supp-proofs work except for CoreHaskell and Modules (induct is probably not finding the correct instance)
(* Title: nominal_dt_alpha.ML
Author: Christian Urban
Author: Cezary Kaliszyk
Performing quotient constructions and lifting theorems
*)
signature NOMINAL_DT_QUOT =
sig
val define_qtypes: (string list * binding * mixfix) list -> typ list -> term list ->
thm list -> local_theory -> Quotient_Info.quotdata_info list * local_theory
val define_qconsts: typ list -> (string * term * mixfix) list -> local_theory ->
Quotient_Info.qconsts_info list * local_theory
val define_qperms: typ list -> string list -> (string * sort) list ->
(string * term * mixfix) list -> thm list -> local_theory -> local_theory
val define_qsizes: typ list -> string list -> (string * sort) list ->
(string * term * mixfix) list -> local_theory -> local_theory
val lift_thms: typ list -> thm list -> thm list -> Proof.context -> thm list * Proof.context
end
structure Nominal_Dt_Quot: NOMINAL_DT_QUOT =
struct
(* defines the quotient types *)
fun define_qtypes qtys_descr alpha_tys alpha_trms alpha_equivp_thms lthy =
let
val qty_args1 = map2 (fn ty => fn trm => (ty, trm, false)) alpha_tys alpha_trms
val qty_args2 = (qtys_descr ~~ qty_args1) ~~ alpha_equivp_thms
in
fold_map Quotient_Type.add_quotient_type qty_args2 lthy
end
(* defines quotient constants *)
fun define_qconsts qtys consts_specs lthy =
let
val (qconst_infos, lthy') =
fold_map (Quotient_Def.lift_raw_const qtys) consts_specs lthy
val phi = ProofContext.export_morphism lthy' lthy
in
(map (Quotient_Info.transform_qconsts phi) qconst_infos, lthy')
end
(* defines the quotient permutations and proves pt-class *)
fun define_qperms qtys qfull_ty_names tvs perm_specs raw_perm_laws lthy =
let
val lthy1 =
lthy
|> Local_Theory.exit_global
|> Class.instantiation (qfull_ty_names, tvs, @{sort pt})
val (qs, lthy2) = define_qconsts qtys perm_specs lthy1
val ((_, raw_perm_laws'), lthy3) = Variable.importT raw_perm_laws lthy2
val lifted_perm_laws =
map (Quotient_Tacs.lifted lthy3 qtys []) raw_perm_laws'
|> Variable.exportT lthy3 lthy2
fun tac _ =
Class.intro_classes_tac [] THEN
(ALLGOALS (resolve_tac lifted_perm_laws))
in
lthy2
|> Class.prove_instantiation_exit tac
|> Named_Target.theory_init
end
(* defines the size functions and proves size-class *)
fun define_qsizes qtys qfull_ty_names tvs size_specs lthy =
let
fun tac _ = Class.intro_classes_tac []
in
lthy
|> Local_Theory.exit_global
|> Class.instantiation (qfull_ty_names, tvs, @{sort size})
|> snd o (define_qconsts qtys size_specs)
|> Class.prove_instantiation_exit tac
|> Named_Target.theory_init
end
(* lifts a theorem and cleans all "_raw" parts
from variable names *)
local
val any = Scan.one (Symbol.not_eof)
val raw = Scan.this_string "_raw"
val exclude =
Scan.repeat (Scan.unless raw any) --| raw >> implode
val parser = Scan.repeat (exclude || any)
in
fun unraw_str s =
s |> explode
|> Scan.finite Symbol.stopper parser >> implode
|> fst
end
fun unraw_vars_thm thm =
let
fun unraw_var_str ((s, i), T) = ((unraw_str s, i), T)
val vars = Term.add_vars (prop_of thm) []
val vars' = map (Var o unraw_var_str) vars
in
Thm.certify_instantiate ([], (vars ~~ vars')) thm
end
fun unraw_bounds_thm th =
let
val trm = Thm.prop_of th
val trm' = Term.map_abs_vars unraw_str trm
in
Thm.rename_boundvars trm trm' th
end
fun lift_thms qtys simps thms ctxt =
(map (Quotient_Tacs.lifted ctxt qtys simps
#> unraw_bounds_thm
#> unraw_vars_thm
#> Drule.zero_var_indexes) thms, ctxt)
end (* structure *)