (Object_Logic.dest_judgment (Thm.cprop_of thPQ)) |
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201 |
handle CTERM (msg, _) => raise THM (msg, 0, [thPQ]); |
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202 |
val inst = Thm.instantiate ([], [(@{cpat "?P::bool"}, P), (@{cpat "?Q::bool"}, Q)]); |
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203 |
val thP = Thm.implies_elim (inst @{thm conjunct1}) thPQ; |
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204 |
val thQ = Thm.implies_elim (inst @{thm conjunct2}) thPQ; |
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205 |
in (thP, thQ) end; |
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206 |
|
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207 |
fun conj_elims th = |
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208 |
let val (th1, th2) = conj_elim th |
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in conj_elims th1 @ conj_elims th2 end handle THM _ => [th]; |
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210 |
|
16e5fd18905c
assume basic HOL context for compilation (antiquotations);
wenzelm
parents:
23297
diff
changeset
|
211 |
val conj = @{term "op &"} |
16e5fd18905c
assume basic HOL context for compilation (antiquotations);
wenzelm
parents:
23297
diff
changeset
|
212 |
and disj = @{term "op |"} |
38786
e46e7a9cb622
formerly unnamed infix impliciation now named HOL.implies
haftmann
parents:
38555
diff
changeset
|
213 |
and imp = @{term implies} |
e46e7a9cb622
formerly unnamed infix impliciation now named HOL.implies
haftmann
parents:
38555
diff
changeset
|
214 |
and Not = @{term Not}; |
923 | 215 |
|
7690 | 216 |
fun mk_conj (t1, t2) = conj $ t1 $ t2 |
217 |
and mk_disj (t1, t2) = disj $ t1 $ t2 |
|
16835 | 218 |
and mk_imp (t1, t2) = imp $ t1 $ t2 |
219 |
and mk_not t = Not $ t; |
|
7690 | 220 |
|
15151 | 221 |
fun dest_conj (Const ("op &", _) $ t $ t') = t :: dest_conj t' |
222 |
| dest_conj t = [t]; |
|
223 |
||
15945 | 224 |
fun dest_disj (Const ("op |", _) $ t $ t') = t :: dest_disj t' |
225 |
| dest_disj t = [t]; |
|
226 |
||
24958 | 227 |
(*Like dest_disj, but flattens disjunctions however nested*) |
228 |
fun disjuncts_aux (Const ("op |", _) $ t $ t') disjs = disjuncts_aux t (disjuncts_aux t' disjs) |
|
229 |
| disjuncts_aux t disjs = t::disjs; |
|
230 |
||
231 |
fun disjuncts t = disjuncts_aux t []; |
|
232 |
||
38786
e46e7a9cb622
formerly unnamed infix impliciation now named HOL.implies
haftmann
parents:
38555
diff
changeset
|
233 |
fun dest_imp (Const ("HOL.implies", _) $ A $ B) = (A, B) |
4466
305390f23734
Better equality handling in Blast_tac, usingd a new variant of hyp_subst_tac
paulson
parents:
4294
diff
changeset
|
234 |
| dest_imp t = raise TERM ("dest_imp", [t]); |
305390f23734
Better equality handling in Blast_tac, usingd a new variant of hyp_subst_tac
paulson
parents:
4294
diff
changeset
|
235 |
|
38555 | 236 |
fun dest_not (Const ("HOL.Not", _) $ t) = t |
15151 | 237 |
| dest_not t = raise TERM ("dest_not", [t]); |
8302 | 238 |
|
38548 | 239 |
fun eq_const T = Const ("op =", T --> T --> boolT); |
923 | 240 |
fun mk_eq (t, u) = eq_const (fastype_of t) $ t $ u; |
241 |
||
6031 | 242 |
fun dest_eq (Const ("op =", _) $ lhs $ rhs) = (lhs, rhs) |
243 |
| dest_eq t = raise TERM ("dest_eq", [t]) |
|
244 |
||
38555 | 245 |
fun all_const T = Const ("HOL.All", [T --> boolT] ---> boolT); |
923 | 246 |
fun mk_all (x, T, P) = all_const T $ absfree (x, T, P); |
21173
663a7b39894c
removed is_Trueprop (use can dest_Trueprop'' instead);
wenzelm
parents:
21078
diff
changeset
|
247 |
fun list_all (xs, t) = fold_rev (fn (x, T) => fn P => all_const T $ Abs (x, T, P)) xs t; |
923 | 248 |
|
38555 | 249 |
fun exists_const T = Const ("HOL.Ex", [T --> boolT] ---> boolT); |
923 | 250 |
fun mk_exists (x, T, P) = exists_const T $ absfree (x, T, P); |
251 |
||
21755 | 252 |
fun choice_const T = Const("Hilbert_Choice.Eps", (T --> boolT) --> T); |
15945 | 253 |
|
23247 | 254 |
val class_eq = "HOL.eq"; |
21045 | 255 |
|
923 | 256 |
|
13743
f8f9393be64c
Fixed bug in simpdata.ML that prevented the use of congruence rules from a
ballarin
parents:
13640
diff
changeset
|
257 |
(* binary operations and relations *) |
2510 | 258 |
|
259 |
fun mk_binop c (t, u) = |
|
260 |
let val T = fastype_of t in |
|
261 |
Const (c, [T, T] ---> T) $ t $ u |
|
262 |
end; |
|
263 |
||
264 |
fun mk_binrel c (t, u) = |
|
265 |
let val T = fastype_of t in |
|
266 |
Const (c, [T, T] ---> boolT) $ t $ u |
|
267 |
end; |
|
268 |
||
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14103
diff
changeset
|
269 |
(*destruct the application of a binary operator. The dummyT case is a crude |
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14103
diff
changeset
|
270 |
way of handling polymorphic operators.*) |
2510 | 271 |
fun dest_bin c T (tm as Const (c', Type ("fun", [T', _])) $ t $ u) = |
14387
e96d5c42c4b0
Polymorphic treatment of binary arithmetic using axclasses
paulson
parents:
14103
diff
changeset
|
272 |
if c = c' andalso (T=T' orelse T=dummyT) then (t, u) |
3794 | 273 |
else raise TERM ("dest_bin " ^ c, [tm]) |
274 |
| dest_bin c _ tm = raise TERM ("dest_bin " ^ c, [tm]); |
|
2510 | 275 |
|
276 |
||
4571 | 277 |
(* unit *) |
278 |
||
11604 | 279 |
val unitT = Type ("Product_Type.unit", []); |
4571 | 280 |
|
11604 | 281 |
fun is_unitT (Type ("Product_Type.unit", [])) = true |
9362 | 282 |
| is_unitT _ = false; |
283 |
||
11604 | 284 |
val unit = Const ("Product_Type.Unity", unitT); |
4571 | 285 |
|
11604 | 286 |
fun is_unit (Const ("Product_Type.Unity", _)) = true |
4571 | 287 |
| is_unit _ = false; |
288 |
||
289 |
||
290 |
(* prod *) |
|
291 |
||
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
292 |
fun mk_prodT (T1, T2) = Type ("Product_Type.prod", [T1, T2]); |
4571 | 293 |
|
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
294 |
fun dest_prodT (Type ("Product_Type.prod", [T1, T2])) = (T1, T2) |
4571 | 295 |
| dest_prodT T = raise TYPE ("dest_prodT", [T], []); |
296 |
||
37389
09467cdfa198
qualified type "*"; qualified constants Pair, fst, snd, split
haftmann
parents:
37387
diff
changeset
|
297 |
fun pair_const T1 T2 = Const ("Product_Type.Pair", [T1, T2] ---> mk_prodT (T1, T2)); |
14048 | 298 |
|
4571 | 299 |
fun mk_prod (t1, t2) = |
300 |
let val T1 = fastype_of t1 and T2 = fastype_of t2 in |
|
14048 | 301 |
pair_const T1 T2 $ t1 $ t2 |
4571 | 302 |
end; |
303 |
||
37389
09467cdfa198
qualified type "*"; qualified constants Pair, fst, snd, split
haftmann
parents:
37387
diff
changeset
|
304 |
fun dest_prod (Const ("Product_Type.Pair", _) $ t1 $ t2) = (t1, t2) |
4571 | 305 |
| dest_prod t = raise TERM ("dest_prod", [t]); |
306 |
||
307 |
fun mk_fst p = |
|
308 |
let val pT = fastype_of p in |
|
37389
09467cdfa198
qualified type "*"; qualified constants Pair, fst, snd, split
haftmann
parents:
37387
diff
changeset
|
309 |
Const ("Product_Type.fst", pT --> fst (dest_prodT pT)) $ p |
4571 | 310 |
end; |
311 |
||
312 |
fun mk_snd p = |
|
313 |
let val pT = fastype_of p in |
|
37389
09467cdfa198
qualified type "*"; qualified constants Pair, fst, snd, split
haftmann
parents:
37387
diff
changeset
|
314 |
Const ("Product_Type.snd", pT --> snd (dest_prodT pT)) $ p |
4571 | 315 |
end; |
316 |
||
18285 | 317 |
fun split_const (A, B, C) = |
37591 | 318 |
Const ("Product_Type.prod.prod_case", (A --> B --> C) --> mk_prodT (A, B) --> C); |
18285 | 319 |
|
320 |
fun mk_split t = |
|
321 |
(case Term.fastype_of t of |
|
322 |
T as (Type ("fun", [A, Type ("fun", [B, C])])) => |
|
37591 | 323 |
Const ("Product_Type.prod.prod_case", T --> mk_prodT (A, B) --> C) $ t |
18285 | 324 |
| _ => raise TERM ("mk_split: bad body type", [t])); |
325 |
||
5096
84b00be693b4
Moved most of the Prod_Syntax - stuff to HOLogic.
berghofe
parents:
4571
diff
changeset
|
326 |
(*Maps the type T1 * ... * Tn to [T1, ..., Tn], however nested*) |
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
327 |
fun flatten_tupleT (Type ("Product_Type.prod", [T1, T2])) = flatten_tupleT T1 @ flatten_tupleT T2 |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
328 |
| flatten_tupleT T = [T]; |
23745 | 329 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
330 |
|
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
331 |
(* tuples with right-fold structure *) |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
332 |
|
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
333 |
fun mk_tupleT [] = unitT |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
334 |
| mk_tupleT Ts = foldr1 mk_prodT Ts; |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
335 |
|
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
336 |
fun strip_tupleT (Type ("Product_Type.unit", [])) = [] |
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
337 |
| strip_tupleT (Type ("Product_Type.prod", [T1, T2])) = T1 :: strip_tupleT T2 |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
338 |
| strip_tupleT T = [T]; |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
339 |
|
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
340 |
fun mk_tuple [] = unit |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
341 |
| mk_tuple ts = foldr1 mk_prod ts; |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
342 |
|
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
343 |
fun strip_tuple (Const ("Product_Type.Unity", _)) = [] |
37389
09467cdfa198
qualified type "*"; qualified constants Pair, fst, snd, split
haftmann
parents:
37387
diff
changeset
|
344 |
| strip_tuple (Const ("Product_Type.Pair", _) $ t1 $ t2) = t1 :: strip_tuple t2 |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
345 |
| strip_tuple t = [t]; |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
346 |
|
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
347 |
|
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
348 |
(* tuples with specific arities |
23745 | 349 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
350 |
an "arity" of a tuple is a list of lists of integers, |
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
351 |
denoting paths to subterms that are pairs |
25172 | 352 |
*) |
23745 | 353 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
354 |
fun ptuple_err s = raise TERM (s ^ ": inconsistent use of nested products", []); |
23745 | 355 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
356 |
fun mk_ptupleT ps = |
23745 | 357 |
let |
358 |
fun mk p Ts = |
|
36692
54b64d4ad524
farewell to old-style mem infixes -- type inference in situations with mem_int and mem_string should provide enough information to resolve the type of (op =)
haftmann
parents:
35625
diff
changeset
|
359 |
if member (op =) ps p then |
23745 | 360 |
let |
361 |
val (T, Ts') = mk (1::p) Ts; |
|
362 |
val (U, Ts'') = mk (2::p) Ts' |
|
363 |
in (mk_prodT (T, U), Ts'') end |
|
364 |
else (hd Ts, tl Ts) |
|
365 |
in fst o mk [] end; |
|
366 |
||
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
367 |
fun strip_ptupleT ps = |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
368 |
let |
36692
54b64d4ad524
farewell to old-style mem infixes -- type inference in situations with mem_int and mem_string should provide enough information to resolve the type of (op =)
haftmann
parents:
35625
diff
changeset
|
369 |
fun factors p T = if member (op =) ps p then (case T of |
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
370 |
Type ("Product_Type.prod", [T1, T2]) => |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
371 |
factors (1::p) T1 @ factors (2::p) T2 |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
372 |
| _ => ptuple_err "strip_ptupleT") else [T] |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
373 |
in factors [] end; |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
374 |
|
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
375 |
val flat_tupleT_paths = |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
376 |
let |
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
377 |
fun factors p (Type ("Product_Type.prod", [T1, T2])) = |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
378 |
p :: factors (1::p) T1 @ factors (2::p) T2 |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
379 |
| factors p _ = [] |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
380 |
in factors [] end; |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
381 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
382 |
fun mk_ptuple ps = |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
383 |
let |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
384 |
fun mk p T ts = |
36692
54b64d4ad524
farewell to old-style mem infixes -- type inference in situations with mem_int and mem_string should provide enough information to resolve the type of (op =)
haftmann
parents:
35625
diff
changeset
|
385 |
if member (op =) ps p then (case T of |
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
386 |
Type ("Product_Type.prod", [T1, T2]) => |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
387 |
let |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
388 |
val (t, ts') = mk (1::p) T1 ts; |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
389 |
val (u, ts'') = mk (2::p) T2 ts' |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
390 |
in (pair_const T1 T2 $ t $ u, ts'') end |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
391 |
| _ => ptuple_err "mk_ptuple") |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
392 |
else (hd ts, tl ts) |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
393 |
in fst oo mk [] end; |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
394 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
395 |
fun strip_ptuple ps = |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
396 |
let |
36692
54b64d4ad524
farewell to old-style mem infixes -- type inference in situations with mem_int and mem_string should provide enough information to resolve the type of (op =)
haftmann
parents:
35625
diff
changeset
|
397 |
fun dest p t = if member (op =) ps p then (case t of |
37389
09467cdfa198
qualified type "*"; qualified constants Pair, fst, snd, split
haftmann
parents:
37387
diff
changeset
|
398 |
Const ("Product_Type.Pair", _) $ t $ u => |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
399 |
dest (1::p) t @ dest (2::p) u |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
400 |
| _ => ptuple_err "strip_ptuple") else [t] |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
401 |
in dest [] end; |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
402 |
|
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
403 |
val flat_tuple_paths = |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
404 |
let |
37389
09467cdfa198
qualified type "*"; qualified constants Pair, fst, snd, split
haftmann
parents:
37387
diff
changeset
|
405 |
fun factors p (Const ("Product_Type.Pair", _) $ t $ u) = |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
406 |
p :: factors (1::p) t @ factors (2::p) u |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
407 |
| factors p _ = [] |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
408 |
in factors [] end; |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
409 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
410 |
(*In mk_psplits ps S T u, term u expects separate arguments for the factors of S, |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
411 |
with result type T. The call creates a new term expecting one argument |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
412 |
of type S.*) |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
413 |
fun mk_psplits ps T T3 u = |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
414 |
let |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
415 |
fun ap ((p, T) :: pTs) = |
36692
54b64d4ad524
farewell to old-style mem infixes -- type inference in situations with mem_int and mem_string should provide enough information to resolve the type of (op =)
haftmann
parents:
35625
diff
changeset
|
416 |
if member (op =) ps p then (case T of |
37676
f433cb9caea4
"prod" and "sum" replace "*" and "+" respectively; qualified constants Set.member and Set.Collect
haftmann
parents:
37591
diff
changeset
|
417 |
Type ("Product_Type.prod", [T1, T2]) => |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
418 |
split_const (T1, T2, map snd pTs ---> T3) $ |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
419 |
ap ((1::p, T1) :: (2::p, T2) :: pTs) |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
420 |
| _ => ptuple_err "mk_psplits") |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
421 |
else Abs ("x", T, ap pTs) |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
422 |
| ap [] = |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
423 |
let val k = length ps |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
424 |
in list_comb (incr_boundvars (k + 1) u, map Bound (k downto 0)) end |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
425 |
in ap [([], T)] end; |
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
426 |
|
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32339
diff
changeset
|
427 |
val strip_psplits = |
23745 | 428 |
let |
34962
807f6ce0273d
HOLogic.strip_psplits: types are ordered after syntactic appearance, not after corresponding de-Bruin index (closer correspondence to similar strip operations)
haftmann
parents:
33245
diff
changeset
|
429 |
fun strip [] qs Ts t = (t, rev Ts, qs) |
37591 | 430 |
| strip (p :: ps) qs Ts (Const ("Product_Type.prod.prod_case", _) $ t) = |
23745 | 431 |
strip ((1 :: p) :: (2 :: p) :: ps) (p :: qs) Ts t |
432 |
| strip (p :: ps) qs Ts (Abs (s, T, t)) = strip ps qs (T :: Ts) t |
|
433 |
| strip (p :: ps) qs Ts t = strip ps qs |
|
434 |
(hd (binder_types (fastype_of1 (Ts, t))) :: Ts) |
|
435 |
(incr_boundvars 1 t $ Bound 0) |
|
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32264
diff
changeset
|
436 |
in strip [[]] [] [] end; |
23745 | 437 |
|
5207 | 438 |
|
439 |
(* nat *) |
|
440 |
||
37387
3581483cca6c
qualified types "+" and nat; qualified constants Ball, Bex, Suc, curry; modernized some specifications
haftmann
parents:
37145
diff
changeset
|
441 |
val natT = Type ("Nat.nat", []); |
5207 | 442 |
|
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
34974
diff
changeset
|
443 |
val zero = Const ("Groups.zero_class.zero", natT); |
5207 | 444 |
|
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
34974
diff
changeset
|
445 |
fun is_zero (Const ("Groups.zero_class.zero", _)) = true |
5207 | 446 |
| is_zero _ = false; |
447 |
||
37387
3581483cca6c
qualified types "+" and nat; qualified constants Ball, Bex, Suc, curry; modernized some specifications
haftmann
parents:
37145
diff
changeset
|
448 |
fun mk_Suc t = Const ("Nat.Suc", natT --> natT) $ t; |
5207 | 449 |
|
37387
3581483cca6c
qualified types "+" and nat; qualified constants Ball, Bex, Suc, curry; modernized some specifications
haftmann
parents:
37145
diff
changeset
|
450 |
fun dest_Suc (Const ("Nat.Suc", _) $ t) = t |
5207 | 451 |
| dest_Suc t = raise TERM ("dest_Suc", [t]); |
452 |
||
21621 | 453 |
val Suc_zero = mk_Suc zero; |
454 |
||
24630
351a308ab58d
simplified type int (eliminated IntInf.int, integer);
wenzelm
parents:
23745
diff
changeset
|
455 |
fun mk_nat n = |
22994 | 456 |
let |
457 |
fun mk 0 = zero |
|
23297 | 458 |
| mk n = mk_Suc (mk (n - 1)); |
23576
1ffe739e5ee0
removed dest_cTrueprop (cf. ObjectLogic.dest_judgment);
wenzelm
parents:
23566
diff
changeset
|
459 |
in if n < 0 then raise TERM ("mk_nat: negative number", []) else mk n end; |
5207 | 460 |
|
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
34974
diff
changeset
|
461 |
fun dest_nat (Const ("Groups.zero_class.zero", _)) = 0 |
37387
3581483cca6c
qualified types "+" and nat; qualified constants Ball, Bex, Suc, curry; modernized some specifications
haftmann
parents:
37145
diff
changeset
|
462 |
| dest_nat (Const ("Nat.Suc", _) $ t) = dest_nat t + 1 |
5207 | 463 |
| dest_nat t = raise TERM ("dest_nat", [t]); |
464 |
||
22994 | 465 |
val class_size = "Nat.size"; |
466 |
||
467 |
fun size_const T = Const ("Nat.size_class.size", T --> natT); |
|
468 |
||
5207 | 469 |
|
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
470 |
(* code numeral *) |
26036 | 471 |
|
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
472 |
val code_numeralT = Type ("Code_Numeral.code_numeral", []); |
26036 | 473 |
|
474 |
||
21778
66440bf72cdc
binary numerals: restricted to actual abstract syntax;
wenzelm
parents:
21755
diff
changeset
|
475 |
(* binary numerals and int -- non-unique representation due to leading zeros/ones! *) |
66440bf72cdc
binary numerals: restricted to actual abstract syntax;
wenzelm
parents:
21755
diff
changeset
|
476 |
|
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
477 |
val intT = Type ("Int.int", []); |
21778
66440bf72cdc
binary numerals: restricted to actual abstract syntax;
wenzelm
parents:
21755
diff
changeset
|
478 |
|
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
479 |
val pls_const = Const ("Int.Pls", intT) |
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
480 |
and min_const = Const ("Int.Min", intT) |
26086
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
481 |
and bit0_const = Const ("Int.Bit0", intT --> intT) |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
482 |
and bit1_const = Const ("Int.Bit1", intT --> intT); |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
483 |
|
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
484 |
fun mk_bit 0 = bit0_const |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
485 |
| mk_bit 1 = bit1_const |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
486 |
| mk_bit _ = raise TERM ("mk_bit", []); |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
487 |
|
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
488 |
fun dest_bit (Const ("Int.Bit0", _)) = 0 |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
489 |
| dest_bit (Const ("Int.Bit1", _)) = 1 |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
490 |
| dest_bit t = raise TERM ("dest_bit", [t]); |
8768 | 491 |
|
21829
016eff9c5699
simplified mk/dest_numeral (cf. mk/dest_binum of 1.65);
wenzelm
parents:
21820
diff
changeset
|
492 |
fun mk_numeral 0 = pls_const |
016eff9c5699
simplified mk/dest_numeral (cf. mk/dest_binum of 1.65);
wenzelm
parents:
21820
diff
changeset
|
493 |
| mk_numeral ~1 = min_const |
016eff9c5699
simplified mk/dest_numeral (cf. mk/dest_binum of 1.65);
wenzelm
parents:
21820
diff
changeset
|
494 |
| mk_numeral i = |
24630
351a308ab58d
simplified type int (eliminated IntInf.int, integer);
wenzelm
parents:
23745
diff
changeset
|
495 |
let val (q, r) = Integer.div_mod i 2; |
26086
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
496 |
in mk_bit r $ mk_numeral q end; |
13755 | 497 |
|
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
498 |
fun dest_numeral (Const ("Int.Pls", _)) = 0 |
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
499 |
| dest_numeral (Const ("Int.Min", _)) = ~1 |
26086
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
500 |
| dest_numeral (Const ("Int.Bit0", _) $ bs) = 2 * dest_numeral bs |
3c243098b64a
New simpler representation of numerals, using Bit0 and Bit1 instead of BIT, B0, and B1
huffman
parents:
26036
diff
changeset
|
501 |
| dest_numeral (Const ("Int.Bit1", _) $ bs) = 2 * dest_numeral bs + 1 |
21829
016eff9c5699
simplified mk/dest_numeral (cf. mk/dest_binum of 1.65);
wenzelm
parents:
21820
diff
changeset
|
502 |
| dest_numeral t = raise TERM ("dest_numeral", [t]); |
13755 | 503 |
|
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
504 |
fun number_of_const T = Const ("Int.number_class.number_of", intT --> T); |
21820
2f2b6a965ccc
introduced mk/dest_numeral/number for mk/dest_binum etc.
haftmann
parents:
21788
diff
changeset
|
505 |
|
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
506 |
fun add_numerals (Const ("Int.number_class.number_of", Type (_, [_, T])) $ t) = cons (t, T) |
23269 | 507 |
| add_numerals (t $ u) = add_numerals t #> add_numerals u |
508 |
| add_numerals (Abs (_, _, t)) = add_numerals t |
|
509 |
| add_numerals _ = I; |
|
22391 | 510 |
|
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
34974
diff
changeset
|
511 |
fun mk_number T 0 = Const ("Groups.zero_class.zero", T) |
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
34974
diff
changeset
|
512 |
| mk_number T 1 = Const ("Groups.one_class.one", T) |
21820
2f2b6a965ccc
introduced mk/dest_numeral/number for mk/dest_binum etc.
haftmann
parents:
21788
diff
changeset
|
513 |
| mk_number T i = number_of_const T $ mk_numeral i; |
2f2b6a965ccc
introduced mk/dest_numeral/number for mk/dest_binum etc.
haftmann
parents:
21788
diff
changeset
|
514 |
|
35267
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
34974
diff
changeset
|
515 |
fun dest_number (Const ("Groups.zero_class.zero", T)) = (T, 0) |
8dfd816713c6
moved remaning class operations from Algebras.thy to Groups.thy
haftmann
parents:
34974
diff
changeset
|
516 |
| dest_number (Const ("Groups.one_class.one", T)) = (T, 1) |
25919
8b1c0d434824
joined theories IntDef, Numeral, IntArith to theory Int
haftmann
parents:
25887
diff
changeset
|
517 |
| dest_number (Const ("Int.number_class.number_of", Type ("fun", [_, T])) $ t) = |
22994 | 518 |
(T, dest_numeral t) |
21820
2f2b6a965ccc
introduced mk/dest_numeral/number for mk/dest_binum etc.
haftmann
parents:
21788
diff
changeset
|
519 |
| dest_number t = raise TERM ("dest_number", [t]); |
13755 | 520 |
|
21829
016eff9c5699
simplified mk/dest_numeral (cf. mk/dest_binum of 1.65);
wenzelm
parents:
21820
diff
changeset
|
521 |
|
13755 | 522 |
(* real *) |
523 |
||
16971 | 524 |
val realT = Type ("RealDef.real", []); |
13755 | 525 |
|
526 |
||
21755 | 527 |
(* list *) |
21455 | 528 |
|
21755 | 529 |
fun listT T = Type ("List.list", [T]); |
21455 | 530 |
|
25887 | 531 |
fun nil_const T = Const ("List.list.Nil", listT T); |
532 |
||
533 |
fun cons_const T = |
|
534 |
let val lT = listT T |
|
535 |
in Const ("List.list.Cons", T --> lT --> lT) end; |
|
536 |
||
21755 | 537 |
fun mk_list T ts = |
21455 | 538 |
let |
21755 | 539 |
val lT = listT T; |
540 |
val Nil = Const ("List.list.Nil", lT); |
|
541 |
fun Cons t u = Const ("List.list.Cons", T --> lT --> lT) $ t $ u; |
|
542 |
in fold_rev Cons ts Nil end; |
|
543 |
||
544 |
fun dest_list (Const ("List.list.Nil", _)) = [] |
|
545 |
| dest_list (Const ("List.list.Cons", _) $ t $ u) = t :: dest_list u |
|
546 |
| dest_list t = raise TERM ("dest_list", [t]); |
|
21455 | 547 |
|
548 |
||
31048
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
549 |
(* nibble *) |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
550 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
551 |
val nibbleT = Type ("String.nibble", []); |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
552 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
553 |
fun mk_nibble n = |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
554 |
let val s = |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
555 |
if 0 <= n andalso n <= 9 then chr (n + ord "0") |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
556 |
else if 10 <= n andalso n <= 15 then chr (n + ord "A" - 10) |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
557 |
else raise TERM ("mk_nibble", []) |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
558 |
in Const ("String.nibble.Nibble" ^ s, nibbleT) end; |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
559 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
560 |
fun dest_nibble t = |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
561 |
let fun err () = raise TERM ("dest_nibble", [t]) in |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
562 |
(case try (unprefix "String.nibble.Nibble" o fst o Term.dest_Const) t of |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
563 |
NONE => err () |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
564 |
| SOME c => |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
565 |
if size c <> 1 then err () |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
566 |
else if "0" <= c andalso c <= "9" then ord c - ord "0" |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
567 |
else if "A" <= c andalso c <= "F" then ord c - ord "A" + 10 |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
568 |
else err ()) |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
569 |
end; |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
570 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
571 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
572 |
(* char *) |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
573 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
574 |
val charT = Type ("String.char", []); |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
575 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
576 |
fun mk_char n = |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
577 |
if 0 <= n andalso n <= 255 then |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
578 |
Const ("String.char.Char", nibbleT --> nibbleT --> charT) $ |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
579 |
mk_nibble (n div 16) $ mk_nibble (n mod 16) |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
580 |
else raise TERM ("mk_char", []); |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
581 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
582 |
fun dest_char (Const ("String.char.Char", _) $ t $ u) = |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
583 |
dest_nibble t * 16 + dest_nibble u |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
584 |
| dest_char t = raise TERM ("dest_char", [t]); |
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
585 |
|
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
586 |
|
21455 | 587 |
(* string *) |
588 |
||
32446 | 589 |
val stringT = listT charT; |
21455 | 590 |
|
21755 | 591 |
val mk_string = mk_list charT o map (mk_char o ord) o explode; |
592 |
val dest_string = implode o map (chr o dest_char) o dest_list; |
|
21455 | 593 |
|
31048
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
594 |
|
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
595 |
(* literal *) |
31048
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
596 |
|
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
597 |
val literalT = Type ("String.literal", []); |
31048
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
598 |
|
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
599 |
fun mk_literal s = Const ("String.literal.STR", stringT --> literalT) |
31048
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
600 |
$ mk_string s; |
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
601 |
fun dest_literal (Const ("String.literal.STR", _) $ t) = |
31048
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
602 |
dest_string t |
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
603 |
| dest_literal t = raise TERM ("dest_literal", [t]); |
31048
ac146fc38b51
refined HOL string theories and corresponding ML fragments
haftmann
parents:
30453
diff
changeset
|
604 |
|
31135 | 605 |
|
606 |
(* typerep and term *) |
|
607 |
||
608 |
val typerepT = Type ("Typerep.typerep", []); |
|
609 |
||
31736 | 610 |
fun mk_typerep (Type (tyco, Ts)) = Const ("Typerep.typerep.Typerep", |
611 |
literalT --> listT typerepT --> typerepT) $ mk_literal tyco |
|
612 |
$ mk_list typerepT (map mk_typerep Ts) |
|
613 |
| mk_typerep (T as TFree _) = Const ("Typerep.typerep_class.typerep", |
|
614 |
Term.itselfT T --> typerepT) $ Logic.mk_type T; |
|
31135 | 615 |
|
32657 | 616 |
val termT = Type ("Code_Evaluation.term", []); |
31135 | 617 |
|
32657 | 618 |
fun term_of_const T = Const ("Code_Evaluation.term_of_class.term_of", T --> termT); |
32339 | 619 |
|
620 |
fun mk_term_of T t = term_of_const T $ t; |
|
31135 | 621 |
|
622 |
fun reflect_term (Const (c, T)) = |
|
32657 | 623 |
Const ("Code_Evaluation.Const", literalT --> typerepT --> termT) |
31205
98370b26c2ce
String.literal replaces message_string, code_numeral replaces (code_)index
haftmann
parents:
31183
diff
changeset
|
624 |
$ mk_literal c $ mk_typerep T |
31135 | 625 |
| reflect_term (t1 $ t2) = |
32657 | 626 |
Const ("Code_Evaluation.App", termT --> termT --> termT) |
31135 | 627 |
$ reflect_term t1 $ reflect_term t2 |
31183 | 628 |
| reflect_term (Abs (v, _, t)) = Abs (v, termT, reflect_term t) |
629 |
| reflect_term t = t; |
|
630 |
||
31463 | 631 |
fun mk_valtermify_app c vs T = |
632 |
let |
|
633 |
fun termifyT T = mk_prodT (T, unitT --> termT); |
|
32657 | 634 |
fun valapp T T' = Const ("Code_Evaluation.valapp", |
31463 | 635 |
termifyT (T --> T') --> termifyT T --> termifyT T'); |
636 |
fun mk_fTs [] _ = [] |
|
637 |
| mk_fTs (_ :: Ts) T = (Ts ---> T) :: mk_fTs Ts T; |
|
638 |
val Ts = map snd vs; |
|
639 |
val t = Const (c, Ts ---> T); |
|
640 |
val tt = mk_prod (t, Abs ("u", unitT, reflect_term t)); |
|
33245 | 641 |
fun app (fT, (v, T)) t = valapp T fT $ t $ Free (v, termifyT T); |
642 |
in fold app (mk_fTs Ts T ~~ vs) tt end; |
|
31463 | 643 |
|
31183 | 644 |
|
645 |
(* open state monads *) |
|
646 |
||
647 |
fun mk_return T U x = pair_const T U $ x; |
|
648 |
||
649 |
fun mk_ST clauses t U (someT, V) = |
|
650 |
let |
|
651 |
val R = case someT of SOME T => mk_prodT (T, V) | NONE => V |
|
652 |
fun mk_clause ((t, U), SOME (v, T)) (t', U') = |
|
653 |
(Const ("Product_Type.scomp", (U --> mk_prodT (T, U')) --> (T --> U' --> R) --> U --> R) |
|
654 |
$ t $ lambda (Free (v, T)) t', U) |
|
655 |
| mk_clause ((t, U), NONE) (t', U') = |
|
656 |
(Const ("Product_Type.fcomp", (U --> U') --> (U' --> R) --> U --> R) |
|
657 |
$ t $ t', U) |
|
658 |
in fold_rev mk_clause clauses (t, U) |> fst end; |
|
31135 | 659 |
|
38550 | 660 |
|
661 |
(* random seeds *) |
|
662 |
||
31463 | 663 |
val random_seedT = mk_prodT (code_numeralT, code_numeralT); |
664 |
||
665 |
fun mk_random T t = Const ("Quickcheck.random_class.random", code_numeralT |
|
666 |
--> random_seedT --> mk_prodT (mk_prodT (T, unitT --> termT), random_seedT)) $ t; |
|
667 |
||
923 | 668 |
end; |