author | oheimb |
Wed, 12 Nov 1997 12:34:43 +0100 | |
changeset 4206 | 688050e83d89 |
parent 4182 | 47067b5db7ef |
child 4251 | f6bd8332eb32 |
permissions | -rw-r--r-- |
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(* Title: Pure/thm.ML |
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ID: $Id$ |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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Copyright 1994 University of Cambridge |
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|
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The core of Isabelle's Meta Logic: certified types and terms, meta |
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theorems, meta rules (including resolution and simplification). |
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*) |
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||
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signature THM = |
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sig |
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(*certified types*) |
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type ctyp |
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val rep_ctyp : ctyp -> {sign: Sign.sg, T: typ} |
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val typ_of : ctyp -> typ |
|
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val ctyp_of : Sign.sg -> typ -> ctyp |
|
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val read_ctyp : Sign.sg -> string -> ctyp |
|
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|
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(*certified terms*) |
|
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type cterm |
|
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exception CTERM of string |
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val rep_cterm : cterm -> {sign: Sign.sg, t: term, T: typ, |
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maxidx: int} |
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val term_of : cterm -> term |
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val cterm_of : Sign.sg -> term -> cterm |
|
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val ctyp_of_term : cterm -> ctyp |
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val read_cterm : Sign.sg -> string * typ -> cterm |
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val read_cterms : Sign.sg -> string list * typ list -> cterm list |
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val cterm_fun : (term -> term) -> (cterm -> cterm) |
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val dest_comb : cterm -> cterm * cterm |
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val dest_abs : cterm -> cterm * cterm |
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val adjust_maxidx : cterm -> cterm |
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val capply : cterm -> cterm -> cterm |
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val cabs : cterm -> cterm -> cterm |
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val read_def_cterm : |
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Sign.sg * (indexname -> typ option) * (indexname -> sort option) -> |
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string list -> bool -> string * typ -> cterm * (indexname * typ) list |
|
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||
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(*proof terms [must DUPLICATE declaration as a specification]*) |
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datatype deriv_kind = MinDeriv | ThmDeriv | FullDeriv; |
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val keep_derivs : deriv_kind ref |
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datatype rule = |
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MinProof |
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| Oracle of string * Sign.sg * object |
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| Axiom of string |
|
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| Theorem of string |
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| Assume of cterm |
|
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| Implies_intr of cterm |
|
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| Implies_intr_shyps |
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| Implies_intr_hyps |
|
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| Implies_elim |
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| Forall_intr of cterm |
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| Forall_elim of cterm |
|
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| Reflexive of cterm |
|
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| Symmetric |
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| Transitive |
|
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| Beta_conversion of cterm |
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| Extensional |
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| Abstract_rule of string * cterm |
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| Combination |
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| Equal_intr |
|
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| Equal_elim |
|
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| Trivial of cterm |
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| Lift_rule of cterm * int |
|
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| Assumption of int * Envir.env option |
|
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| Rotate_rule of int * int |
|
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| Instantiate of (indexname * ctyp) list * (cterm * cterm) list |
|
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| Bicompose of bool * bool * int * int * Envir.env |
|
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| Flexflex_rule of Envir.env |
|
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| Class_triv of class |
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| VarifyT |
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| FreezeT |
|
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| RewriteC of cterm |
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| CongC of cterm |
|
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| Rewrite_cterm of cterm |
|
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| Rename_params_rule of string list * int; |
|
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type deriv (* = rule mtree *) |
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(*meta theorems*) |
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type thm |
|
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exception THM of string * int * thm list |
|
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val rep_thm : thm -> {sign: Sign.sg, der: deriv, maxidx: int, |
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shyps: sort list, hyps: term list, |
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prop: term} |
|
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val crep_thm : thm -> {sign: Sign.sg, der: deriv, maxidx: int, |
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shyps: sort list, hyps: cterm list, |
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prop: cterm} |
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val eq_thm : thm * thm -> bool |
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val sign_of_thm : thm -> Sign.sg |
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val transfer : theory -> thm -> thm |
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val tpairs_of : thm -> (term * term) list |
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val prems_of : thm -> term list |
|
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val nprems_of : thm -> int |
|
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val concl_of : thm -> term |
|
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val cprop_of : thm -> cterm |
|
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val extra_shyps : thm -> sort list |
|
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val force_strip_shyps : bool ref (* FIXME tmp (since 1995/08/01) *) |
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val strip_shyps : thm -> thm |
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val implies_intr_shyps: thm -> thm |
|
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val get_axiom : theory -> xstring -> thm |
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val name_thm : string * thm -> thm |
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val name_of_thm : thm -> string |
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val axioms_of : theory -> (string * thm) list |
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|
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(*meta rules*) |
|
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val assume : cterm -> thm |
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val compress : thm -> thm |
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val implies_intr : cterm -> thm -> thm |
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val implies_elim : thm -> thm -> thm |
|
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val forall_intr : cterm -> thm -> thm |
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val forall_elim : cterm -> thm -> thm |
|
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val reflexive : cterm -> thm |
|
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val symmetric : thm -> thm |
|
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val transitive : thm -> thm -> thm |
|
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val beta_conversion : cterm -> thm |
|
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val extensional : thm -> thm |
|
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val abstract_rule : string -> cterm -> thm -> thm |
|
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val combination : thm -> thm -> thm |
|
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val equal_intr : thm -> thm -> thm |
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val equal_elim : thm -> thm -> thm |
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val implies_intr_hyps : thm -> thm |
|
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val flexflex_rule : thm -> thm Sequence.seq |
|
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val instantiate : |
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(indexname * ctyp) list * (cterm * cterm) list -> thm -> thm |
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val trivial : cterm -> thm |
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val class_triv : theory -> class -> thm |
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val varifyT : thm -> thm |
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val freezeT : thm -> thm |
|
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val dest_state : thm * int -> |
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(term * term) list * term list * term * term |
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val lift_rule : (thm * int) -> thm -> thm |
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val assumption : int -> thm -> thm Sequence.seq |
|
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val eq_assumption : int -> thm -> thm |
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val rotate_rule : int -> int -> thm -> thm |
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val rename_params_rule: string list * int -> thm -> thm |
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val bicompose : bool -> bool * thm * int -> |
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int -> thm -> thm Sequence.seq |
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val biresolution : bool -> (bool * thm) list -> |
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int -> thm -> thm Sequence.seq |
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||
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(*meta simplification*) |
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exception SIMPLIFIER of string * thm |
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type meta_simpset |
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val dest_mss : meta_simpset -> |
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{simps: thm list, congs: thm list, procs: (string * cterm list) list} |
|
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val empty_mss : meta_simpset |
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val merge_mss : meta_simpset * meta_simpset -> meta_simpset |
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val add_simps : meta_simpset * thm list -> meta_simpset |
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val del_simps : meta_simpset * thm list -> meta_simpset |
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val mss_of : thm list -> meta_simpset |
|
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val add_congs : meta_simpset * thm list -> meta_simpset |
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val del_congs : meta_simpset * thm list -> meta_simpset |
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val add_simprocs : meta_simpset * |
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(string * cterm list * (Sign.sg -> thm list -> term -> thm option) * stamp) list |
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-> meta_simpset |
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val del_simprocs : meta_simpset * |
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(string * cterm list * (Sign.sg -> thm list -> term -> thm option) * stamp) list |
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-> meta_simpset |
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val add_prems : meta_simpset * thm list -> meta_simpset |
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val prems_of_mss : meta_simpset -> thm list |
|
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val set_mk_rews : meta_simpset * (thm -> thm list) -> meta_simpset |
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val mk_rews_of_mss : meta_simpset -> thm -> thm list |
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val set_termless : meta_simpset * (term * term -> bool) -> meta_simpset |
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val trace_simp : bool ref |
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val rewrite_cterm : bool * bool -> meta_simpset -> |
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(meta_simpset -> thm -> thm option) -> cterm -> thm |
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|
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val invoke_oracle : theory -> xstring -> Sign.sg * object -> thm |
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end; |
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structure Thm: THM = |
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struct |
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(*** Certified terms and types ***) |
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(** certified types **) |
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||
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(*certified typs under a signature*) |
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||
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datatype ctyp = Ctyp of {sign_ref: Sign.sg_ref, T: typ}; |
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fun rep_ctyp (Ctyp {sign_ref, T}) = {sign = Sign.deref sign_ref, T = T}; |
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fun typ_of (Ctyp {T, ...}) = T; |
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||
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fun ctyp_of sign T = |
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Ctyp {sign_ref = Sign.self_ref sign, T = Sign.certify_typ sign T}; |
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|
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fun read_ctyp sign s = |
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Ctyp {sign_ref = Sign.self_ref sign, T = Sign.read_typ (sign, K None) s}; |
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|
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(** certified terms **) |
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(*certified terms under a signature, with checked typ and maxidx of Vars*) |
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|
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datatype cterm = Cterm of {sign_ref: Sign.sg_ref, t: term, T: typ, maxidx: int}; |
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|
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fun rep_cterm (Cterm {sign_ref, t, T, maxidx}) = |
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{sign = Sign.deref sign_ref, t = t, T = T, maxidx = maxidx}; |
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|
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fun term_of (Cterm {t, ...}) = t; |
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|
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fun ctyp_of_term (Cterm {sign_ref, T, ...}) = Ctyp {sign_ref = sign_ref, T = T}; |
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|
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(*create a cterm by checking a "raw" term with respect to a signature*) |
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fun cterm_of sign tm = |
|
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let val (t, T, maxidx) = Sign.certify_term sign tm |
|
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in Cterm {sign_ref = Sign.self_ref sign, t = t, T = T, maxidx = maxidx} |
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end; |
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|
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fun cterm_fun f (Cterm {sign_ref, t, ...}) = cterm_of (Sign.deref sign_ref) (f t); |
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|
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|
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exception CTERM of string; |
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|
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(*Destruct application in cterms*) |
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fun dest_comb (Cterm {sign_ref, T, maxidx, t = A $ B}) = |
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let val typeA = fastype_of A; |
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val typeB = |
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case typeA of Type("fun",[S,T]) => S |
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| _ => error "Function type expected in dest_comb"; |
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in |
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(Cterm {sign_ref=sign_ref, maxidx=maxidx, t=A, T=typeA}, |
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Cterm {sign_ref=sign_ref, maxidx=maxidx, t=B, T=typeB}) |
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end |
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| dest_comb _ = raise CTERM "dest_comb"; |
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|
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(*Destruct abstraction in cterms*) |
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fun dest_abs (Cterm {sign_ref, T as Type("fun",[_,S]), maxidx, t=Abs(x,ty,M)}) = |
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let val (y,N) = variant_abs (x,ty,M) |
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in (Cterm {sign_ref = sign_ref, T = ty, maxidx = 0, t = Free(y,ty)}, |
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Cterm {sign_ref = sign_ref, T = S, maxidx = maxidx, t = N}) |
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end |
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| dest_abs _ = raise CTERM "dest_abs"; |
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|
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(*Makes maxidx precise: it is often too big*) |
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wenzelm
parents:
3895
diff
changeset
|
239 |
fun adjust_maxidx (ct as Cterm {sign_ref, T, t, maxidx, ...}) = |
2147 | 240 |
if maxidx = ~1 then ct |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
241 |
else Cterm {sign_ref = sign_ref, T = T, maxidx = maxidx_of_term t, t = t}; |
1703
e22ad43bab5f
moved dest_cimplies to drule.ML; added adjust_maxidx
clasohm
parents:
1659
diff
changeset
|
242 |
|
1516
96286c4e32de
removed mk_prop; added capply; simplified dest_abs
clasohm
parents:
1503
diff
changeset
|
243 |
(*Form cterm out of a function and an argument*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
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diff
changeset
|
244 |
fun capply (Cterm {t=f, sign_ref=sign_ref1, T=Type("fun",[dty,rty]), maxidx=maxidx1}) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
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|
245 |
(Cterm {t=x, sign_ref=sign_ref2, T, maxidx=maxidx2}) = |
edd5ff9371f8
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wenzelm
parents:
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diff
changeset
|
246 |
if T = dty then Cterm{t=f$x, sign_ref=Sign.merge_refs(sign_ref1,sign_ref2), T=rty, |
2147 | 247 |
maxidx=Int.max(maxidx1, maxidx2)} |
1516
96286c4e32de
removed mk_prop; added capply; simplified dest_abs
clasohm
parents:
1503
diff
changeset
|
248 |
else raise CTERM "capply: types don't agree" |
96286c4e32de
removed mk_prop; added capply; simplified dest_abs
clasohm
parents:
1503
diff
changeset
|
249 |
| capply _ _ = raise CTERM "capply: first arg is not a function" |
250 | 250 |
|
3967
edd5ff9371f8
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wenzelm
parents:
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diff
changeset
|
251 |
fun cabs (Cterm {t=Free(a,ty), sign_ref=sign_ref1, T=T1, maxidx=maxidx1}) |
edd5ff9371f8
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|
252 |
(Cterm {t=t2, sign_ref=sign_ref2, T=T2, maxidx=maxidx2}) = |
edd5ff9371f8
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parents:
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diff
changeset
|
253 |
Cterm {t=absfree(a,ty,t2), sign_ref=Sign.merge_refs(sign_ref1,sign_ref2), |
2147 | 254 |
T = ty --> T2, maxidx=Int.max(maxidx1, maxidx2)} |
1517 | 255 |
| cabs _ _ = raise CTERM "cabs: first arg is not a free variable"; |
229
4002c4cd450c
Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated
lcp
parents:
225
diff
changeset
|
256 |
|
2509 | 257 |
|
258 |
||
574 | 259 |
(** read cterms **) (*exception ERROR*) |
250 | 260 |
|
261 |
(*read term, infer types, certify term*) |
|
949
83c588d6fee9
Changed treatment of during type inference internally generated type
nipkow
parents:
922
diff
changeset
|
262 |
fun read_def_cterm (sign, types, sorts) used freeze (a, T) = |
250 | 263 |
let |
574 | 264 |
val T' = Sign.certify_typ sign T |
265 |
handle TYPE (msg, _, _) => error msg; |
|
623 | 266 |
val ts = Syntax.read (#syn (Sign.rep_sg sign)) T' a; |
949
83c588d6fee9
Changed treatment of during type inference internally generated type
nipkow
parents:
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diff
changeset
|
267 |
val (_, t', tye) = |
3967
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sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
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diff
changeset
|
268 |
Sign.infer_types sign types sorts used freeze (ts, T'); |
574 | 269 |
val ct = cterm_of sign t' |
2979 | 270 |
handle TYPE (msg, _, _) => error msg |
2386 | 271 |
| TERM (msg, _) => error msg; |
250 | 272 |
in (ct, tye) end; |
229
4002c4cd450c
Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated
lcp
parents:
225
diff
changeset
|
273 |
|
949
83c588d6fee9
Changed treatment of during type inference internally generated type
nipkow
parents:
922
diff
changeset
|
274 |
fun read_cterm sign = #1 o read_def_cterm (sign, K None, K None) [] true; |
229
4002c4cd450c
Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated
lcp
parents:
225
diff
changeset
|
275 |
|
1394
a1d2735f5ade
New function read_cterms is a combination of read_def_cterm and
paulson
parents:
1258
diff
changeset
|
276 |
(*read a list of terms, matching them against a list of expected types. |
a1d2735f5ade
New function read_cterms is a combination of read_def_cterm and
paulson
parents:
1258
diff
changeset
|
277 |
NO disambiguation of alternative parses via type-checking -- it is just |
a1d2735f5ade
New function read_cterms is a combination of read_def_cterm and
paulson
parents:
1258
diff
changeset
|
278 |
not practical.*) |
3789 | 279 |
fun read_cterms sg (bs, Ts) = |
1394
a1d2735f5ade
New function read_cterms is a combination of read_def_cterm and
paulson
parents:
1258
diff
changeset
|
280 |
let |
3789 | 281 |
val {tsig, syn, ...} = Sign.rep_sg sg; |
2979 | 282 |
fun read (b, T) = |
283 |
(case Syntax.read syn T b of |
|
284 |
[t] => t |
|
285 |
| _ => error ("Error or ambiguity in parsing of " ^ b)); |
|
286 |
||
3789 | 287 |
val prt = setmp Syntax.show_brackets true (Sign.pretty_term sg); |
288 |
val prT = Sign.pretty_typ sg; |
|
2979 | 289 |
val (us, _) = |
3789 | 290 |
(* FIXME Sign.infer_types!? *) |
291 |
Type.infer_types prt prT tsig (Sign.const_type sg) (K None) (K None) |
|
292 |
(Sign.intern_const sg) (Sign.intern_tycons sg) (Sign.intern_sort sg) |
|
293 |
[] true (map (Sign.certify_typ sg) Ts) (ListPair.map read (bs, Ts)); |
|
294 |
in map (cterm_of sg) us end |
|
2979 | 295 |
handle TYPE (msg, _, _) => error msg |
1394
a1d2735f5ade
New function read_cterms is a combination of read_def_cterm and
paulson
parents:
1258
diff
changeset
|
296 |
| TERM (msg, _) => error msg; |
a1d2735f5ade
New function read_cterms is a combination of read_def_cterm and
paulson
parents:
1258
diff
changeset
|
297 |
|
250 | 298 |
|
299 |
||
1529 | 300 |
(*** Derivations ***) |
301 |
||
302 |
(*Names of rules in derivations. Includes logically trivial rules, if |
|
303 |
executed in ML.*) |
|
304 |
datatype rule = |
|
2386 | 305 |
MinProof (*for building minimal proof terms*) |
4182 | 306 |
| Oracle of string * Sign.sg * object (*oracles*) |
1529 | 307 |
(*Axioms/theorems*) |
4182 | 308 |
| Axiom of string |
2386 | 309 |
| Theorem of string |
1529 | 310 |
(*primitive inferences and compound versions of them*) |
2386 | 311 |
| Assume of cterm |
312 |
| Implies_intr of cterm |
|
1529 | 313 |
| Implies_intr_shyps |
314 |
| Implies_intr_hyps |
|
315 |
| Implies_elim |
|
2386 | 316 |
| Forall_intr of cterm |
317 |
| Forall_elim of cterm |
|
318 |
| Reflexive of cterm |
|
1529 | 319 |
| Symmetric |
320 |
| Transitive |
|
2386 | 321 |
| Beta_conversion of cterm |
1529 | 322 |
| Extensional |
2386 | 323 |
| Abstract_rule of string * cterm |
1529 | 324 |
| Combination |
325 |
| Equal_intr |
|
326 |
| Equal_elim |
|
327 |
(*derived rules for tactical proof*) |
|
2386 | 328 |
| Trivial of cterm |
329 |
(*For lift_rule, the proof state is not a premise. |
|
330 |
Use cterm instead of thm to avoid mutual recursion.*) |
|
331 |
| Lift_rule of cterm * int |
|
332 |
| Assumption of int * Envir.env option (*includes eq_assumption*) |
|
2671 | 333 |
| Rotate_rule of int * int |
2386 | 334 |
| Instantiate of (indexname * ctyp) list * (cterm * cterm) list |
335 |
| Bicompose of bool * bool * int * int * Envir.env |
|
336 |
| Flexflex_rule of Envir.env (*identifies unifier chosen*) |
|
1529 | 337 |
(*other derived rules*) |
4182 | 338 |
| Class_triv of class |
1529 | 339 |
| VarifyT |
340 |
| FreezeT |
|
341 |
(*for the simplifier*) |
|
2386 | 342 |
| RewriteC of cterm |
343 |
| CongC of cterm |
|
344 |
| Rewrite_cterm of cterm |
|
1529 | 345 |
(*Logical identities, recorded since they are part of the proof process*) |
2386 | 346 |
| Rename_params_rule of string list * int; |
1529 | 347 |
|
348 |
||
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
349 |
type deriv = rule mtree; |
1529 | 350 |
|
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
351 |
datatype deriv_kind = MinDeriv | ThmDeriv | FullDeriv; |
1529 | 352 |
|
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
353 |
val keep_derivs = ref MinDeriv; |
1529 | 354 |
|
355 |
||
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
356 |
(*Build a minimal derivation. Keep oracles; suppress atomic inferences; |
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
357 |
retain Theorems or their underlying links; keep anything else*) |
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
358 |
fun squash_derivs [] = [] |
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
359 |
| squash_derivs (der::ders) = |
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
360 |
(case der of |
2386 | 361 |
Join (Oracle _, _) => der :: squash_derivs ders |
362 |
| Join (Theorem _, [der']) => if !keep_derivs=ThmDeriv |
|
363 |
then der :: squash_derivs ders |
|
364 |
else squash_derivs (der'::ders) |
|
365 |
| Join (Axiom _, _) => if !keep_derivs=ThmDeriv |
|
366 |
then der :: squash_derivs ders |
|
367 |
else squash_derivs ders |
|
368 |
| Join (_, []) => squash_derivs ders |
|
369 |
| _ => der :: squash_derivs ders); |
|
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
370 |
|
1529 | 371 |
|
372 |
(*Ensure sharing of the most likely derivation, the empty one!*) |
|
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
373 |
val min_infer = Join (MinProof, []); |
1529 | 374 |
|
375 |
(*Make a minimal inference*) |
|
376 |
fun make_min_infer [] = min_infer |
|
377 |
| make_min_infer [der] = der |
|
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
378 |
| make_min_infer ders = Join (MinProof, ders); |
1529 | 379 |
|
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
380 |
fun infer_derivs (rl, []) = Join (rl, []) |
1529 | 381 |
| infer_derivs (rl, ders) = |
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
382 |
if !keep_derivs=FullDeriv then Join (rl, ders) |
1529 | 383 |
else make_min_infer (squash_derivs ders); |
384 |
||
385 |
||
2509 | 386 |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
387 |
(*** Meta theorems ***) |
229
4002c4cd450c
Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated
lcp
parents:
225
diff
changeset
|
388 |
|
0 | 389 |
datatype thm = Thm of |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
390 |
{sign_ref: Sign.sg_ref, (*mutable reference to signature*) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
391 |
der: deriv, (*derivation*) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
392 |
maxidx: int, (*maximum index of any Var or TVar*) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
393 |
shyps: sort list, (*sort hypotheses*) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
394 |
hyps: term list, (*hypotheses*) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
395 |
prop: term}; (*conclusion*) |
0 | 396 |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
397 |
fun rep_thm (Thm {sign_ref, der, maxidx, shyps, hyps, prop}) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
398 |
{sign = Sign.deref sign_ref, der = der, maxidx = maxidx, |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
399 |
shyps = shyps, hyps = hyps, prop = prop}; |
0 | 400 |
|
1529 | 401 |
(*Version of rep_thm returning cterms instead of terms*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
402 |
fun crep_thm (Thm {sign_ref, der, maxidx, shyps, hyps, prop}) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
403 |
let fun ctermf max t = Cterm{sign_ref=sign_ref, t=t, T=propT, maxidx=max}; |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
404 |
in {sign = Sign.deref sign_ref, der = der, maxidx = maxidx, shyps = shyps, |
1529 | 405 |
hyps = map (ctermf ~1) hyps, |
406 |
prop = ctermf maxidx prop} |
|
1517 | 407 |
end; |
408 |
||
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
409 |
(*errors involving theorems*) |
0 | 410 |
exception THM of string * int * thm list; |
411 |
||
3994 | 412 |
(*equality of theorems uses equality of signatures and the |
413 |
a-convertible test for terms*) |
|
414 |
fun eq_thm (th1, th2) = |
|
415 |
let |
|
416 |
val {sign = sg1, shyps = shyps1, hyps = hyps1, prop = prop1, ...} = rep_thm th1; |
|
417 |
val {sign = sg2, shyps = shyps2, hyps = hyps2, prop = prop2, ...} = rep_thm th2; |
|
418 |
in |
|
419 |
Sign.eq_sg (sg1, sg2) andalso |
|
420 |
eq_set_sort (shyps1, shyps2) andalso |
|
421 |
aconvs (hyps1, hyps2) andalso |
|
422 |
prop1 aconv prop2 |
|
423 |
end; |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
424 |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
425 |
fun sign_of_thm (Thm {sign_ref, ...}) = Sign.deref sign_ref; |
0 | 426 |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
427 |
(*merge signatures of two theorems; raise exception if incompatible*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
428 |
fun merge_thm_sgs |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
429 |
(th1 as Thm {sign_ref = sgr1, ...}, th2 as Thm {sign_ref = sgr2, ...}) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
430 |
Sign.merge_refs (sgr1, sgr2) handle TERM (msg, _) => raise THM (msg, 0, [th1, th2]); |
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
431 |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
432 |
(*transfer thm to super theory (non-destructive)*) |
3895 | 433 |
fun transfer thy thm = |
434 |
let |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
435 |
val Thm {sign_ref, der, maxidx, shyps, hyps, prop} = thm; |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
436 |
val sign = Sign.deref sign_ref; |
3895 | 437 |
val sign' = #sign (rep_theory thy); |
438 |
in |
|
439 |
if Sign.subsig (sign, sign') then |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
440 |
Thm {sign_ref = Sign.self_ref sign', der = der, maxidx = maxidx, |
3895 | 441 |
shyps = shyps, hyps = hyps, prop = prop} |
442 |
else raise THM ("transfer: not a super theory", 0, [thm]) |
|
443 |
end; |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
444 |
|
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
445 |
(*maps object-rule to tpairs*) |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
446 |
fun tpairs_of (Thm {prop, ...}) = #1 (Logic.strip_flexpairs prop); |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
447 |
|
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
448 |
(*maps object-rule to premises*) |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
449 |
fun prems_of (Thm {prop, ...}) = |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
450 |
Logic.strip_imp_prems (Logic.skip_flexpairs prop); |
0 | 451 |
|
452 |
(*counts premises in a rule*) |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
453 |
fun nprems_of (Thm {prop, ...}) = |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
454 |
Logic.count_prems (Logic.skip_flexpairs prop, 0); |
0 | 455 |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
456 |
(*maps object-rule to conclusion*) |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
457 |
fun concl_of (Thm {prop, ...}) = Logic.strip_imp_concl prop; |
0 | 458 |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
459 |
(*the statement of any thm is a cterm*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
460 |
fun cprop_of (Thm {sign_ref, maxidx, prop, ...}) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
461 |
Cterm {sign_ref = sign_ref, maxidx = maxidx, T = propT, t = prop}; |
229
4002c4cd450c
Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated
lcp
parents:
225
diff
changeset
|
462 |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
463 |
|
0 | 464 |
|
1238 | 465 |
(** sort contexts of theorems **) |
466 |
||
467 |
(* basic utils *) |
|
468 |
||
2163 | 469 |
(*accumulate sorts suppressing duplicates; these are coded low levelly |
1238 | 470 |
to improve efficiency a bit*) |
471 |
||
472 |
fun add_typ_sorts (Type (_, Ts), Ss) = add_typs_sorts (Ts, Ss) |
|
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
473 |
| add_typ_sorts (TFree (_, S), Ss) = ins_sort(S,Ss) |
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
474 |
| add_typ_sorts (TVar (_, S), Ss) = ins_sort(S,Ss) |
1238 | 475 |
and add_typs_sorts ([], Ss) = Ss |
476 |
| add_typs_sorts (T :: Ts, Ss) = add_typs_sorts (Ts, add_typ_sorts (T, Ss)); |
|
477 |
||
478 |
fun add_term_sorts (Const (_, T), Ss) = add_typ_sorts (T, Ss) |
|
479 |
| add_term_sorts (Free (_, T), Ss) = add_typ_sorts (T, Ss) |
|
480 |
| add_term_sorts (Var (_, T), Ss) = add_typ_sorts (T, Ss) |
|
481 |
| add_term_sorts (Bound _, Ss) = Ss |
|
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
482 |
| add_term_sorts (Abs (_,T,t), Ss) = add_term_sorts (t, add_typ_sorts (T,Ss)) |
1238 | 483 |
| add_term_sorts (t $ u, Ss) = add_term_sorts (t, add_term_sorts (u, Ss)); |
484 |
||
485 |
fun add_terms_sorts ([], Ss) = Ss |
|
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
486 |
| add_terms_sorts (t::ts, Ss) = add_terms_sorts (ts, add_term_sorts (t,Ss)); |
1238 | 487 |
|
1258 | 488 |
fun env_codT (Envir.Envir {iTs, ...}) = map snd iTs; |
489 |
||
490 |
fun add_env_sorts (env, Ss) = |
|
491 |
add_terms_sorts (map snd (Envir.alist_of env), |
|
492 |
add_typs_sorts (env_codT env, Ss)); |
|
493 |
||
1238 | 494 |
fun add_thm_sorts (Thm {hyps, prop, ...}, Ss) = |
495 |
add_terms_sorts (hyps, add_term_sorts (prop, Ss)); |
|
496 |
||
497 |
fun add_thms_shyps ([], Ss) = Ss |
|
498 |
| add_thms_shyps (Thm {shyps, ...} :: ths, Ss) = |
|
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
499 |
add_thms_shyps (ths, union_sort(shyps,Ss)); |
1238 | 500 |
|
501 |
||
502 |
(*get 'dangling' sort constraints of a thm*) |
|
503 |
fun extra_shyps (th as Thm {shyps, ...}) = |
|
504 |
shyps \\ add_thm_sorts (th, []); |
|
505 |
||
506 |
||
507 |
(* fix_shyps *) |
|
508 |
||
509 |
(*preserve sort contexts of rule premises and substituted types*) |
|
510 |
fun fix_shyps thms Ts thm = |
|
511 |
let |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
512 |
val Thm {sign_ref, der, maxidx, hyps, prop, ...} = thm; |
1238 | 513 |
val shyps = |
514 |
add_thm_sorts (thm, add_typs_sorts (Ts, add_thms_shyps (thms, []))); |
|
515 |
in |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
516 |
Thm {sign_ref = sign_ref, |
2386 | 517 |
der = der, (*No new derivation, as other rules call this*) |
518 |
maxidx = maxidx, |
|
519 |
shyps = shyps, hyps = hyps, prop = prop} |
|
1238 | 520 |
end; |
521 |
||
522 |
||
523 |
(* strip_shyps *) (* FIXME improve? (e.g. only minimal extra sorts) *) |
|
524 |
||
3061 | 525 |
val force_strip_shyps = ref true; (* FIXME tmp (since 1995/08/01) *) |
1238 | 526 |
|
527 |
(*remove extra sorts that are known to be syntactically non-empty*) |
|
528 |
fun strip_shyps thm = |
|
529 |
let |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
530 |
val Thm {sign_ref, der, maxidx, shyps, hyps, prop} = thm; |
1238 | 531 |
val sorts = add_thm_sorts (thm, []); |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
532 |
val maybe_empty = not o Sign.nonempty_sort (Sign.deref sign_ref) sorts; |
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
533 |
val shyps' = filter (fn S => mem_sort(S,sorts) orelse maybe_empty S) shyps; |
1238 | 534 |
in |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
535 |
Thm {sign_ref = sign_ref, der = der, maxidx = maxidx, |
2386 | 536 |
shyps = |
537 |
(if eq_set_sort (shyps',sorts) orelse |
|
538 |
not (!force_strip_shyps) then shyps' |
|
3061 | 539 |
else (* FIXME tmp (since 1995/08/01) *) |
2386 | 540 |
(warning ("Removed sort hypotheses: " ^ |
2962 | 541 |
commas (map Sorts.str_of_sort (shyps' \\ sorts))); |
2386 | 542 |
warning "Let's hope these sorts are non-empty!"; |
1238 | 543 |
sorts)), |
1529 | 544 |
hyps = hyps, |
545 |
prop = prop} |
|
1238 | 546 |
end; |
547 |
||
548 |
||
549 |
(* implies_intr_shyps *) |
|
550 |
||
551 |
(*discharge all extra sort hypotheses*) |
|
552 |
fun implies_intr_shyps thm = |
|
553 |
(case extra_shyps thm of |
|
554 |
[] => thm |
|
555 |
| xshyps => |
|
556 |
let |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
557 |
val Thm {sign_ref, der, maxidx, shyps, hyps, prop} = thm; |
2182
29e56f003599
Removal of polymorphic equality via mem, subset, eq_set, etc
paulson
parents:
2177
diff
changeset
|
558 |
val shyps' = ins_sort (logicS, shyps \\ xshyps); |
1238 | 559 |
val used_names = foldr add_term_tfree_names (prop :: hyps, []); |
560 |
val names = |
|
561 |
tl (variantlist (replicate (length xshyps + 1) "'", used_names)); |
|
562 |
val tfrees = map (TFree o rpair logicS) names; |
|
563 |
||
564 |
fun mk_insort (T, S) = map (Logic.mk_inclass o pair T) S; |
|
2671 | 565 |
val sort_hyps = List.concat (map2 mk_insort (tfrees, xshyps)); |
1238 | 566 |
in |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
567 |
Thm {sign_ref = sign_ref, |
2386 | 568 |
der = infer_derivs (Implies_intr_shyps, [der]), |
569 |
maxidx = maxidx, |
|
570 |
shyps = shyps', |
|
571 |
hyps = hyps, |
|
572 |
prop = Logic.list_implies (sort_hyps, prop)} |
|
1238 | 573 |
end); |
574 |
||
575 |
||
1529 | 576 |
(** Axioms **) |
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
577 |
|
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
578 |
(*look up the named axiom in the theory*) |
3812 | 579 |
fun get_axiom theory raw_name = |
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
580 |
let |
3994 | 581 |
val name = Sign.intern (sign_of theory) Theory.axiomK raw_name; |
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
582 |
fun get_ax [] = raise Match |
1529 | 583 |
| get_ax (thy :: thys) = |
3994 | 584 |
let val {sign, axioms, parents, ...} = rep_theory thy |
585 |
in case Symtab.lookup (axioms, name) of |
|
2386 | 586 |
Some t => fix_shyps [] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
587 |
(Thm {sign_ref = Sign.self_ref sign, |
4182 | 588 |
der = infer_derivs (Axiom name, []), |
2386 | 589 |
maxidx = maxidx_of_term t, |
590 |
shyps = [], |
|
591 |
hyps = [], |
|
592 |
prop = t}) |
|
593 |
| None => get_ax parents handle Match => get_ax thys |
|
1529 | 594 |
end; |
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
595 |
in |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
596 |
get_ax [theory] handle Match |
3994 | 597 |
=> raise THEORY ("No axiom " ^ quote name, [theory]) |
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
598 |
end; |
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
599 |
|
1529 | 600 |
|
776
df8f91c0e57c
improved axioms_of: returns thms as the manual says;
wenzelm
parents:
721
diff
changeset
|
601 |
(*return additional axioms of this theory node*) |
df8f91c0e57c
improved axioms_of: returns thms as the manual says;
wenzelm
parents:
721
diff
changeset
|
602 |
fun axioms_of thy = |
df8f91c0e57c
improved axioms_of: returns thms as the manual says;
wenzelm
parents:
721
diff
changeset
|
603 |
map (fn (s, _) => (s, get_axiom thy s)) |
3994 | 604 |
(Symtab.dest (#axioms (rep_theory thy))); |
776
df8f91c0e57c
improved axioms_of: returns thms as the manual says;
wenzelm
parents:
721
diff
changeset
|
605 |
|
1597
54ece585bf62
name_thm no longer takes a theory argument, as the
paulson
parents:
1580
diff
changeset
|
606 |
(*Attach a label to a theorem to make proof objects more readable*) |
4018 | 607 |
fun name_thm (name, th as Thm {sign_ref, der, maxidx, shyps, hyps, prop}) = |
608 |
(case der of |
|
609 |
Join (Theorem _, _) => th |
|
610 |
| Join (Axiom _, _) => th |
|
611 |
| _ => Thm {sign_ref = sign_ref, der = Join (Theorem name, [der]), |
|
612 |
maxidx = maxidx, shyps = shyps, hyps = hyps, prop = prop}); |
|
613 |
||
614 |
fun name_of_thm (Thm {der, ...}) = |
|
615 |
(case der of |
|
616 |
Join (Theorem name, _) => name |
|
4182 | 617 |
| Join (Axiom name, _) => name |
4018 | 618 |
| _ => ""); |
0 | 619 |
|
620 |
||
1529 | 621 |
(*Compression of theorems -- a separate rule, not integrated with the others, |
622 |
as it could be slow.*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
623 |
fun compress (Thm {sign_ref, der, maxidx, shyps, hyps, prop}) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
624 |
Thm {sign_ref = sign_ref, |
2386 | 625 |
der = der, (*No derivation recorded!*) |
626 |
maxidx = maxidx, |
|
627 |
shyps = shyps, |
|
628 |
hyps = map Term.compress_term hyps, |
|
629 |
prop = Term.compress_term prop}; |
|
564 | 630 |
|
387
69f4356d915d
new datatype theory, supports 'draft theories' and incremental extension:
wenzelm
parents:
309
diff
changeset
|
631 |
|
2509 | 632 |
|
1529 | 633 |
(*** Meta rules ***) |
0 | 634 |
|
2147 | 635 |
(*Check that term does not contain same var with different typing/sorting. |
636 |
If this check must be made, recalculate maxidx in hope of preventing its |
|
637 |
recurrence.*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
638 |
fun nodup_Vars (thm as Thm{sign_ref, der, maxidx, shyps, hyps, prop}) s = |
2147 | 639 |
(Sign.nodup_Vars prop; |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
640 |
Thm {sign_ref = sign_ref, |
2386 | 641 |
der = der, |
642 |
maxidx = maxidx_of_term prop, |
|
643 |
shyps = shyps, |
|
644 |
hyps = hyps, |
|
645 |
prop = prop}) |
|
2147 | 646 |
handle TYPE(msg,Ts,ts) => raise TYPE(s^": "^msg,Ts,ts); |
1495
b8b54847c77f
Added check for duplicate vars with distinct types/sorts (nodup_Vars)
nipkow
parents:
1493
diff
changeset
|
647 |
|
1220 | 648 |
(** 'primitive' rules **) |
649 |
||
650 |
(*discharge all assumptions t from ts*) |
|
0 | 651 |
val disch = gen_rem (op aconv); |
652 |
||
1220 | 653 |
(*The assumption rule A|-A in a theory*) |
250 | 654 |
fun assume ct : thm = |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
655 |
let val Cterm {sign_ref, t=prop, T, maxidx} = ct |
250 | 656 |
in if T<>propT then |
657 |
raise THM("assume: assumptions must have type prop", 0, []) |
|
0 | 658 |
else if maxidx <> ~1 then |
250 | 659 |
raise THM("assume: assumptions may not contain scheme variables", |
660 |
maxidx, []) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
661 |
else Thm{sign_ref = sign_ref, |
2386 | 662 |
der = infer_derivs (Assume ct, []), |
663 |
maxidx = ~1, |
|
664 |
shyps = add_term_sorts(prop,[]), |
|
665 |
hyps = [prop], |
|
666 |
prop = prop} |
|
0 | 667 |
end; |
668 |
||
1220 | 669 |
(*Implication introduction |
3529 | 670 |
[A] |
671 |
: |
|
672 |
B |
|
1220 | 673 |
------- |
674 |
A ==> B |
|
675 |
*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
676 |
fun implies_intr cA (thB as Thm{sign_ref,der,maxidx,hyps,prop,...}) : thm = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
677 |
let val Cterm {sign_ref=sign_refA, t=A, T, maxidx=maxidxA} = cA |
0 | 678 |
in if T<>propT then |
250 | 679 |
raise THM("implies_intr: assumptions must have type prop", 0, [thB]) |
1238 | 680 |
else fix_shyps [thB] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
681 |
(Thm{sign_ref = Sign.merge_refs (sign_ref,sign_refA), |
2386 | 682 |
der = infer_derivs (Implies_intr cA, [der]), |
683 |
maxidx = Int.max(maxidxA, maxidx), |
|
684 |
shyps = [], |
|
685 |
hyps = disch(hyps,A), |
|
686 |
prop = implies$A$prop}) |
|
0 | 687 |
handle TERM _ => |
688 |
raise THM("implies_intr: incompatible signatures", 0, [thB]) |
|
689 |
end; |
|
690 |
||
1529 | 691 |
|
1220 | 692 |
(*Implication elimination |
693 |
A ==> B A |
|
694 |
------------ |
|
695 |
B |
|
696 |
*) |
|
0 | 697 |
fun implies_elim thAB thA : thm = |
1529 | 698 |
let val Thm{maxidx=maxA, der=derA, hyps=hypsA, prop=propA,...} = thA |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
699 |
and Thm{sign_ref, der, maxidx, hyps, prop,...} = thAB; |
250 | 700 |
fun err(a) = raise THM("implies_elim: "^a, 0, [thAB,thA]) |
0 | 701 |
in case prop of |
250 | 702 |
imp$A$B => |
703 |
if imp=implies andalso A aconv propA |
|
1220 | 704 |
then fix_shyps [thAB, thA] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
705 |
(Thm{sign_ref= merge_thm_sgs(thAB,thA), |
2386 | 706 |
der = infer_derivs (Implies_elim, [der,derA]), |
707 |
maxidx = Int.max(maxA,maxidx), |
|
708 |
shyps = [], |
|
709 |
hyps = union_term(hypsA,hyps), (*dups suppressed*) |
|
710 |
prop = B}) |
|
250 | 711 |
else err("major premise") |
712 |
| _ => err("major premise") |
|
0 | 713 |
end; |
250 | 714 |
|
1220 | 715 |
(*Forall introduction. The Free or Var x must not be free in the hypotheses. |
716 |
A |
|
717 |
----- |
|
718 |
!!x.A |
|
719 |
*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
720 |
fun forall_intr cx (th as Thm{sign_ref,der,maxidx,hyps,prop,...}) = |
229
4002c4cd450c
Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated
lcp
parents:
225
diff
changeset
|
721 |
let val x = term_of cx; |
1238 | 722 |
fun result(a,T) = fix_shyps [th] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
723 |
(Thm{sign_ref = sign_ref, |
2386 | 724 |
der = infer_derivs (Forall_intr cx, [der]), |
725 |
maxidx = maxidx, |
|
726 |
shyps = [], |
|
727 |
hyps = hyps, |
|
728 |
prop = all(T) $ Abs(a, T, abstract_over (x,prop))}) |
|
0 | 729 |
in case x of |
250 | 730 |
Free(a,T) => |
731 |
if exists (apl(x, Logic.occs)) hyps |
|
732 |
then raise THM("forall_intr: variable free in assumptions", 0, [th]) |
|
733 |
else result(a,T) |
|
0 | 734 |
| Var((a,_),T) => result(a,T) |
735 |
| _ => raise THM("forall_intr: not a variable", 0, [th]) |
|
736 |
end; |
|
737 |
||
1220 | 738 |
(*Forall elimination |
739 |
!!x.A |
|
740 |
------ |
|
741 |
A[t/x] |
|
742 |
*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
743 |
fun forall_elim ct (th as Thm{sign_ref,der,maxidx,hyps,prop,...}) : thm = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
744 |
let val Cterm {sign_ref=sign_reft, t, T, maxidx=maxt} = ct |
0 | 745 |
in case prop of |
2386 | 746 |
Const("all",Type("fun",[Type("fun",[qary,_]),_])) $ A => |
747 |
if T<>qary then |
|
748 |
raise THM("forall_elim: type mismatch", 0, [th]) |
|
749 |
else let val thm = fix_shyps [th] [] |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
750 |
(Thm{sign_ref= Sign.merge_refs(sign_ref,sign_reft), |
2386 | 751 |
der = infer_derivs (Forall_elim ct, [der]), |
752 |
maxidx = Int.max(maxidx, maxt), |
|
753 |
shyps = [], |
|
754 |
hyps = hyps, |
|
755 |
prop = betapply(A,t)}) |
|
756 |
in if maxt >= 0 andalso maxidx >= 0 |
|
757 |
then nodup_Vars thm "forall_elim" |
|
758 |
else thm (*no new Vars: no expensive check!*) |
|
759 |
end |
|
2147 | 760 |
| _ => raise THM("forall_elim: not quantified", 0, [th]) |
0 | 761 |
end |
762 |
handle TERM _ => |
|
250 | 763 |
raise THM("forall_elim: incompatible signatures", 0, [th]); |
0 | 764 |
|
765 |
||
1220 | 766 |
(* Equality *) |
0 | 767 |
|
768 |
(*The reflexivity rule: maps t to the theorem t==t *) |
|
250 | 769 |
fun reflexive ct = |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
770 |
let val Cterm {sign_ref, t, T, maxidx} = ct |
1238 | 771 |
in fix_shyps [] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
772 |
(Thm{sign_ref= sign_ref, |
2386 | 773 |
der = infer_derivs (Reflexive ct, []), |
774 |
shyps = [], |
|
775 |
hyps = [], |
|
776 |
maxidx = maxidx, |
|
777 |
prop = Logic.mk_equals(t,t)}) |
|
0 | 778 |
end; |
779 |
||
780 |
(*The symmetry rule |
|
1220 | 781 |
t==u |
782 |
---- |
|
783 |
u==t |
|
784 |
*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
785 |
fun symmetric (th as Thm{sign_ref,der,maxidx,shyps,hyps,prop}) = |
0 | 786 |
case prop of |
787 |
(eq as Const("==",_)) $ t $ u => |
|
1238 | 788 |
(*no fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
789 |
Thm{sign_ref = sign_ref, |
2386 | 790 |
der = infer_derivs (Symmetric, [der]), |
791 |
maxidx = maxidx, |
|
792 |
shyps = shyps, |
|
793 |
hyps = hyps, |
|
794 |
prop = eq$u$t} |
|
0 | 795 |
| _ => raise THM("symmetric", 0, [th]); |
796 |
||
797 |
(*The transitive rule |
|
1220 | 798 |
t1==u u==t2 |
799 |
-------------- |
|
800 |
t1==t2 |
|
801 |
*) |
|
0 | 802 |
fun transitive th1 th2 = |
1529 | 803 |
let val Thm{der=der1, maxidx=max1, hyps=hyps1, prop=prop1,...} = th1 |
804 |
and Thm{der=der2, maxidx=max2, hyps=hyps2, prop=prop2,...} = th2; |
|
0 | 805 |
fun err(msg) = raise THM("transitive: "^msg, 0, [th1,th2]) |
806 |
in case (prop1,prop2) of |
|
807 |
((eq as Const("==",_)) $ t1 $ u, Const("==",_) $ u' $ t2) => |
|
1634 | 808 |
if not (u aconv u') then err"middle term" |
809 |
else let val thm = |
|
1220 | 810 |
fix_shyps [th1, th2] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
811 |
(Thm{sign_ref= merge_thm_sgs(th1,th2), |
2386 | 812 |
der = infer_derivs (Transitive, [der1, der2]), |
2147 | 813 |
maxidx = Int.max(max1,max2), |
2386 | 814 |
shyps = [], |
815 |
hyps = union_term(hyps1,hyps2), |
|
816 |
prop = eq$t1$t2}) |
|
2139
2c59b204b540
Only calls nodup_Vars if really necessary. We get a speedup of nearly 6%
paulson
parents:
2047
diff
changeset
|
817 |
in if max1 >= 0 andalso max2 >= 0 |
2147 | 818 |
then nodup_Vars thm "transitive" |
819 |
else thm (*no new Vars: no expensive check!*) |
|
2139
2c59b204b540
Only calls nodup_Vars if really necessary. We get a speedup of nearly 6%
paulson
parents:
2047
diff
changeset
|
820 |
end |
0 | 821 |
| _ => err"premises" |
822 |
end; |
|
823 |
||
1160 | 824 |
(*Beta-conversion: maps (%x.t)(u) to the theorem (%x.t)(u) == t[u/x] *) |
250 | 825 |
fun beta_conversion ct = |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
826 |
let val Cterm {sign_ref, t, T, maxidx} = ct |
0 | 827 |
in case t of |
1238 | 828 |
Abs(_,_,bodt) $ u => fix_shyps [] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
829 |
(Thm{sign_ref = sign_ref, |
2386 | 830 |
der = infer_derivs (Beta_conversion ct, []), |
831 |
maxidx = maxidx, |
|
832 |
shyps = [], |
|
833 |
hyps = [], |
|
834 |
prop = Logic.mk_equals(t, subst_bound (u,bodt))}) |
|
250 | 835 |
| _ => raise THM("beta_conversion: not a redex", 0, []) |
0 | 836 |
end; |
837 |
||
838 |
(*The extensionality rule (proviso: x not free in f, g, or hypotheses) |
|
1220 | 839 |
f(x) == g(x) |
840 |
------------ |
|
841 |
f == g |
|
842 |
*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
843 |
fun extensional (th as Thm{sign_ref, der, maxidx,shyps,hyps,prop}) = |
0 | 844 |
case prop of |
845 |
(Const("==",_)) $ (f$x) $ (g$y) => |
|
250 | 846 |
let fun err(msg) = raise THM("extensional: "^msg, 0, [th]) |
0 | 847 |
in (if x<>y then err"different variables" else |
848 |
case y of |
|
250 | 849 |
Free _ => |
850 |
if exists (apl(y, Logic.occs)) (f::g::hyps) |
|
851 |
then err"variable free in hyps or functions" else () |
|
852 |
| Var _ => |
|
853 |
if Logic.occs(y,f) orelse Logic.occs(y,g) |
|
854 |
then err"variable free in functions" else () |
|
855 |
| _ => err"not a variable"); |
|
1238 | 856 |
(*no fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
857 |
Thm{sign_ref = sign_ref, |
2386 | 858 |
der = infer_derivs (Extensional, [der]), |
859 |
maxidx = maxidx, |
|
860 |
shyps = shyps, |
|
861 |
hyps = hyps, |
|
1529 | 862 |
prop = Logic.mk_equals(f,g)} |
0 | 863 |
end |
864 |
| _ => raise THM("extensional: premise", 0, [th]); |
|
865 |
||
866 |
(*The abstraction rule. The Free or Var x must not be free in the hypotheses. |
|
867 |
The bound variable will be named "a" (since x will be something like x320) |
|
1220 | 868 |
t == u |
869 |
------------ |
|
870 |
%x.t == %x.u |
|
871 |
*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
872 |
fun abstract_rule a cx (th as Thm{sign_ref,der,maxidx,hyps,prop,...}) = |
229
4002c4cd450c
Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated
lcp
parents:
225
diff
changeset
|
873 |
let val x = term_of cx; |
250 | 874 |
val (t,u) = Logic.dest_equals prop |
875 |
handle TERM _ => |
|
876 |
raise THM("abstract_rule: premise not an equality", 0, [th]) |
|
1238 | 877 |
fun result T = fix_shyps [th] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
878 |
(Thm{sign_ref = sign_ref, |
2386 | 879 |
der = infer_derivs (Abstract_rule (a,cx), [der]), |
880 |
maxidx = maxidx, |
|
881 |
shyps = [], |
|
882 |
hyps = hyps, |
|
883 |
prop = Logic.mk_equals(Abs(a, T, abstract_over (x,t)), |
|
884 |
Abs(a, T, abstract_over (x,u)))}) |
|
0 | 885 |
in case x of |
250 | 886 |
Free(_,T) => |
887 |
if exists (apl(x, Logic.occs)) hyps |
|
888 |
then raise THM("abstract_rule: variable free in assumptions", 0, [th]) |
|
889 |
else result T |
|
0 | 890 |
| Var(_,T) => result T |
891 |
| _ => raise THM("abstract_rule: not a variable", 0, [th]) |
|
892 |
end; |
|
893 |
||
894 |
(*The combination rule |
|
3529 | 895 |
f == g t == u |
896 |
-------------- |
|
897 |
f(t) == g(u) |
|
1220 | 898 |
*) |
0 | 899 |
fun combination th1 th2 = |
1529 | 900 |
let val Thm{der=der1, maxidx=max1, shyps=shyps1, hyps=hyps1, |
2386 | 901 |
prop=prop1,...} = th1 |
1529 | 902 |
and Thm{der=der2, maxidx=max2, shyps=shyps2, hyps=hyps2, |
2386 | 903 |
prop=prop2,...} = th2 |
1836
861e29c7cada
Added type-checking to rule "combination". This corrects a fault
paulson
parents:
1802
diff
changeset
|
904 |
fun chktypes (f,t) = |
2386 | 905 |
(case fastype_of f of |
906 |
Type("fun",[T1,T2]) => |
|
907 |
if T1 <> fastype_of t then |
|
908 |
raise THM("combination: types", 0, [th1,th2]) |
|
909 |
else () |
|
910 |
| _ => raise THM("combination: not function type", 0, |
|
911 |
[th1,th2])) |
|
1495
b8b54847c77f
Added check for duplicate vars with distinct types/sorts (nodup_Vars)
nipkow
parents:
1493
diff
changeset
|
912 |
in case (prop1,prop2) of |
0 | 913 |
(Const("==",_) $ f $ g, Const("==",_) $ t $ u) => |
1836
861e29c7cada
Added type-checking to rule "combination". This corrects a fault
paulson
parents:
1802
diff
changeset
|
914 |
let val _ = chktypes (f,t) |
2386 | 915 |
val thm = (*no fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
916 |
Thm{sign_ref = merge_thm_sgs(th1,th2), |
2386 | 917 |
der = infer_derivs (Combination, [der1, der2]), |
918 |
maxidx = Int.max(max1,max2), |
|
919 |
shyps = union_sort(shyps1,shyps2), |
|
920 |
hyps = union_term(hyps1,hyps2), |
|
921 |
prop = Logic.mk_equals(f$t, g$u)} |
|
2139
2c59b204b540
Only calls nodup_Vars if really necessary. We get a speedup of nearly 6%
paulson
parents:
2047
diff
changeset
|
922 |
in if max1 >= 0 andalso max2 >= 0 |
2c59b204b540
Only calls nodup_Vars if really necessary. We get a speedup of nearly 6%
paulson
parents:
2047
diff
changeset
|
923 |
then nodup_Vars thm "combination" |
2386 | 924 |
else thm (*no new Vars: no expensive check!*) |
2139
2c59b204b540
Only calls nodup_Vars if really necessary. We get a speedup of nearly 6%
paulson
parents:
2047
diff
changeset
|
925 |
end |
0 | 926 |
| _ => raise THM("combination: premises", 0, [th1,th2]) |
927 |
end; |
|
928 |
||
929 |
||
930 |
(* Equality introduction |
|
3529 | 931 |
A ==> B B ==> A |
932 |
---------------- |
|
933 |
A == B |
|
1220 | 934 |
*) |
0 | 935 |
fun equal_intr th1 th2 = |
1529 | 936 |
let val Thm{der=der1,maxidx=max1, shyps=shyps1, hyps=hyps1, |
2386 | 937 |
prop=prop1,...} = th1 |
1529 | 938 |
and Thm{der=der2, maxidx=max2, shyps=shyps2, hyps=hyps2, |
2386 | 939 |
prop=prop2,...} = th2; |
1529 | 940 |
fun err(msg) = raise THM("equal_intr: "^msg, 0, [th1,th2]) |
941 |
in case (prop1,prop2) of |
|
942 |
(Const("==>",_) $ A $ B, Const("==>",_) $ B' $ A') => |
|
2386 | 943 |
if A aconv A' andalso B aconv B' |
944 |
then |
|
945 |
(*no fix_shyps*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
946 |
Thm{sign_ref = merge_thm_sgs(th1,th2), |
2386 | 947 |
der = infer_derivs (Equal_intr, [der1, der2]), |
948 |
maxidx = Int.max(max1,max2), |
|
949 |
shyps = union_sort(shyps1,shyps2), |
|
950 |
hyps = union_term(hyps1,hyps2), |
|
951 |
prop = Logic.mk_equals(A,B)} |
|
952 |
else err"not equal" |
|
1529 | 953 |
| _ => err"premises" |
954 |
end; |
|
955 |
||
956 |
||
957 |
(*The equal propositions rule |
|
3529 | 958 |
A == B A |
1529 | 959 |
--------- |
960 |
B |
|
961 |
*) |
|
962 |
fun equal_elim th1 th2 = |
|
963 |
let val Thm{der=der1, maxidx=max1, hyps=hyps1, prop=prop1,...} = th1 |
|
964 |
and Thm{der=der2, maxidx=max2, hyps=hyps2, prop=prop2,...} = th2; |
|
965 |
fun err(msg) = raise THM("equal_elim: "^msg, 0, [th1,th2]) |
|
966 |
in case prop1 of |
|
967 |
Const("==",_) $ A $ B => |
|
968 |
if not (prop2 aconv A) then err"not equal" else |
|
969 |
fix_shyps [th1, th2] [] |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
970 |
(Thm{sign_ref= merge_thm_sgs(th1,th2), |
2386 | 971 |
der = infer_derivs (Equal_elim, [der1, der2]), |
972 |
maxidx = Int.max(max1,max2), |
|
973 |
shyps = [], |
|
974 |
hyps = union_term(hyps1,hyps2), |
|
975 |
prop = B}) |
|
1529 | 976 |
| _ => err"major premise" |
977 |
end; |
|
0 | 978 |
|
1220 | 979 |
|
980 |
||
0 | 981 |
(**** Derived rules ****) |
982 |
||
1503 | 983 |
(*Discharge all hypotheses. Need not verify cterms or call fix_shyps. |
0 | 984 |
Repeated hypotheses are discharged only once; fold cannot do this*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
985 |
fun implies_intr_hyps (Thm{sign_ref, der, maxidx, shyps, hyps=A::As, prop}) = |
1238 | 986 |
implies_intr_hyps (*no fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
987 |
(Thm{sign_ref = sign_ref, |
2386 | 988 |
der = infer_derivs (Implies_intr_hyps, [der]), |
989 |
maxidx = maxidx, |
|
990 |
shyps = shyps, |
|
1529 | 991 |
hyps = disch(As,A), |
2386 | 992 |
prop = implies$A$prop}) |
0 | 993 |
| implies_intr_hyps th = th; |
994 |
||
995 |
(*Smash" unifies the list of term pairs leaving no flex-flex pairs. |
|
250 | 996 |
Instantiates the theorem and deletes trivial tpairs. |
0 | 997 |
Resulting sequence may contain multiple elements if the tpairs are |
998 |
not all flex-flex. *) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
999 |
fun flexflex_rule (th as Thm{sign_ref, der, maxidx, hyps, prop,...}) = |
250 | 1000 |
let fun newthm env = |
1529 | 1001 |
if Envir.is_empty env then th |
1002 |
else |
|
250 | 1003 |
let val (tpairs,horn) = |
1004 |
Logic.strip_flexpairs (Envir.norm_term env prop) |
|
1005 |
(*Remove trivial tpairs, of the form t=t*) |
|
1006 |
val distpairs = filter (not o op aconv) tpairs |
|
1007 |
val newprop = Logic.list_flexpairs(distpairs, horn) |
|
1220 | 1008 |
in fix_shyps [th] (env_codT env) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1009 |
(Thm{sign_ref = sign_ref, |
2386 | 1010 |
der = infer_derivs (Flexflex_rule env, [der]), |
1011 |
maxidx = maxidx_of_term newprop, |
|
1012 |
shyps = [], |
|
1013 |
hyps = hyps, |
|
1014 |
prop = newprop}) |
|
250 | 1015 |
end; |
0 | 1016 |
val (tpairs,_) = Logic.strip_flexpairs prop |
1017 |
in Sequence.maps newthm |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1018 |
(Unify.smash_unifiers(Sign.deref sign_ref, Envir.empty maxidx, tpairs)) |
0 | 1019 |
end; |
1020 |
||
1021 |
(*Instantiation of Vars |
|
1220 | 1022 |
A |
1023 |
------------------- |
|
1024 |
A[t1/v1,....,tn/vn] |
|
1025 |
*) |
|
0 | 1026 |
|
1027 |
(*Check that all the terms are Vars and are distinct*) |
|
1028 |
fun instl_ok ts = forall is_Var ts andalso null(findrep ts); |
|
1029 |
||
1030 |
(*For instantiate: process pair of cterms, merge theories*) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1031 |
fun add_ctpair ((ct,cu), (sign_ref,tpairs)) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1032 |
let val Cterm {sign_ref=sign_reft, t=t, T= T, ...} = ct |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1033 |
and Cterm {sign_ref=sign_refu, t=u, T= U, ...} = cu |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1034 |
in |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1035 |
if T=U then |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1036 |
(Sign.merge_refs (sign_ref, Sign.merge_refs (sign_reft, sign_refu)), (t,u)::tpairs) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1037 |
else raise TYPE("add_ctpair", [T,U], [t,u]) |
0 | 1038 |
end; |
1039 |
||
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1040 |
fun add_ctyp ((v,ctyp), (sign_ref',vTs)) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1041 |
let val Ctyp {T,sign_ref} = ctyp |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1042 |
in (Sign.merge_refs(sign_ref,sign_ref'), (v,T)::vTs) end; |
0 | 1043 |
|
1044 |
(*Left-to-right replacements: ctpairs = [...,(vi,ti),...]. |
|
1045 |
Instantiates distinct Vars by terms of same type. |
|
1046 |
Normalizes the new theorem! *) |
|
1529 | 1047 |
fun instantiate ([], []) th = th |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1048 |
| instantiate (vcTs,ctpairs) (th as Thm{sign_ref,der,maxidx,hyps,prop,...}) = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1049 |
let val (newsign_ref,tpairs) = foldr add_ctpair (ctpairs, (sign_ref,[])); |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1050 |
val (newsign_ref,vTs) = foldr add_ctyp (vcTs, (newsign_ref,[])); |
250 | 1051 |
val newprop = |
1052 |
Envir.norm_term (Envir.empty 0) |
|
1053 |
(subst_atomic tpairs |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1054 |
(Type.inst_term_tvars(Sign.tsig_of (Sign.deref newsign_ref),vTs) prop)) |
1220 | 1055 |
val newth = |
1056 |
fix_shyps [th] (map snd vTs) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1057 |
(Thm{sign_ref = newsign_ref, |
2386 | 1058 |
der = infer_derivs (Instantiate(vcTs,ctpairs), [der]), |
1059 |
maxidx = maxidx_of_term newprop, |
|
1060 |
shyps = [], |
|
1061 |
hyps = hyps, |
|
1062 |
prop = newprop}) |
|
250 | 1063 |
in if not(instl_ok(map #1 tpairs)) |
193 | 1064 |
then raise THM("instantiate: variables not distinct", 0, [th]) |
1065 |
else if not(null(findrep(map #1 vTs))) |
|
1066 |
then raise THM("instantiate: type variables not distinct", 0, [th]) |
|
2147 | 1067 |
else nodup_Vars newth "instantiate" |
0 | 1068 |
end |
250 | 1069 |
handle TERM _ => |
0 | 1070 |
raise THM("instantiate: incompatible signatures",0,[th]) |
2671 | 1071 |
| TYPE (msg,_,_) => raise THM("instantiate: type conflict: " ^ msg, |
1072 |
0, [th]); |
|
0 | 1073 |
|
1074 |
(*The trivial implication A==>A, justified by assume and forall rules. |
|
1075 |
A can contain Vars, not so for assume! *) |
|
250 | 1076 |
fun trivial ct : thm = |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1077 |
let val Cterm {sign_ref, t=A, T, maxidx} = ct |
250 | 1078 |
in if T<>propT then |
1079 |
raise THM("trivial: the term must have type prop", 0, []) |
|
1238 | 1080 |
else fix_shyps [] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1081 |
(Thm{sign_ref = sign_ref, |
2386 | 1082 |
der = infer_derivs (Trivial ct, []), |
1083 |
maxidx = maxidx, |
|
1084 |
shyps = [], |
|
1085 |
hyps = [], |
|
1086 |
prop = implies$A$A}) |
|
0 | 1087 |
end; |
1088 |
||
1503 | 1089 |
(*Axiom-scheme reflecting signature contents: "OFCLASS(?'a::c, c_class)" *) |
399
86cc2b98f9e0
added class_triv: theory -> class -> thm (for axclasses);
wenzelm
parents:
387
diff
changeset
|
1090 |
fun class_triv thy c = |
1529 | 1091 |
let val sign = sign_of thy; |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1092 |
val Cterm {sign_ref, t, maxidx, ...} = |
2386 | 1093 |
cterm_of sign (Logic.mk_inclass (TVar (("'a", 0), [c]), c)) |
1094 |
handle TERM (msg, _) => raise THM ("class_triv: " ^ msg, 0, []); |
|
399
86cc2b98f9e0
added class_triv: theory -> class -> thm (for axclasses);
wenzelm
parents:
387
diff
changeset
|
1095 |
in |
1238 | 1096 |
fix_shyps [] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1097 |
(Thm {sign_ref = sign_ref, |
4182 | 1098 |
der = infer_derivs (Class_triv c, []), |
2386 | 1099 |
maxidx = maxidx, |
1100 |
shyps = [], |
|
1101 |
hyps = [], |
|
1102 |
prop = t}) |
|
399
86cc2b98f9e0
added class_triv: theory -> class -> thm (for axclasses);
wenzelm
parents:
387
diff
changeset
|
1103 |
end; |
86cc2b98f9e0
added class_triv: theory -> class -> thm (for axclasses);
wenzelm
parents:
387
diff
changeset
|
1104 |
|
86cc2b98f9e0
added class_triv: theory -> class -> thm (for axclasses);
wenzelm
parents:
387
diff
changeset
|
1105 |
|
0 | 1106 |
(* Replace all TFrees not in the hyps by new TVars *) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1107 |
fun varifyT(Thm{sign_ref,der,maxidx,shyps,hyps,prop}) = |
0 | 1108 |
let val tfrees = foldr add_term_tfree_names (hyps,[]) |
1634 | 1109 |
in let val thm = (*no fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1110 |
Thm{sign_ref = sign_ref, |
2386 | 1111 |
der = infer_derivs (VarifyT, [der]), |
1112 |
maxidx = Int.max(0,maxidx), |
|
1113 |
shyps = shyps, |
|
1114 |
hyps = hyps, |
|
1529 | 1115 |
prop = Type.varify(prop,tfrees)} |
2147 | 1116 |
in nodup_Vars thm "varifyT" end |
1634 | 1117 |
(* this nodup_Vars check can be removed if thms are guaranteed not to contain |
1118 |
duplicate TVars with differnt sorts *) |
|
0 | 1119 |
end; |
1120 |
||
1121 |
(* Replace all TVars by new TFrees *) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1122 |
fun freezeT(Thm{sign_ref,der,maxidx,shyps,hyps,prop}) = |
3410 | 1123 |
let val (prop',_) = Type.freeze_thaw prop |
1238 | 1124 |
in (*no fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1125 |
Thm{sign_ref = sign_ref, |
2386 | 1126 |
der = infer_derivs (FreezeT, [der]), |
1127 |
maxidx = maxidx_of_term prop', |
|
1128 |
shyps = shyps, |
|
1129 |
hyps = hyps, |
|
1529 | 1130 |
prop = prop'} |
1220 | 1131 |
end; |
0 | 1132 |
|
1133 |
||
1134 |
(*** Inference rules for tactics ***) |
|
1135 |
||
1136 |
(*Destruct proof state into constraints, other goals, goal(i), rest *) |
|
1137 |
fun dest_state (state as Thm{prop,...}, i) = |
|
1138 |
let val (tpairs,horn) = Logic.strip_flexpairs prop |
|
1139 |
in case Logic.strip_prems(i, [], horn) of |
|
1140 |
(B::rBs, C) => (tpairs, rev rBs, B, C) |
|
1141 |
| _ => raise THM("dest_state", i, [state]) |
|
1142 |
end |
|
1143 |
handle TERM _ => raise THM("dest_state", i, [state]); |
|
1144 |
||
309 | 1145 |
(*Increment variables and parameters of orule as required for |
0 | 1146 |
resolution with goal i of state. *) |
1147 |
fun lift_rule (state, i) orule = |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1148 |
let val Thm{shyps=sshyps, prop=sprop, maxidx=smax, sign_ref=ssign_ref,...} = state |
0 | 1149 |
val (Bi::_, _) = Logic.strip_prems(i, [], Logic.skip_flexpairs sprop) |
1529 | 1150 |
handle TERM _ => raise THM("lift_rule", i, [orule,state]) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1151 |
val ct_Bi = Cterm {sign_ref=ssign_ref, maxidx=smax, T=propT, t=Bi} |
1529 | 1152 |
val (lift_abs,lift_all) = Logic.lift_fns(Bi,smax+1) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1153 |
val (Thm{sign_ref, der, maxidx,shyps,hyps,prop}) = orule |
0 | 1154 |
val (tpairs,As,B) = Logic.strip_horn prop |
1238 | 1155 |
in (*no fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1156 |
Thm{sign_ref = merge_thm_sgs(state,orule), |
2386 | 1157 |
der = infer_derivs (Lift_rule(ct_Bi, i), [der]), |
1158 |
maxidx = maxidx+smax+1, |
|
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
1159 |
shyps=union_sort(sshyps,shyps), |
2386 | 1160 |
hyps=hyps, |
1529 | 1161 |
prop = Logic.rule_of (map (pairself lift_abs) tpairs, |
2386 | 1162 |
map lift_all As, |
1163 |
lift_all B)} |
|
0 | 1164 |
end; |
1165 |
||
1166 |
(*Solve subgoal Bi of proof state B1...Bn/C by assumption. *) |
|
1167 |
fun assumption i state = |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1168 |
let val Thm{sign_ref,der,maxidx,hyps,prop,...} = state; |
0 | 1169 |
val (tpairs, Bs, Bi, C) = dest_state(state,i) |
250 | 1170 |
fun newth (env as Envir.Envir{maxidx, ...}, tpairs) = |
1220 | 1171 |
fix_shyps [state] (env_codT env) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1172 |
(Thm{sign_ref = sign_ref, |
2386 | 1173 |
der = infer_derivs (Assumption (i, Some env), [der]), |
1174 |
maxidx = maxidx, |
|
1175 |
shyps = [], |
|
1176 |
hyps = hyps, |
|
1177 |
prop = |
|
1178 |
if Envir.is_empty env then (*avoid wasted normalizations*) |
|
1179 |
Logic.rule_of (tpairs, Bs, C) |
|
1180 |
else (*normalize the new rule fully*) |
|
1181 |
Envir.norm_term env (Logic.rule_of (tpairs, Bs, C))}); |
|
0 | 1182 |
fun addprfs [] = Sequence.null |
1183 |
| addprfs ((t,u)::apairs) = Sequence.seqof (fn()=> Sequence.pull |
|
1184 |
(Sequence.mapp newth |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1185 |
(Unify.unifiers(Sign.deref sign_ref,Envir.empty maxidx, (t,u)::tpairs)) |
250 | 1186 |
(addprfs apairs))) |
0 | 1187 |
in addprfs (Logic.assum_pairs Bi) end; |
1188 |
||
250 | 1189 |
(*Solve subgoal Bi of proof state B1...Bn/C by assumption. |
0 | 1190 |
Checks if Bi's conclusion is alpha-convertible to one of its assumptions*) |
1191 |
fun eq_assumption i state = |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1192 |
let val Thm{sign_ref,der,maxidx,hyps,prop,...} = state; |
0 | 1193 |
val (tpairs, Bs, Bi, C) = dest_state(state,i) |
1194 |
in if exists (op aconv) (Logic.assum_pairs Bi) |
|
1220 | 1195 |
then fix_shyps [state] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1196 |
(Thm{sign_ref = sign_ref, |
2386 | 1197 |
der = infer_derivs (Assumption (i,None), [der]), |
1198 |
maxidx = maxidx, |
|
1199 |
shyps = [], |
|
1200 |
hyps = hyps, |
|
1201 |
prop = Logic.rule_of(tpairs, Bs, C)}) |
|
0 | 1202 |
else raise THM("eq_assumption", 0, [state]) |
1203 |
end; |
|
1204 |
||
1205 |
||
2671 | 1206 |
(*For rotate_tac: fast rotation of assumptions of subgoal i*) |
1207 |
fun rotate_rule k i state = |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1208 |
let val Thm{sign_ref,der,maxidx,hyps,prop,shyps} = state; |
2671 | 1209 |
val (tpairs, Bs, Bi, C) = dest_state(state,i) |
1210 |
val params = Logic.strip_params Bi |
|
1211 |
and asms = Logic.strip_assums_hyp Bi |
|
1212 |
and concl = Logic.strip_assums_concl Bi |
|
1213 |
val n = length asms |
|
1214 |
fun rot m = if 0=m orelse m=n then Bi |
|
1215 |
else if 0<m andalso m<n |
|
1216 |
then list_all |
|
1217 |
(params, |
|
1218 |
Logic.list_implies(List.drop(asms, m) @ |
|
1219 |
List.take(asms, m), |
|
1220 |
concl)) |
|
1221 |
else raise THM("rotate_rule", m, [state]) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1222 |
in Thm{sign_ref = sign_ref, |
2671 | 1223 |
der = infer_derivs (Rotate_rule (k,i), [der]), |
1224 |
maxidx = maxidx, |
|
1225 |
shyps = shyps, |
|
1226 |
hyps = hyps, |
|
1227 |
prop = Logic.rule_of(tpairs, Bs@[rot (if k<0 then n+k else k)], C)} |
|
1228 |
end; |
|
1229 |
||
1230 |
||
0 | 1231 |
(** User renaming of parameters in a subgoal **) |
1232 |
||
1233 |
(*Calls error rather than raising an exception because it is intended |
|
1234 |
for top-level use -- exception handling would not make sense here. |
|
1235 |
The names in cs, if distinct, are used for the innermost parameters; |
|
1236 |
preceding parameters may be renamed to make all params distinct.*) |
|
1237 |
fun rename_params_rule (cs, i) state = |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1238 |
let val Thm{sign_ref,der,maxidx,hyps,...} = state |
0 | 1239 |
val (tpairs, Bs, Bi, C) = dest_state(state,i) |
1240 |
val iparams = map #1 (Logic.strip_params Bi) |
|
1241 |
val short = length iparams - length cs |
|
250 | 1242 |
val newnames = |
1243 |
if short<0 then error"More names than abstractions!" |
|
1244 |
else variantlist(take (short,iparams), cs) @ cs |
|
3037
99ed078e6ae7
rename_params_rule used to check if the new name clashed with a free name in
nipkow
parents:
3012
diff
changeset
|
1245 |
val freenames = map (#1 o dest_Free) (term_frees Bi) |
0 | 1246 |
val newBi = Logic.list_rename_params (newnames, Bi) |
250 | 1247 |
in |
0 | 1248 |
case findrep cs of |
3565
c64410e701fb
Now rename_params_rule merely issues warnings--and does nothing--if the
paulson
parents:
3558
diff
changeset
|
1249 |
c::_ => (warning ("Can't rename. Bound variables not distinct: " ^ c); |
c64410e701fb
Now rename_params_rule merely issues warnings--and does nothing--if the
paulson
parents:
3558
diff
changeset
|
1250 |
state) |
1576
af8f43f742a0
Added some optimized versions of functions dealing with sets
berghofe
parents:
1569
diff
changeset
|
1251 |
| [] => (case cs inter_string freenames of |
3565
c64410e701fb
Now rename_params_rule merely issues warnings--and does nothing--if the
paulson
parents:
3558
diff
changeset
|
1252 |
a::_ => (warning ("Can't rename. Bound/Free variable clash: " ^ a); |
c64410e701fb
Now rename_params_rule merely issues warnings--and does nothing--if the
paulson
parents:
3558
diff
changeset
|
1253 |
state) |
1220 | 1254 |
| [] => fix_shyps [state] [] |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1255 |
(Thm{sign_ref = sign_ref, |
2386 | 1256 |
der = infer_derivs (Rename_params_rule(cs,i), [der]), |
1257 |
maxidx = maxidx, |
|
1258 |
shyps = [], |
|
1259 |
hyps = hyps, |
|
1260 |
prop = Logic.rule_of(tpairs, Bs@[newBi], C)})) |
|
0 | 1261 |
end; |
1262 |
||
1263 |
(*** Preservation of bound variable names ***) |
|
1264 |
||
250 | 1265 |
(*Scan a pair of terms; while they are similar, |
0 | 1266 |
accumulate corresponding bound vars in "al"*) |
1238 | 1267 |
fun match_bvs(Abs(x,_,s),Abs(y,_,t), al) = |
1195
686e3eb613b9
match_bvs no longer puts a name in the alist if it is null ("")
lcp
parents:
1160
diff
changeset
|
1268 |
match_bvs(s, t, if x="" orelse y="" then al |
1238 | 1269 |
else (x,y)::al) |
0 | 1270 |
| match_bvs(f$s, g$t, al) = match_bvs(f,g,match_bvs(s,t,al)) |
1271 |
| match_bvs(_,_,al) = al; |
|
1272 |
||
1273 |
(* strip abstractions created by parameters *) |
|
1274 |
fun match_bvars((s,t),al) = match_bvs(strip_abs_body s, strip_abs_body t, al); |
|
1275 |
||
1276 |
||
250 | 1277 |
(* strip_apply f A(,B) strips off all assumptions/parameters from A |
0 | 1278 |
introduced by lifting over B, and applies f to remaining part of A*) |
1279 |
fun strip_apply f = |
|
1280 |
let fun strip(Const("==>",_)$ A1 $ B1, |
|
250 | 1281 |
Const("==>",_)$ _ $ B2) = implies $ A1 $ strip(B1,B2) |
1282 |
| strip((c as Const("all",_)) $ Abs(a,T,t1), |
|
1283 |
Const("all",_) $ Abs(_,_,t2)) = c$Abs(a,T,strip(t1,t2)) |
|
1284 |
| strip(A,_) = f A |
|
0 | 1285 |
in strip end; |
1286 |
||
1287 |
(*Use the alist to rename all bound variables and some unknowns in a term |
|
1288 |
dpairs = current disagreement pairs; tpairs = permanent ones (flexflex); |
|
1289 |
Preserves unknowns in tpairs and on lhs of dpairs. *) |
|
1290 |
fun rename_bvs([],_,_,_) = I |
|
1291 |
| rename_bvs(al,dpairs,tpairs,B) = |
|
250 | 1292 |
let val vars = foldr add_term_vars |
1293 |
(map fst dpairs @ map fst tpairs @ map snd tpairs, []) |
|
1294 |
(*unknowns appearing elsewhere be preserved!*) |
|
1295 |
val vids = map (#1 o #1 o dest_Var) vars; |
|
1296 |
fun rename(t as Var((x,i),T)) = |
|
1297 |
(case assoc(al,x) of |
|
1576
af8f43f742a0
Added some optimized versions of functions dealing with sets
berghofe
parents:
1569
diff
changeset
|
1298 |
Some(y) => if x mem_string vids orelse y mem_string vids then t |
250 | 1299 |
else Var((y,i),T) |
1300 |
| None=> t) |
|
0 | 1301 |
| rename(Abs(x,T,t)) = |
1576
af8f43f742a0
Added some optimized versions of functions dealing with sets
berghofe
parents:
1569
diff
changeset
|
1302 |
Abs(case assoc_string(al,x) of Some(y) => y | None => x, |
250 | 1303 |
T, rename t) |
0 | 1304 |
| rename(f$t) = rename f $ rename t |
1305 |
| rename(t) = t; |
|
250 | 1306 |
fun strip_ren Ai = strip_apply rename (Ai,B) |
0 | 1307 |
in strip_ren end; |
1308 |
||
1309 |
(*Function to rename bounds/unknowns in the argument, lifted over B*) |
|
1310 |
fun rename_bvars(dpairs, tpairs, B) = |
|
250 | 1311 |
rename_bvs(foldr match_bvars (dpairs,[]), dpairs, tpairs, B); |
0 | 1312 |
|
1313 |
||
1314 |
(*** RESOLUTION ***) |
|
1315 |
||
721
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1316 |
(** Lifting optimizations **) |
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1317 |
|
0 | 1318 |
(*strip off pairs of assumptions/parameters in parallel -- they are |
1319 |
identical because of lifting*) |
|
250 | 1320 |
fun strip_assums2 (Const("==>", _) $ _ $ B1, |
1321 |
Const("==>", _) $ _ $ B2) = strip_assums2 (B1,B2) |
|
0 | 1322 |
| strip_assums2 (Const("all",_)$Abs(a,T,t1), |
250 | 1323 |
Const("all",_)$Abs(_,_,t2)) = |
0 | 1324 |
let val (B1,B2) = strip_assums2 (t1,t2) |
1325 |
in (Abs(a,T,B1), Abs(a,T,B2)) end |
|
1326 |
| strip_assums2 BB = BB; |
|
1327 |
||
1328 |
||
721
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1329 |
(*Faster normalization: skip assumptions that were lifted over*) |
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1330 |
fun norm_term_skip env 0 t = Envir.norm_term env t |
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1331 |
| norm_term_skip env n (Const("all",_)$Abs(a,T,t)) = |
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1332 |
let val Envir.Envir{iTs, ...} = env |
1238 | 1333 |
val T' = typ_subst_TVars iTs T |
1334 |
(*Must instantiate types of parameters because they are flattened; |
|
721
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1335 |
this could be a NEW parameter*) |
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1336 |
in all T' $ Abs(a, T', norm_term_skip env n t) end |
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1337 |
| norm_term_skip env n (Const("==>", _) $ A $ B) = |
1238 | 1338 |
implies $ A $ norm_term_skip env (n-1) B |
721
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1339 |
| norm_term_skip env n t = error"norm_term_skip: too few assumptions??"; |
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1340 |
|
479832ff2d29
Pure/thm/norm_term_skip: new, for skipping normalization of the context
lcp
parents:
678
diff
changeset
|
1341 |
|
0 | 1342 |
(*Composition of object rule r=(A1...Am/B) with proof state s=(B1...Bn/C) |
250 | 1343 |
Unifies B with Bi, replacing subgoal i (1 <= i <= n) |
0 | 1344 |
If match then forbid instantiations in proof state |
1345 |
If lifted then shorten the dpair using strip_assums2. |
|
1346 |
If eres_flg then simultaneously proves A1 by assumption. |
|
250 | 1347 |
nsubgoal is the number of new subgoals (written m above). |
0 | 1348 |
Curried so that resolution calls dest_state only once. |
1349 |
*) |
|
1529 | 1350 |
local open Sequence; exception COMPOSE |
0 | 1351 |
in |
250 | 1352 |
fun bicompose_aux match (state, (stpairs, Bs, Bi, C), lifted) |
0 | 1353 |
(eres_flg, orule, nsubgoal) = |
1529 | 1354 |
let val Thm{der=sder, maxidx=smax, shyps=sshyps, hyps=shyps, ...} = state |
1355 |
and Thm{der=rder, maxidx=rmax, shyps=rshyps, hyps=rhyps, |
|
2386 | 1356 |
prop=rprop,...} = orule |
1529 | 1357 |
(*How many hyps to skip over during normalization*) |
1238 | 1358 |
and nlift = Logic.count_prems(strip_all_body Bi, |
1359 |
if eres_flg then ~1 else 0) |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1360 |
val sign_ref = merge_thm_sgs(state,orule); |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1361 |
val sign = Sign.deref sign_ref; |
0 | 1362 |
(** Add new theorem with prop = '[| Bs; As |] ==> C' to thq **) |
250 | 1363 |
fun addth As ((env as Envir.Envir {maxidx, ...}, tpairs), thq) = |
1364 |
let val normt = Envir.norm_term env; |
|
1365 |
(*perform minimal copying here by examining env*) |
|
1366 |
val normp = |
|
1367 |
if Envir.is_empty env then (tpairs, Bs @ As, C) |
|
1368 |
else |
|
1369 |
let val ntps = map (pairself normt) tpairs |
|
2147 | 1370 |
in if Envir.above (smax, env) then |
1238 | 1371 |
(*no assignments in state; normalize the rule only*) |
1372 |
if lifted |
|
1373 |
then (ntps, Bs @ map (norm_term_skip env nlift) As, C) |
|
1374 |
else (ntps, Bs @ map normt As, C) |
|
1529 | 1375 |
else if match then raise COMPOSE |
250 | 1376 |
else (*normalize the new rule fully*) |
1377 |
(ntps, map normt (Bs @ As), normt C) |
|
1378 |
end |
|
1258 | 1379 |
val th = (*tuned fix_shyps*) |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1380 |
Thm{sign_ref = sign_ref, |
2386 | 1381 |
der = infer_derivs (Bicompose(match, eres_flg, |
1382 |
1 + length Bs, nsubgoal, env), |
|
1383 |
[rder,sder]), |
|
1384 |
maxidx = maxidx, |
|
1385 |
shyps = add_env_sorts (env, union_sort(rshyps,sshyps)), |
|
1386 |
hyps = union_term(rhyps,shyps), |
|
1387 |
prop = Logic.rule_of normp} |
|
1529 | 1388 |
in cons(th, thq) end handle COMPOSE => thq |
0 | 1389 |
val (rtpairs,rhorn) = Logic.strip_flexpairs(rprop); |
1390 |
val (rAs,B) = Logic.strip_prems(nsubgoal, [], rhorn) |
|
1391 |
handle TERM _ => raise THM("bicompose: rule", 0, [orule,state]); |
|
1392 |
(*Modify assumptions, deleting n-th if n>0 for e-resolution*) |
|
1393 |
fun newAs(As0, n, dpairs, tpairs) = |
|
1394 |
let val As1 = if !Logic.auto_rename orelse not lifted then As0 |
|
250 | 1395 |
else map (rename_bvars(dpairs,tpairs,B)) As0 |
0 | 1396 |
in (map (Logic.flatten_params n) As1) |
250 | 1397 |
handle TERM _ => |
1398 |
raise THM("bicompose: 1st premise", 0, [orule]) |
|
0 | 1399 |
end; |
2147 | 1400 |
val env = Envir.empty(Int.max(rmax,smax)); |
0 | 1401 |
val BBi = if lifted then strip_assums2(B,Bi) else (B,Bi); |
1402 |
val dpairs = BBi :: (rtpairs@stpairs); |
|
1403 |
(*elim-resolution: try each assumption in turn. Initially n=1*) |
|
1404 |
fun tryasms (_, _, []) = null |
|
1405 |
| tryasms (As, n, (t,u)::apairs) = |
|
250 | 1406 |
(case pull(Unify.unifiers(sign, env, (t,u)::dpairs)) of |
1407 |
None => tryasms (As, n+1, apairs) |
|
1408 |
| cell as Some((_,tpairs),_) => |
|
1409 |
its_right (addth (newAs(As, n, [BBi,(u,t)], tpairs))) |
|
1410 |
(seqof (fn()=> cell), |
|
1411 |
seqof (fn()=> pull (tryasms (As, n+1, apairs))))); |
|
0 | 1412 |
fun eres [] = raise THM("bicompose: no premises", 0, [orule,state]) |
1413 |
| eres (A1::As) = tryasms (As, 1, Logic.assum_pairs A1); |
|
1414 |
(*ordinary resolution*) |
|
1415 |
fun res(None) = null |
|
250 | 1416 |
| res(cell as Some((_,tpairs),_)) = |
1417 |
its_right (addth(newAs(rev rAs, 0, [BBi], tpairs))) |
|
1418 |
(seqof (fn()=> cell), null) |
|
0 | 1419 |
in if eres_flg then eres(rev rAs) |
1420 |
else res(pull(Unify.unifiers(sign, env, dpairs))) |
|
1421 |
end; |
|
1422 |
end; (*open Sequence*) |
|
1423 |
||
1424 |
||
1425 |
fun bicompose match arg i state = |
|
1426 |
bicompose_aux match (state, dest_state(state,i), false) arg; |
|
1427 |
||
1428 |
(*Quick test whether rule is resolvable with the subgoal with hyps Hs |
|
1429 |
and conclusion B. If eres_flg then checks 1st premise of rule also*) |
|
1430 |
fun could_bires (Hs, B, eres_flg, rule) = |
|
1431 |
let fun could_reshyp (A1::_) = exists (apl(A1,could_unify)) Hs |
|
250 | 1432 |
| could_reshyp [] = false; (*no premise -- illegal*) |
1433 |
in could_unify(concl_of rule, B) andalso |
|
1434 |
(not eres_flg orelse could_reshyp (prems_of rule)) |
|
0 | 1435 |
end; |
1436 |
||
1437 |
(*Bi-resolution of a state with a list of (flag,rule) pairs. |
|
1438 |
Puts the rule above: rule/state. Renames vars in the rules. *) |
|
250 | 1439 |
fun biresolution match brules i state = |
0 | 1440 |
let val lift = lift_rule(state, i); |
250 | 1441 |
val (stpairs, Bs, Bi, C) = dest_state(state,i) |
1442 |
val B = Logic.strip_assums_concl Bi; |
|
1443 |
val Hs = Logic.strip_assums_hyp Bi; |
|
1444 |
val comp = bicompose_aux match (state, (stpairs, Bs, Bi, C), true); |
|
1445 |
fun res [] = Sequence.null |
|
1446 |
| res ((eres_flg, rule)::brules) = |
|
1447 |
if could_bires (Hs, B, eres_flg, rule) |
|
1160 | 1448 |
then Sequence.seqof (*delay processing remainder till needed*) |
250 | 1449 |
(fn()=> Some(comp (eres_flg, lift rule, nprems_of rule), |
1450 |
res brules)) |
|
1451 |
else res brules |
|
0 | 1452 |
in Sequence.flats (res brules) end; |
1453 |
||
1454 |
||
1455 |
||
2509 | 1456 |
(*** Meta Simplification ***) |
0 | 1457 |
|
2509 | 1458 |
(** diagnostics **) |
0 | 1459 |
|
1460 |
exception SIMPLIFIER of string * thm; |
|
1461 |
||
4045 | 1462 |
fun prnt warn a = if warn then warning a else writeln a; |
1463 |
||
1464 |
fun prtm warn a sign t = |
|
1465 |
(prnt warn a; prnt warn (Sign.string_of_term sign t)); |
|
1580
e3fd931e6095
Added some functions which allow redirection of Isabelle's output
berghofe
parents:
1576
diff
changeset
|
1466 |
|
209 | 1467 |
val trace_simp = ref false; |
1468 |
||
4045 | 1469 |
fun trace warn a = if !trace_simp then prnt warn a else (); |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1470 |
|
4045 | 1471 |
fun trace_term warn a sign t = |
1472 |
if !trace_simp then prtm warn a sign t else (); |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1473 |
|
4045 | 1474 |
fun trace_thm warn a (thm as Thm{sign_ref, prop, ...}) = |
1475 |
(trace_term warn a (Sign.deref sign_ref) prop); |
|
209 | 1476 |
|
1477 |
||
1580
e3fd931e6095
Added some functions which allow redirection of Isabelle's output
berghofe
parents:
1576
diff
changeset
|
1478 |
|
2509 | 1479 |
(** meta simp sets **) |
1480 |
||
1481 |
(* basic components *) |
|
1580
e3fd931e6095
Added some functions which allow redirection of Isabelle's output
berghofe
parents:
1576
diff
changeset
|
1482 |
|
2509 | 1483 |
type rrule = {thm: thm, lhs: term, perm: bool}; |
1484 |
type cong = {thm: thm, lhs: term}; |
|
3577
9715b6e3ec5f
added prems argument to simplification procedures;
wenzelm
parents:
3565
diff
changeset
|
1485 |
type simproc = |
9715b6e3ec5f
added prems argument to simplification procedures;
wenzelm
parents:
3565
diff
changeset
|
1486 |
{name: string, proc: Sign.sg -> thm list -> term -> thm option, lhs: cterm, id: stamp}; |
288
b00ce6a1fe27
Implemented "ordered rewriting": rules which merely permute variables, such
nipkow
parents:
274
diff
changeset
|
1487 |
|
3550 | 1488 |
fun eq_rrule ({thm = Thm {prop = p1, ...}, ...}: rrule, |
2509 | 1489 |
{thm = Thm {prop = p2, ...}, ...}: rrule) = p1 aconv p2; |
1490 |
||
3550 | 1491 |
fun eq_cong ({thm = Thm {prop = p1, ...}, ...}: cong, |
1492 |
{thm = Thm {prop = p2, ...}, ...}: cong) = p1 aconv p2; |
|
1493 |
||
1494 |
fun eq_prem (Thm {prop = p1, ...}, Thm {prop = p2, ...}) = p1 aconv p2; |
|
1495 |
||
1496 |
fun eq_simproc ({id = s1, ...}:simproc, {id = s2, ...}:simproc) = (s1 = s2); |
|
1497 |
||
1498 |
fun mk_simproc (name, proc, lhs, id) = |
|
1499 |
{name = name, proc = proc, lhs = lhs, id = id}; |
|
2509 | 1500 |
|
1501 |
||
1502 |
(* datatype mss *) |
|
288
b00ce6a1fe27
Implemented "ordered rewriting": rules which merely permute variables, such
nipkow
parents:
274
diff
changeset
|
1503 |
|
2509 | 1504 |
(* |
1505 |
A "mss" contains data needed during conversion: |
|
1506 |
rules: discrimination net of rewrite rules; |
|
1507 |
congs: association list of congruence rules; |
|
1508 |
procs: discrimination net of simplification procedures |
|
1509 |
(functions that prove rewrite rules on the fly); |
|
1510 |
bounds: names of bound variables already used |
|
1511 |
(for generating new names when rewriting under lambda abstractions); |
|
1512 |
prems: current premises; |
|
1513 |
mk_rews: turns simplification thms into rewrite rules; |
|
1514 |
termless: relation for ordered rewriting; |
|
1028 | 1515 |
*) |
0 | 1516 |
|
2509 | 1517 |
datatype meta_simpset = |
1518 |
Mss of { |
|
1519 |
rules: rrule Net.net, |
|
1520 |
congs: (string * cong) list, |
|
1521 |
procs: simproc Net.net, |
|
1522 |
bounds: string list, |
|
1523 |
prems: thm list, |
|
1524 |
mk_rews: thm -> thm list, |
|
1525 |
termless: term * term -> bool}; |
|
1526 |
||
1527 |
fun mk_mss (rules, congs, procs, bounds, prems, mk_rews, termless) = |
|
1528 |
Mss {rules = rules, congs = congs, procs = procs, bounds = bounds, |
|
1529 |
prems = prems, mk_rews = mk_rews, termless = termless}; |
|
1530 |
||
1531 |
val empty_mss = |
|
1532 |
mk_mss (Net.empty, [], Net.empty, [], [], K [], Logic.termless); |
|
1533 |
||
1534 |
||
1535 |
||
1536 |
(** simpset operations **) |
|
1537 |
||
3550 | 1538 |
(* dest_mss *) |
1539 |
||
1540 |
fun dest_mss (Mss {rules, congs, procs, ...}) = |
|
1541 |
{simps = map (fn (_, {thm, ...}) => thm) (Net.dest rules), |
|
1542 |
congs = map (fn (_, {thm, ...}) => thm) congs, |
|
1543 |
procs = |
|
1544 |
map (fn (_, {name, lhs, id, ...}) => ((name, lhs), id)) (Net.dest procs) |
|
1545 |
|> partition_eq eq_snd |
|
1546 |
|> map (fn ps => (#1 (#1 (hd ps)), map (#2 o #1) ps))}; |
|
1547 |
||
1548 |
||
1549 |
(* merge_mss *) (*NOTE: ignores mk_rews and termless of 2nd mss*) |
|
1550 |
||
1551 |
fun merge_mss |
|
1552 |
(Mss {rules = rules1, congs = congs1, procs = procs1, bounds = bounds1, |
|
1553 |
prems = prems1, mk_rews, termless}, |
|
1554 |
Mss {rules = rules2, congs = congs2, procs = procs2, bounds = bounds2, |
|
1555 |
prems = prems2, ...}) = |
|
1556 |
mk_mss |
|
1557 |
(Net.merge (rules1, rules2, eq_rrule), |
|
1558 |
generic_merge (eq_cong o pairself snd) I I congs1 congs2, |
|
1559 |
Net.merge (procs1, procs2, eq_simproc), |
|
1560 |
merge_lists bounds1 bounds2, |
|
1561 |
generic_merge eq_prem I I prems1 prems2, |
|
1562 |
mk_rews, termless); |
|
1563 |
||
1564 |
||
2509 | 1565 |
(* mk_rrule *) |
1566 |
||
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1567 |
fun mk_rrule (thm as Thm {sign_ref, prop, ...}) = |
1238 | 1568 |
let |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1569 |
val sign = Sign.deref sign_ref; |
2509 | 1570 |
val prems = Logic.strip_imp_prems prop; |
1571 |
val concl = Logic.strip_imp_concl prop; |
|
3893
5a1f22e7b359
The simplifier has been improved a little: equations s=t which used to be
nipkow
parents:
3812
diff
changeset
|
1572 |
val (lhs, rhs) = Logic.dest_equals concl handle TERM _ => |
2509 | 1573 |
raise SIMPLIFIER ("Rewrite rule not a meta-equality", thm); |
4116 | 1574 |
in case Logic.rewrite_rule_ok sign prems lhs rhs of |
3893
5a1f22e7b359
The simplifier has been improved a little: equations s=t which used to be
nipkow
parents:
3812
diff
changeset
|
1575 |
(None,perm) => Some {thm = thm, lhs = lhs, perm = perm} |
5a1f22e7b359
The simplifier has been improved a little: equations s=t which used to be
nipkow
parents:
3812
diff
changeset
|
1576 |
| (Some msg,_) => |
4045 | 1577 |
(prtm true ("ignoring rewrite rule ("^msg^")") sign prop; None) |
0 | 1578 |
end; |
1579 |
||
2509 | 1580 |
|
1581 |
(* add_simps *) |
|
87 | 1582 |
|
2509 | 1583 |
fun add_simp |
1584 |
(mss as Mss {rules, congs, procs, bounds, prems, mk_rews, termless}, |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1585 |
thm as Thm {sign_ref, prop, ...}) = |
2509 | 1586 |
(case mk_rrule thm of |
87 | 1587 |
None => mss |
2509 | 1588 |
| Some (rrule as {lhs, ...}) => |
4045 | 1589 |
(trace_thm false "Adding rewrite rule:" thm; |
2509 | 1590 |
mk_mss (Net.insert_term ((lhs, rrule), rules, eq_rrule) handle Net.INSERT => |
4045 | 1591 |
(prtm true "ignoring duplicate rewrite rule" (Sign.deref sign_ref) prop; rules), |
2509 | 1592 |
congs, procs, bounds, prems, mk_rews, termless))); |
0 | 1593 |
|
1594 |
val add_simps = foldl add_simp; |
|
2509 | 1595 |
|
1596 |
fun mss_of thms = add_simps (empty_mss, thms); |
|
1597 |
||
1598 |
||
1599 |
(* del_simps *) |
|
1600 |
||
1601 |
fun del_simp |
|
1602 |
(mss as Mss {rules, congs, procs, bounds, prems, mk_rews, termless}, |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1603 |
thm as Thm {sign_ref, prop, ...}) = |
2509 | 1604 |
(case mk_rrule thm of |
1605 |
None => mss |
|
1606 |
| Some (rrule as {lhs, ...}) => |
|
1607 |
mk_mss (Net.delete_term ((lhs, rrule), rules, eq_rrule) handle Net.DELETE => |
|
4045 | 1608 |
(prtm true "rewrite rule not in simpset" (Sign.deref sign_ref) prop; rules), |
2509 | 1609 |
congs, procs, bounds, prems, mk_rews, termless)); |
1610 |
||
87 | 1611 |
val del_simps = foldl del_simp; |
0 | 1612 |
|
2509 | 1613 |
|
2626 | 1614 |
(* add_congs *) |
0 | 1615 |
|
2509 | 1616 |
fun add_cong (Mss {rules, congs, procs, bounds, prems, mk_rews, termless}, thm) = |
1617 |
let |
|
1618 |
val (lhs, _) = Logic.dest_equals (concl_of thm) handle TERM _ => |
|
1619 |
raise SIMPLIFIER ("Congruence not a meta-equality", thm); |
|
1620 |
(* val lhs = Pattern.eta_contract lhs; *) |
|
1621 |
val (a, _) = dest_Const (head_of lhs) handle TERM _ => |
|
1622 |
raise SIMPLIFIER ("Congruence must start with a constant", thm); |
|
1623 |
in |
|
1624 |
mk_mss (rules, (a, {lhs = lhs, thm = thm}) :: congs, procs, bounds, |
|
1625 |
prems, mk_rews, termless) |
|
0 | 1626 |
end; |
1627 |
||
1628 |
val (op add_congs) = foldl add_cong; |
|
1629 |
||
2509 | 1630 |
|
2626 | 1631 |
(* del_congs *) |
1632 |
||
1633 |
fun del_cong (Mss {rules, congs, procs, bounds, prems, mk_rews, termless}, thm) = |
|
1634 |
let |
|
1635 |
val (lhs, _) = Logic.dest_equals (concl_of thm) handle TERM _ => |
|
1636 |
raise SIMPLIFIER ("Congruence not a meta-equality", thm); |
|
1637 |
(* val lhs = Pattern.eta_contract lhs; *) |
|
1638 |
val (a, _) = dest_Const (head_of lhs) handle TERM _ => |
|
1639 |
raise SIMPLIFIER ("Congruence must start with a constant", thm); |
|
1640 |
in |
|
1641 |
mk_mss (rules, filter (fn (x,_)=> x<>a) congs, procs, bounds, |
|
1642 |
prems, mk_rews, termless) |
|
1643 |
end; |
|
1644 |
||
1645 |
val (op del_congs) = foldl del_cong; |
|
1646 |
||
1647 |
||
2509 | 1648 |
(* add_simprocs *) |
1649 |
||
3550 | 1650 |
fun add_proc (mss as Mss {rules, congs, procs, bounds, prems, mk_rews, termless}, |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1651 |
(name, lhs as Cterm {sign_ref, t, ...}, proc, id)) = |
4045 | 1652 |
(trace_term false ("Adding simplification procedure " ^ quote name ^ " for:") |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1653 |
(Sign.deref sign_ref) t; |
2509 | 1654 |
mk_mss (rules, congs, |
3550 | 1655 |
Net.insert_term ((t, mk_simproc (name, proc, lhs, id)), procs, eq_simproc) |
4045 | 1656 |
handle Net.INSERT => (trace true "ignored duplicate"; procs), |
2509 | 1657 |
bounds, prems, mk_rews, termless)); |
0 | 1658 |
|
3550 | 1659 |
fun add_simproc (mss, (name, lhss, proc, id)) = |
1660 |
foldl add_proc (mss, map (fn lhs => (name, lhs, proc, id)) lhss); |
|
1661 |
||
2509 | 1662 |
val add_simprocs = foldl add_simproc; |
1663 |
||
1664 |
||
1665 |
(* del_simprocs *) |
|
0 | 1666 |
|
3550 | 1667 |
fun del_proc (mss as Mss {rules, congs, procs, bounds, prems, mk_rews, termless}, |
1668 |
(name, lhs as Cterm {t, ...}, proc, id)) = |
|
2509 | 1669 |
mk_mss (rules, congs, |
3550 | 1670 |
Net.delete_term ((t, mk_simproc (name, proc, lhs, id)), procs, eq_simproc) |
4045 | 1671 |
handle Net.DELETE => (trace true "simplification procedure not in simpset"; procs), |
3550 | 1672 |
bounds, prems, mk_rews, termless); |
1673 |
||
1674 |
fun del_simproc (mss, (name, lhss, proc, id)) = |
|
1675 |
foldl del_proc (mss, map (fn lhs => (name, lhs, proc, id)) lhss); |
|
2509 | 1676 |
|
1677 |
val del_simprocs = foldl del_simproc; |
|
0 | 1678 |
|
1679 |
||
2509 | 1680 |
(* prems *) |
1681 |
||
1682 |
fun add_prems (Mss {rules, congs, procs, bounds, prems, mk_rews, termless}, thms) = |
|
1683 |
mk_mss (rules, congs, procs, bounds, thms @ prems, mk_rews, termless); |
|
1684 |
||
1685 |
fun prems_of_mss (Mss {prems, ...}) = prems; |
|
1686 |
||
1687 |
||
1688 |
(* mk_rews *) |
|
1689 |
||
1690 |
fun set_mk_rews |
|
1691 |
(Mss {rules, congs, procs, bounds, prems, mk_rews = _, termless}, mk_rews) = |
|
1692 |
mk_mss (rules, congs, procs, bounds, prems, mk_rews, termless); |
|
1693 |
||
1694 |
fun mk_rews_of_mss (Mss {mk_rews, ...}) = mk_rews; |
|
1695 |
||
1696 |
||
1697 |
(* termless *) |
|
1698 |
||
1699 |
fun set_termless |
|
1700 |
(Mss {rules, congs, procs, bounds, prems, mk_rews, termless = _}, termless) = |
|
1701 |
mk_mss (rules, congs, procs, bounds, prems, mk_rews, termless); |
|
1702 |
||
1703 |
||
1704 |
||
1705 |
(** rewriting **) |
|
1706 |
||
1707 |
(* |
|
1708 |
Uses conversions, omitting proofs for efficiency. See: |
|
1709 |
L C Paulson, A higher-order implementation of rewriting, |
|
1710 |
Science of Computer Programming 3 (1983), pages 119-149. |
|
1711 |
*) |
|
0 | 1712 |
|
1713 |
type prover = meta_simpset -> thm -> thm option; |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1714 |
type termrec = (Sign.sg_ref * term list) * term; |
0 | 1715 |
type conv = meta_simpset -> termrec -> termrec; |
1716 |
||
4116 | 1717 |
fun check_conv (thm as Thm{shyps,hyps,prop,sign_ref,der,...}, prop0, ders) = |
4045 | 1718 |
let fun err() = (trace_thm false "Proved wrong thm (Check subgoaler?)" thm; |
1719 |
trace_term false "Should have proved" (Sign.deref sign_ref) prop0; |
|
432 | 1720 |
None) |
0 | 1721 |
val (lhs0,_) = Logic.dest_equals(Logic.strip_imp_concl prop0) |
1722 |
in case prop of |
|
1723 |
Const("==",_) $ lhs $ rhs => |
|
1724 |
if (lhs = lhs0) orelse |
|
427
4ce2ce940faf
ordered rewriting applies to conditional rules as well now
nipkow
parents:
421
diff
changeset
|
1725 |
(lhs aconv Envir.norm_term (Envir.empty 0) lhs0) |
4045 | 1726 |
then (trace_thm false "SUCCEEDED" thm; |
4116 | 1727 |
Some(shyps, hyps, rhs, der::ders)) |
0 | 1728 |
else err() |
1729 |
| _ => err() |
|
1730 |
end; |
|
1731 |
||
659
95ed2ccb4438
Prepared the code for preservation of bound var names during rewriting. Still
nipkow
parents:
623
diff
changeset
|
1732 |
fun ren_inst(insts,prop,pat,obj) = |
95ed2ccb4438
Prepared the code for preservation of bound var names during rewriting. Still
nipkow
parents:
623
diff
changeset
|
1733 |
let val ren = match_bvs(pat,obj,[]) |
95ed2ccb4438
Prepared the code for preservation of bound var names during rewriting. Still
nipkow
parents:
623
diff
changeset
|
1734 |
fun renAbs(Abs(x,T,b)) = |
1576
af8f43f742a0
Added some optimized versions of functions dealing with sets
berghofe
parents:
1569
diff
changeset
|
1735 |
Abs(case assoc_string(ren,x) of None => x | Some(y) => y, T, renAbs(b)) |
659
95ed2ccb4438
Prepared the code for preservation of bound var names during rewriting. Still
nipkow
parents:
623
diff
changeset
|
1736 |
| renAbs(f$t) = renAbs(f) $ renAbs(t) |
95ed2ccb4438
Prepared the code for preservation of bound var names during rewriting. Still
nipkow
parents:
623
diff
changeset
|
1737 |
| renAbs(t) = t |
95ed2ccb4438
Prepared the code for preservation of bound var names during rewriting. Still
nipkow
parents:
623
diff
changeset
|
1738 |
in subst_vars insts (if null(ren) then prop else renAbs(prop)) end; |
678
6151b7f3b606
Modified pattern.ML to perform proper matching of Higher-Order Patterns.
nipkow
parents:
659
diff
changeset
|
1739 |
|
1258 | 1740 |
fun add_insts_sorts ((iTs, is), Ss) = |
1741 |
add_typs_sorts (map snd iTs, add_terms_sorts (map snd is, Ss)); |
|
1742 |
||
659
95ed2ccb4438
Prepared the code for preservation of bound var names during rewriting. Still
nipkow
parents:
623
diff
changeset
|
1743 |
|
2509 | 1744 |
(* mk_procrule *) |
1745 |
||
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1746 |
fun mk_procrule (thm as Thm {sign_ref, prop, ...}) = |
2509 | 1747 |
let |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1748 |
val sign = Sign.deref sign_ref; |
2509 | 1749 |
val prems = Logic.strip_imp_prems prop; |
1750 |
val concl = Logic.strip_imp_concl prop; |
|
1751 |
val (lhs, _) = Logic.dest_equals concl handle TERM _ => |
|
1752 |
raise SIMPLIFIER ("Rewrite rule not a meta-equality", thm); |
|
1753 |
val econcl = Pattern.eta_contract concl; |
|
1754 |
val (elhs, erhs) = Logic.dest_equals econcl; |
|
4116 | 1755 |
in case Logic.rewrite_rule_extra_vars prems elhs erhs of |
1756 |
Some msg => (prtm true msg sign prop; []) |
|
1757 |
| None => [{thm = thm, lhs = lhs, perm = false}] |
|
2509 | 1758 |
end; |
1759 |
||
1760 |
||
1761 |
(* conversion to apply the meta simpset to a term *) |
|
1762 |
||
1763 |
(* |
|
1764 |
we try in order: |
|
1765 |
(1) beta reduction |
|
1766 |
(2) unconditional rewrite rules |
|
1767 |
(3) conditional rewrite rules |
|
3550 | 1768 |
(4) simplification procedures |
4116 | 1769 |
|
1770 |
IMPORTANT: rewrite rules must not introduce new Vars or TVars! |
|
1771 |
||
2509 | 1772 |
*) |
1773 |
||
4116 | 1774 |
fun rewritec (prover,sign_reft,maxt) |
1775 |
(mss as Mss{rules, procs, mk_rews, termless, prems, ...}) |
|
1776 |
(shypst,hypst,t,ders) = |
|
3550 | 1777 |
let |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1778 |
val signt = Sign.deref sign_reft; |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1779 |
val tsigt = Sign.tsig_of signt; |
4116 | 1780 |
fun rew{thm as Thm{sign_ref,der,shyps,hyps,prop,maxidx,...}, lhs, perm} = |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1781 |
let |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1782 |
val _ = |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1783 |
if Sign.subsig (Sign.deref sign_ref, signt) then () |
4045 | 1784 |
else (trace_thm true "rewrite rule from different theory" thm; |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1785 |
raise Pattern.MATCH); |
2147 | 1786 |
val rprop = if maxt = ~1 then prop |
1787 |
else Logic.incr_indexes([],maxt+1) prop; |
|
1788 |
val rlhs = if maxt = ~1 then lhs |
|
1065
8425cb5acb77
Fixed old bug in the simplifier. Term to be simplified now carries around its
nipkow
parents:
1028
diff
changeset
|
1789 |
else fst(Logic.dest_equals(Logic.strip_imp_concl rprop)) |
3550 | 1790 |
val insts = Pattern.match tsigt (rlhs,t); |
1065
8425cb5acb77
Fixed old bug in the simplifier. Term to be simplified now carries around its
nipkow
parents:
1028
diff
changeset
|
1791 |
val prop' = ren_inst(insts,rprop,rlhs,t); |
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
1792 |
val hyps' = union_term(hyps,hypst); |
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
1793 |
val shyps' = add_insts_sorts (insts, union_sort(shyps,shypst)); |
4116 | 1794 |
val unconditional = (Logic.count_prems(prop',0) = 0); |
1795 |
val maxidx' = if unconditional then maxt else maxidx+maxt+1 |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1796 |
val ct' = Cterm{sign_ref = sign_reft, (*used for deriv only*) |
2386 | 1797 |
t = prop', |
1798 |
T = propT, |
|
1799 |
maxidx = maxidx'} |
|
3550 | 1800 |
val der' = infer_derivs (RewriteC ct', [der]); |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1801 |
val thm' = Thm{sign_ref = sign_reft, |
2386 | 1802 |
der = der', |
1803 |
shyps = shyps', |
|
1804 |
hyps = hyps', |
|
1529 | 1805 |
prop = prop', |
2386 | 1806 |
maxidx = maxidx'} |
427
4ce2ce940faf
ordered rewriting applies to conditional rules as well now
nipkow
parents:
421
diff
changeset
|
1807 |
val (lhs',rhs') = Logic.dest_equals(Logic.strip_imp_concl prop') |
4ce2ce940faf
ordered rewriting applies to conditional rules as well now
nipkow
parents:
421
diff
changeset
|
1808 |
in if perm andalso not(termless(rhs',lhs')) then None else |
4116 | 1809 |
if unconditional |
4045 | 1810 |
then (trace_thm false "Rewriting:" thm'; |
4116 | 1811 |
Some(shyps', hyps', rhs', der'::ders)) |
4045 | 1812 |
else (trace_thm false "Trying to rewrite:" thm'; |
0 | 1813 |
case prover mss thm' of |
4045 | 1814 |
None => (trace_thm false "FAILED" thm'; None) |
1529 | 1815 |
| Some(thm2) => check_conv(thm2,prop',ders)) |
0 | 1816 |
end |
1817 |
||
225
76f60e6400e8
optimized net for matching of abstractions to speed up simplifier
nipkow
parents:
222
diff
changeset
|
1818 |
fun rews [] = None |
2509 | 1819 |
| rews (rrule :: rrules) = |
225
76f60e6400e8
optimized net for matching of abstractions to speed up simplifier
nipkow
parents:
222
diff
changeset
|
1820 |
let val opt = rew rrule handle Pattern.MATCH => None |
76f60e6400e8
optimized net for matching of abstractions to speed up simplifier
nipkow
parents:
222
diff
changeset
|
1821 |
in case opt of None => rews rrules | some => some end; |
3550 | 1822 |
|
1659 | 1823 |
fun sort_rrules rrs = let |
2386 | 1824 |
fun is_simple {thm as Thm{prop,...}, lhs, perm} = case prop of |
1825 |
Const("==",_) $ _ $ _ => true |
|
1826 |
| _ => false |
|
1827 |
fun sort [] (re1,re2) = re1 @ re2 |
|
1828 |
| sort (rr::rrs) (re1,re2) = if is_simple rr |
|
1829 |
then sort rrs (rr::re1,re2) |
|
1830 |
else sort rrs (re1,rr::re2) |
|
1659 | 1831 |
in sort rrs ([],[]) |
1832 |
end |
|
2509 | 1833 |
|
3550 | 1834 |
fun proc_rews _ ([]:simproc list) = None |
1835 |
| proc_rews eta_t ({name, proc, lhs = Cterm {t = plhs, ...}, ...} :: ps) = |
|
1836 |
if Pattern.matches tsigt (plhs, t) then |
|
4045 | 1837 |
(trace_term false ("Trying procedure " ^ quote name ^ " on:") signt eta_t; |
3577
9715b6e3ec5f
added prems argument to simplification procedures;
wenzelm
parents:
3565
diff
changeset
|
1838 |
case proc signt prems eta_t of |
4045 | 1839 |
None => (trace false "FAILED"; proc_rews eta_t ps) |
3550 | 1840 |
| Some raw_thm => |
4045 | 1841 |
(trace_thm false ("Procedure " ^ quote name ^ " proved rewrite rule:") raw_thm; |
3550 | 1842 |
(case rews (mk_procrule raw_thm) of |
4045 | 1843 |
None => (trace false "IGNORED"; proc_rews eta_t ps) |
3550 | 1844 |
| some => some))) |
1845 |
else proc_rews eta_t ps; |
|
2509 | 1846 |
in |
2792 | 1847 |
(case t of |
3550 | 1848 |
Abs (_, _, body) $ u => |
4116 | 1849 |
Some (shypst, hypst, subst_bound (u, body), ders) |
2509 | 1850 |
| _ => |
2792 | 1851 |
(case rews (sort_rrules (Net.match_term rules t)) of |
3012 | 1852 |
None => proc_rews (Pattern.eta_contract t) (Net.match_term procs t) |
2509 | 1853 |
| some => some)) |
0 | 1854 |
end; |
1855 |
||
2509 | 1856 |
|
1857 |
(* conversion to apply a congruence rule to a term *) |
|
1858 |
||
4116 | 1859 |
fun congc (prover,sign_reft,maxt) {thm=cong,lhs=lhs} (shypst,hypst,t,ders) = |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1860 |
let val signt = Sign.deref sign_reft; |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1861 |
val tsig = Sign.tsig_of signt; |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1862 |
val Thm{sign_ref,der,shyps,hyps,maxidx,prop,...} = cong |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1863 |
val _ = if Sign.subsig(Sign.deref sign_ref,signt) then () |
208
342f88d2e8ab
optimized simplifier - signature of rewritten term stays constant
nipkow
parents:
200
diff
changeset
|
1864 |
else error("Congruence rule from different theory") |
2147 | 1865 |
val rprop = if maxt = ~1 then prop |
1866 |
else Logic.incr_indexes([],maxt+1) prop; |
|
1867 |
val rlhs = if maxt = ~1 then lhs |
|
1065
8425cb5acb77
Fixed old bug in the simplifier. Term to be simplified now carries around its
nipkow
parents:
1028
diff
changeset
|
1868 |
else fst(Logic.dest_equals(Logic.strip_imp_concl rprop)) |
1569
a89f246dee0e
Non-matching congruence rule in rewriter is simply ignored.
nipkow
parents:
1566
diff
changeset
|
1869 |
val insts = Pattern.match tsig (rlhs,t) |
a89f246dee0e
Non-matching congruence rule in rewriter is simply ignored.
nipkow
parents:
1566
diff
changeset
|
1870 |
(* Pattern.match can raise Pattern.MATCH; |
a89f246dee0e
Non-matching congruence rule in rewriter is simply ignored.
nipkow
parents:
1566
diff
changeset
|
1871 |
is handled when congc is called *) |
1065
8425cb5acb77
Fixed old bug in the simplifier. Term to be simplified now carries around its
nipkow
parents:
1028
diff
changeset
|
1872 |
val prop' = ren_inst(insts,rprop,rlhs,t); |
2177
8b365a3a6ed1
Changed some mem, ins and union calls to be monomorphic
paulson
parents:
2163
diff
changeset
|
1873 |
val shyps' = add_insts_sorts (insts, union_sort(shyps,shypst)) |
1529 | 1874 |
val maxidx' = maxidx_of_term prop' |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1875 |
val ct' = Cterm{sign_ref = sign_reft, (*used for deriv only*) |
2386 | 1876 |
t = prop', |
1877 |
T = propT, |
|
1878 |
maxidx = maxidx'} |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1879 |
val thm' = Thm{sign_ref = sign_reft, |
3550 | 1880 |
der = infer_derivs (CongC ct', [der]), |
2386 | 1881 |
shyps = shyps', |
1882 |
hyps = union_term(hyps,hypst), |
|
1529 | 1883 |
prop = prop', |
2386 | 1884 |
maxidx = maxidx'}; |
4045 | 1885 |
val unit = trace_thm false "Applying congruence rule" thm'; |
112
009ae5c85ae9
Changed the simplifier: if the subgoaler proves an unexpected thm, chances
nipkow
parents:
87
diff
changeset
|
1886 |
fun err() = error("Failed congruence proof!") |
0 | 1887 |
|
1888 |
in case prover thm' of |
|
112
009ae5c85ae9
Changed the simplifier: if the subgoaler proves an unexpected thm, chances
nipkow
parents:
87
diff
changeset
|
1889 |
None => err() |
1529 | 1890 |
| Some(thm2) => (case check_conv(thm2,prop',ders) of |
405
c97514f63633
Internale optimization of the simplifier: in case a subterm stays unchanged,
nipkow
parents:
399
diff
changeset
|
1891 |
None => err() | some => some) |
0 | 1892 |
end; |
1893 |
||
4116 | 1894 |
fun bottomc ((simprem,useprem),prover,sign_ref,maxidx) = |
1529 | 1895 |
let fun botc fail mss trec = |
2386 | 1896 |
(case subc mss trec of |
1897 |
some as Some(trec1) => |
|
4116 | 1898 |
(case rewritec (prover,sign_ref,maxidx) mss trec1 of |
2386 | 1899 |
Some(trec2) => botc false mss trec2 |
1900 |
| None => some) |
|
1901 |
| None => |
|
4116 | 1902 |
(case rewritec (prover,sign_ref,maxidx) mss trec of |
2386 | 1903 |
Some(trec2) => botc false mss trec2 |
1904 |
| None => if fail then None else Some(trec))) |
|
0 | 1905 |
|
1529 | 1906 |
and try_botc mss trec = (case botc true mss trec of |
2386 | 1907 |
Some(trec1) => trec1 |
1908 |
| None => trec) |
|
405
c97514f63633
Internale optimization of the simplifier: in case a subterm stays unchanged,
nipkow
parents:
399
diff
changeset
|
1909 |
|
2509 | 1910 |
and subc (mss as Mss{rules,congs,procs,bounds,prems,mk_rews,termless}) |
4116 | 1911 |
(trec as (shyps,hyps,t0,ders)) = |
1529 | 1912 |
(case t0 of |
2386 | 1913 |
Abs(a,T,t) => |
1914 |
let val b = variant bounds a |
|
1915 |
val v = Free("." ^ b,T) |
|
2509 | 1916 |
val mss' = mk_mss (rules, congs, procs, b :: bounds, prems, mk_rews, termless) |
2386 | 1917 |
in case botc true mss' |
4116 | 1918 |
(shyps,hyps,subst_bound (v,t),ders) of |
1919 |
Some(shyps',hyps',t',ders') => |
|
1920 |
Some(shyps', hyps', Abs(a, T, abstract_over(v,t')), ders') |
|
2386 | 1921 |
| None => None |
1922 |
end |
|
1923 |
| t$u => (case t of |
|
4116 | 1924 |
Const("==>",_)$s => Some(impc(shyps,hyps,s,u,mss,ders)) |
2386 | 1925 |
| Abs(_,_,body) => |
4116 | 1926 |
let val trec = (shyps,hyps,subst_bound (u,body),ders) |
2386 | 1927 |
in case subc mss trec of |
1928 |
None => Some(trec) |
|
1929 |
| trec => trec |
|
1930 |
end |
|
1931 |
| _ => |
|
1932 |
let fun appc() = |
|
4116 | 1933 |
(case botc true mss (shyps,hyps,t,ders) of |
1934 |
Some(shyps1,hyps1,t1,ders1) => |
|
1935 |
(case botc true mss (shyps1,hyps1,u,ders1) of |
|
1936 |
Some(shyps2,hyps2,u1,ders2) => |
|
1937 |
Some(shyps2, hyps2, t1$u1, ders2) |
|
1938 |
| None => Some(shyps1, hyps1, t1$u, ders1)) |
|
2386 | 1939 |
| None => |
4116 | 1940 |
(case botc true mss (shyps,hyps,u,ders) of |
1941 |
Some(shyps1,hyps1,u1,ders1) => |
|
1942 |
Some(shyps1, hyps1, t$u1, ders1) |
|
2386 | 1943 |
| None => None)) |
1944 |
val (h,ts) = strip_comb t |
|
1945 |
in case h of |
|
1946 |
Const(a,_) => |
|
1947 |
(case assoc_string(congs,a) of |
|
1948 |
None => appc() |
|
4116 | 1949 |
| Some(cong) => |
1950 |
(congc (prover mss,sign_ref,maxidx) cong trec |
|
1951 |
handle Pattern.MATCH => appc() ) ) |
|
2386 | 1952 |
| _ => appc() |
1953 |
end) |
|
1954 |
| _ => None) |
|
0 | 1955 |
|
4116 | 1956 |
and impc(shyps, hyps, s, u, mss as Mss{mk_rews,...}, ders) = |
1957 |
let val (shyps1,hyps1,s1,ders1) = |
|
1958 |
if simprem then try_botc mss (shyps,hyps,s,ders) |
|
1959 |
else (shyps,hyps,s,ders); |
|
2386 | 1960 |
val maxidx1 = maxidx_of_term s1 |
1961 |
val mss1 = |
|
2535
907a3379f165
Added warning msg when the simplifier cannot use a premise as a rewrite rule
nipkow
parents:
2509
diff
changeset
|
1962 |
if not useprem then mss else |
4045 | 1963 |
if maxidx1 <> ~1 then (trace_term true |
2535
907a3379f165
Added warning msg when the simplifier cannot use a premise as a rewrite rule
nipkow
parents:
2509
diff
changeset
|
1964 |
"Cannot add premise as rewrite rule because it contains (type) unknowns:" |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1965 |
(Sign.deref sign_ref) s1; mss) |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1966 |
else let val thm = assume (Cterm{sign_ref=sign_ref, t=s1, |
4116 | 1967 |
T=propT, maxidx= ~1}) |
2386 | 1968 |
in add_simps(add_prems(mss,[thm]), mk_rews thm) end |
4116 | 1969 |
val (shyps2,hyps2,u1,ders2) = try_botc mss1 (shyps1,hyps1,u,ders1) |
1970 |
val hyps3 = if gen_mem (op aconv) (s1, hyps1) |
|
2386 | 1971 |
then hyps2 else hyps2\s1 |
4116 | 1972 |
in (shyps2, hyps3, Logic.mk_implies(s1,u1), ders2) |
1529 | 1973 |
end |
0 | 1974 |
|
1529 | 1975 |
in try_botc end; |
0 | 1976 |
|
1977 |
||
1978 |
(*** Meta-rewriting: rewrites t to u and returns the theorem t==u ***) |
|
2509 | 1979 |
|
1980 |
(* |
|
1981 |
Parameters: |
|
1982 |
mode = (simplify A, use A in simplifying B) when simplifying A ==> B |
|
1983 |
mss: contains equality theorems of the form [|p1,...|] ==> t==u |
|
1984 |
prover: how to solve premises in conditional rewrites and congruences |
|
0 | 1985 |
*) |
2509 | 1986 |
|
1987 |
(* FIXME: check that #bounds(mss) does not "occur" in ct alread *) |
|
1988 |
||
214
ed6a3e2b1a33
added new parameter to the simplification tactics which indicates if
nipkow
parents:
209
diff
changeset
|
1989 |
fun rewrite_cterm mode mss prover ct = |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1990 |
let val Cterm {sign_ref, t, T, maxidx} = ct; |
4116 | 1991 |
val (shyps,hyps,u,ders) = |
1992 |
bottomc (mode,prover, sign_ref, maxidx) mss |
|
1993 |
(add_term_sorts(t,[]), [], t, []); |
|
0 | 1994 |
val prop = Logic.mk_equals(t,u) |
1258 | 1995 |
in |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
1996 |
Thm{sign_ref = sign_ref, |
2386 | 1997 |
der = infer_derivs (Rewrite_cterm ct, ders), |
4116 | 1998 |
maxidx = maxidx, |
2386 | 1999 |
shyps = shyps, |
2000 |
hyps = hyps, |
|
1529 | 2001 |
prop = prop} |
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
2002 |
end; |
0 | 2003 |
|
1539 | 2004 |
|
2509 | 2005 |
|
2006 |
(*** Oracles ***) |
|
2007 |
||
3812 | 2008 |
fun invoke_oracle thy raw_name = |
2009 |
let |
|
2010 |
val {sign = sg, oracles, ...} = rep_theory thy; |
|
2011 |
val name = Sign.intern sg Theory.oracleK raw_name; |
|
2012 |
val oracle = |
|
2013 |
(case Symtab.lookup (oracles, name) of |
|
2014 |
None => raise THM ("Unknown oracle: " ^ name, 0, []) |
|
2015 |
| Some (f, _) => f); |
|
2016 |
in |
|
2017 |
fn (sign, exn) => |
|
2018 |
let |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
2019 |
val sign_ref' = Sign.merge_refs (Sign.self_ref sg, Sign.self_ref sign); |
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
2020 |
val sign' = Sign.deref sign_ref'; |
3812 | 2021 |
val (prop, T, maxidx) = Sign.certify_term sign' (oracle (sign', exn)); |
2022 |
in |
|
2023 |
if T <> propT then |
|
2024 |
raise THM ("Oracle's result must have type prop: " ^ name, 0, []) |
|
2025 |
else fix_shyps [] [] |
|
3967
edd5ff9371f8
sg_ref: automatic adjustment of thms of draft theories;
wenzelm
parents:
3895
diff
changeset
|
2026 |
(Thm {sign_ref = sign_ref', |
4182 | 2027 |
der = Join (Oracle (name, sign, exn), []), |
3812 | 2028 |
maxidx = maxidx, |
2029 |
shyps = [], |
|
2030 |
hyps = [], |
|
2031 |
prop = prop}) |
|
2032 |
end |
|
2033 |
end; |
|
2034 |
||
1539 | 2035 |
|
0 | 2036 |
end; |
1503 | 2037 |
|
2038 |
open Thm; |