author | wenzelm |
Fri, 01 Nov 2019 18:08:46 +0100 | |
changeset 70984 | 5e98925f86ed |
parent 70983 | 52a62342c9ce |
child 70990 | e5e34bd28257 |
permissions | -rw-r--r-- |
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(* Title: Pure/proofterm.ML |
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Author: Stefan Berghofer, TU Muenchen |
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|
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LF style proof terms. |
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*) |
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||
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infix 8 % %% %>; |
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signature PROOFTERM = |
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sig |
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type thm_header = |
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{serial: serial, pos: Position.T list, theory_name: string, name: string, |
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prop: term, types: typ list option} |
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type thm_body |
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type thm_node |
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datatype proof = |
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MinProof |
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| PBound of int |
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| Abst of string * typ option * proof |
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| AbsP of string * term option * proof |
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| % of proof * term option |
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| %% of proof * proof |
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| Hyp of term |
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| PAxm of string * term * typ list option |
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| OfClass of typ * class |
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| Oracle of string * term * typ list option |
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| PThm of thm_header * thm_body |
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and proof_body = PBody of |
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{oracles: (string * term option) Ord_List.T, |
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thms: (serial * thm_node) Ord_List.T, |
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proof: proof} |
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type oracle = string * term option |
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type thm = serial * thm_node |
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exception MIN_PROOF of unit |
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val proof_of: proof_body -> proof |
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val join_proof: proof_body future -> proof |
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val map_proof_of: (proof -> proof) -> proof_body -> proof_body |
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val thm_header: serial -> Position.T list -> string -> string -> term -> typ list option -> |
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thm_header |
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val thm_body: proof_body -> thm_body |
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val thm_body_proof_raw: thm_body -> proof |
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val thm_body_proof_open: thm_body -> proof |
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val thm_node_theory_name: thm_node -> string |
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val thm_node_name: thm_node -> string |
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val thm_node_prop: thm_node -> term |
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val thm_node_body: thm_node -> proof_body future |
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val thm_node_thms: thm_node -> thm list |
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val join_thms: thm list -> proof_body list |
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val consolidate: proof_body list -> unit |
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val make_thm: thm_header -> thm_body -> thm |
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val fold_proof_atoms: bool -> (proof -> 'a -> 'a) -> proof list -> 'a -> 'a |
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val fold_body_thms: |
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({serial: serial, name: string, prop: term, body: proof_body} -> 'a -> 'a) -> |
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proof_body list -> 'a -> 'a |
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val oracle_ord: oracle ord |
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val thm_ord: thm ord |
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val unions_oracles: oracle Ord_List.T list -> oracle Ord_List.T |
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val unions_thms: thm Ord_List.T list -> thm Ord_List.T |
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val no_proof_body: proof -> proof_body |
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val no_thm_names: proof -> proof |
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val no_thm_proofs: proof -> proof |
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val no_body_proofs: proof -> proof |
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|
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Term_XML.Encode/Decode.term uses Const "typargs";
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val encode: Consts.T -> proof XML.Encode.T |
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Term_XML.Encode/Decode.term uses Const "typargs";
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val encode_body: Consts.T -> proof_body XML.Encode.T |
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val encode_standard_term: Consts.T -> term XML.Encode.T |
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val encode_standard_proof: Consts.T -> proof XML.Encode.T |
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Term_XML.Encode/Decode.term uses Const "typargs";
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val decode: Consts.T -> proof XML.Decode.T |
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val decode_body: Consts.T -> proof_body XML.Decode.T |
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val %> : proof * term -> proof |
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||
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(*primitive operations*) |
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val proofs: int Unsynchronized.ref |
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val proofs_enabled: unit -> bool |
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val atomic_proof: proof -> bool |
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val compact_proof: proof -> bool |
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val proof_combt: proof * term list -> proof |
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val proof_combt': proof * term option list -> proof |
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val proof_combP: proof * proof list -> proof |
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val strip_combt: proof -> proof * term option list |
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val strip_combP: proof -> proof * proof list |
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val strip_thm_body: proof_body -> proof_body |
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val map_proof_same: term Same.operation -> typ Same.operation |
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-> (typ * class -> proof) -> proof Same.operation |
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val map_proof_terms_same: term Same.operation -> typ Same.operation -> proof Same.operation |
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val map_proof_types_same: typ Same.operation -> proof Same.operation |
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val map_proof_terms: (term -> term) -> (typ -> typ) -> proof -> proof |
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val map_proof_types: (typ -> typ) -> proof -> proof |
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val fold_proof_terms: (term -> 'a -> 'a) -> proof -> 'a -> 'a |
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val fold_proof_terms_types: (term -> 'a -> 'a) -> (typ -> 'a -> 'a) -> proof -> 'a -> 'a |
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val maxidx_proof: proof -> int -> int |
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val size_of_proof: proof -> int |
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val change_types: typ list option -> proof -> proof |
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val prf_abstract_over: term -> proof -> proof |
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val prf_incr_bv: int -> int -> int -> int -> proof -> proof |
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val incr_pboundvars: int -> int -> proof -> proof |
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val prf_loose_bvar1: proof -> int -> bool |
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val prf_loose_Pbvar1: proof -> int -> bool |
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val prf_add_loose_bnos: int -> int -> proof -> int list * int list -> int list * int list |
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val norm_proof: Envir.env -> proof -> proof |
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val norm_proof': Envir.env -> proof -> proof |
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val prf_subst_bounds: term list -> proof -> proof |
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val prf_subst_pbounds: proof list -> proof -> proof |
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val freeze_thaw_prf: proof -> proof * (proof -> proof) |
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(*proof terms for specific inference rules*) |
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val trivial_proof: proof |
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val implies_intr_proof: term -> proof -> proof |
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val implies_intr_proof': term -> proof -> proof |
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val forall_intr_proof: string * term -> typ option -> proof -> proof |
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val forall_intr_proof': term -> proof -> proof |
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val varify_proof: term -> (string * sort) list -> proof -> proof |
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val legacy_freezeT: term -> proof -> proof |
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val rotate_proof: term list -> term -> (string * typ) list -> term list -> int -> proof -> proof |
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val permute_prems_proof: term list -> int -> int -> proof -> proof |
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val generalize_proof: string list * string list -> int -> term -> proof -> proof |
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val instantiate: ((indexname * sort) * typ) list * ((indexname * typ) * term) list |
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-> proof -> proof |
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val lift_proof: term -> int -> term -> proof -> proof |
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val incr_indexes: int -> proof -> proof |
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val assumption_proof: term list -> term -> int -> proof -> proof |
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val bicompose_proof: bool -> term list -> term list -> term option -> term list -> |
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int -> int -> proof -> proof -> proof |
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val equality_axms: (string * term) list |
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val reflexive_axm: proof |
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val symmetric_axm: proof |
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val transitive_axm: proof |
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val equal_intr_axm: proof |
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val equal_elim_axm: proof |
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val abstract_rule_axm: proof |
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val combination_axm: proof |
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val reflexive_proof: proof |
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val symmetric_proof: proof -> proof |
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val transitive_proof: typ -> term -> proof -> proof -> proof |
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val equal_intr_proof: term -> term -> proof -> proof -> proof |
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val equal_elim_proof: term -> term -> proof -> proof -> proof |
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val abstract_rule_proof: string * term -> proof -> proof |
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val combination_proof: term -> term -> term -> term -> proof -> proof -> proof |
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proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
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val strip_shyps_proof: Sorts.algebra -> (typ * sort) list -> (typ * sort) list -> |
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sort list -> proof -> proof |
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val of_sort_proof: Sorts.algebra -> |
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(class * class -> proof) -> |
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(string * class list list * class -> proof) -> |
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(typ * class -> proof) -> typ * sort -> proof list |
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val axm_proof: string -> term -> proof |
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val oracle_proof: string -> term -> proof |
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val shrink_proof: proof -> proof |
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(*rewriting on proof terms*) |
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val add_prf_rrule: proof * proof -> theory -> theory |
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val add_prf_rproc: (typ list -> term option list -> proof -> (proof * proof) option) -> theory -> theory |
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val set_preproc: (theory -> proof -> proof) -> theory -> theory |
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val forall_intr_variables_term: term -> term |
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val forall_intr_variables: term -> proof -> proof |
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generalized procs for rewrite_proof: allow skeleton;
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val no_skel: proof |
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generalized procs for rewrite_proof: allow skeleton;
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val normal_skel: proof |
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val rewrite_proof: theory -> (proof * proof) list * |
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(typ list -> term option list -> proof -> (proof * proof) option) list -> proof -> proof |
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val rewrite_proof_notypes: (proof * proof) list * |
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(typ list -> term option list -> proof -> (proof * proof) option) list -> proof -> proof |
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162 |
val rew_proof: theory -> proof -> proof |
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163 |
|
70449 | 164 |
val reconstruct_proof: theory -> term -> proof -> proof |
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165 |
val prop_of': term list -> proof -> term |
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166 |
val prop_of: proof -> term |
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167 |
val expand_name_empty: thm_header -> string option |
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val expand_proof: theory -> (thm_header -> string option) -> proof -> proof |
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169 |
|
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170 |
val standard_vars: Name.context -> term * proof option -> term * proof option |
70529 | 171 |
val standard_vars_term: Name.context -> term -> term |
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172 |
val add_standard_vars: proof -> (string * typ) list -> (string * typ) list |
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173 |
val add_standard_vars_term: term -> (string * typ) list -> (string * typ) list |
70529 | 174 |
|
70604 | 175 |
val export_enabled: unit -> bool |
70983 | 176 |
val export_standard_enabled: unit -> bool |
70984 | 177 |
val export_proof_boxes_required: theory -> bool |
178 |
val export_proof_boxes: proof list -> unit |
|
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179 |
val fulfill_norm_proof: theory -> (serial * proof_body) list -> proof_body -> proof_body |
70458 | 180 |
val thm_proof: theory -> (class * class -> proof) -> |
70494 | 181 |
(string * class list list * class -> proof) -> string * Position.T -> sort list -> |
70590 | 182 |
term list -> term -> (serial * proof_body future) list -> proof_body -> thm * proof |
70458 | 183 |
val unconstrain_thm_proof: theory -> (class * class -> proof) -> |
184 |
(string * class list list * class -> proof) -> sort list -> term -> |
|
70590 | 185 |
(serial * proof_body future) list -> proof_body -> thm * proof |
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186 |
val get_identity: sort list -> term list -> term -> proof -> |
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187 |
{serial: serial, theory_name: string, name: string} option |
70554 | 188 |
val get_approximative_name: sort list -> term list -> term -> proof -> string |
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189 |
type thm_id = {serial: serial, theory_name: string} |
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190 |
val make_thm_id: serial * string -> thm_id |
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191 |
val thm_header_id: thm_header -> thm_id |
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192 |
val thm_id: thm -> thm_id |
70554 | 193 |
val get_id: sort list -> term list -> term -> proof -> thm_id option |
70979 | 194 |
val this_id: thm_id option -> thm_id -> bool |
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|
195 |
val proof_boxes: {excluded: thm_id -> bool, included: thm_id -> bool} -> |
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196 |
proof list -> (thm_header * proof) list (*exception MIN_PROOF*) |
11519 | 197 |
end |
198 |
||
199 |
structure Proofterm : PROOFTERM = |
|
200 |
struct |
|
201 |
||
70397 | 202 |
(** datatype proof **) |
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203 |
|
70493 | 204 |
type thm_header = |
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205 |
{serial: serial, pos: Position.T list, theory_name: string, name: string, |
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206 |
prop: term, types: typ list option}; |
70493 | 207 |
|
11519 | 208 |
datatype proof = |
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209 |
MinProof |
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210 |
| PBound of int |
11519 | 211 |
| Abst of string * typ option * proof |
212 |
| AbsP of string * term option * proof |
|
12497 | 213 |
| op % of proof * term option |
214 |
| op %% of proof * proof |
|
11519 | 215 |
| Hyp of term |
216 |
| PAxm of string * term * typ list option |
|
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217 |
| OfClass of typ * class |
70834 | 218 |
| Oracle of string * term * typ list option |
70493 | 219 |
| PThm of thm_header * thm_body |
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220 |
and proof_body = PBody of |
70559 | 221 |
{oracles: (string * term option) Ord_List.T, |
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222 |
thms: (serial * thm_node) Ord_List.T, |
64573 | 223 |
proof: proof} |
70493 | 224 |
and thm_body = |
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225 |
Thm_Body of {export_proof: unit lazy, open_proof: proof -> proof, body: proof_body future} |
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226 |
and thm_node = |
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227 |
Thm_Node of {theory_name: string, name: string, prop: term, |
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|
228 |
body: proof_body future, consolidate: unit lazy}; |
11519 | 229 |
|
70559 | 230 |
type oracle = string * term option; |
70591 | 231 |
val oracle_ord = prod_ord fast_string_ord (option_ord Term_Ord.fast_term_ord); |
70559 | 232 |
|
70590 | 233 |
type thm = serial * thm_node; |
70593 | 234 |
val thm_ord: thm ord = fn ((i, _), (j, _)) => int_ord (j, i); |
28815 | 235 |
|
70587 | 236 |
|
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|
237 |
exception MIN_PROOF of unit; |
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|
238 |
|
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|
239 |
fun proof_of (PBody {proof, ...}) = proof; |
32094
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|
240 |
val join_proof = Future.join #> proof_of; |
17017 | 241 |
|
70396 | 242 |
fun map_proof_of f (PBody {oracles, thms, proof}) = |
243 |
PBody {oracles = oracles, thms = thms, proof = f proof}; |
|
244 |
||
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|
245 |
fun thm_header serial pos theory_name name prop types : thm_header = |
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|
246 |
{serial = serial, pos = pos, theory_name = theory_name, name = name, prop = prop, types = types}; |
70493 | 247 |
|
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|
248 |
val no_export_proof = Lazy.value (); |
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|
249 |
|
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|
250 |
fun thm_body body = |
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251 |
Thm_Body {export_proof = no_export_proof, open_proof = I, body = Future.value body}; |
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|
252 |
fun thm_body_export_proof (Thm_Body {export_proof, ...}) = export_proof; |
70493 | 253 |
fun thm_body_proof_raw (Thm_Body {body, ...}) = join_proof body; |
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|
254 |
fun thm_body_proof_open (Thm_Body {open_proof, body, ...}) = open_proof (join_proof body); |
70493 | 255 |
|
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consolidate nested thms with persistent result, for improved performance;
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|
256 |
fun rep_thm_node (Thm_Node args) = args; |
70595
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|
257 |
val thm_node_theory_name = #theory_name o rep_thm_node; |
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changeset
|
258 |
val thm_node_name = #name o rep_thm_node; |
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changeset
|
259 |
val thm_node_prop = #prop o rep_thm_node; |
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|
260 |
val thm_node_body = #body o rep_thm_node; |
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changeset
|
261 |
val thm_node_thms = thm_node_body #> Future.join #> (fn PBody {thms, ...} => thms); |
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changeset
|
262 |
val thm_node_consolidate = #consolidate o rep_thm_node; |
64573 | 263 |
|
70590 | 264 |
fun join_thms (thms: thm list) = |
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changeset
|
265 |
Future.joins (map (thm_node_body o #2) thms); |
1134e4d5e5b7
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changeset
|
266 |
|
66168 | 267 |
val consolidate = |
268 |
maps (fn PBody {thms, ...} => map (thm_node_consolidate o #2) thms) |
|
67669 | 269 |
#> Lazy.consolidate #> map Lazy.force #> ignore; |
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|
270 |
|
70595
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clarified thm_id vs. thm_node/thm: retain theory_name;
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changeset
|
271 |
fun make_thm_node theory_name name prop body = |
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
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changeset
|
272 |
Thm_Node {theory_name = theory_name, name = name, prop = prop, body = body, |
64574
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|
273 |
consolidate = |
66167 | 274 |
Lazy.lazy_name "Proofterm.make_thm_node" (fn () => |
64574
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|
275 |
let val PBody {thms, ...} = Future.join body |
66168 | 276 |
in consolidate (join_thms thms) end)}; |
44333
cc53ce50f738
reverted to join_bodies/join_proofs based on fold_body_thms to regain performance (escpecially of HOL-Proofs) -- see also aa9c1e9ef2ce and 4e2abb045eac;
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diff
changeset
|
277 |
|
70595
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clarified thm_id vs. thm_node/thm: retain theory_name;
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parents:
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changeset
|
278 |
fun make_thm ({serial, theory_name, name, prop, ...}: thm_header) (Thm_Body {body, ...}) = |
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
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parents:
70593
diff
changeset
|
279 |
(serial, make_thm_node theory_name name prop body); |
70589 | 280 |
|
17017 | 281 |
|
70397 | 282 |
(* proof atoms *) |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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parents:
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diff
changeset
|
283 |
|
d90258bbb18f
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parents:
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diff
changeset
|
284 |
fun fold_proof_atoms all f = |
d90258bbb18f
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parents:
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diff
changeset
|
285 |
let |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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parents:
28329
diff
changeset
|
286 |
fun app (Abst (_, _, prf)) = app prf |
d90258bbb18f
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parents:
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diff
changeset
|
287 |
| app (AbsP (_, _, prf)) = app prf |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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changeset
|
288 |
| app (prf % _) = app prf |
d90258bbb18f
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parents:
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diff
changeset
|
289 |
| app (prf1 %% prf2) = app prf1 #> app prf2 |
70493 | 290 |
| app (prf as PThm ({serial = i, ...}, Thm_Body {body, ...})) = (fn (x, seen) => |
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d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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diff
changeset
|
291 |
if Inttab.defined seen i then (x, seen) |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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diff
changeset
|
292 |
else |
28815 | 293 |
let val (x', seen') = |
29635
31d14e9fa0da
proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force;
wenzelm
parents:
29270
diff
changeset
|
294 |
(if all then app (join_proof body) else I) (x, Inttab.update (i, ()) seen) |
28815 | 295 |
in (f prf x', seen') end) |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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parents:
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diff
changeset
|
296 |
| app prf = (fn (x, seen) => (f prf x, seen)); |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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parents:
28329
diff
changeset
|
297 |
in fn prfs => fn x => #1 (fold app prfs (x, Inttab.empty)) end; |
19357
dade85a75c9f
Added alternative version of thms_of_proof that does not recursively
berghofe
parents:
19304
diff
changeset
|
298 |
|
30711 | 299 |
fun fold_body_thms f = |
300 |
let |
|
32726 | 301 |
fun app (PBody {thms, ...}) = |
64574
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diff
changeset
|
302 |
tap join_thms thms |> fold (fn (i, thm_node) => fn (x, seen) => |
32726 | 303 |
if Inttab.defined seen i then (x, seen) |
32094
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changeset
|
304 |
else |
89b9210c7506
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changeset
|
305 |
let |
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changeset
|
306 |
val name = thm_node_name thm_node; |
1134e4d5e5b7
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diff
changeset
|
307 |
val prop = thm_node_prop thm_node; |
1134e4d5e5b7
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diff
changeset
|
308 |
val body = Future.join (thm_node_body thm_node); |
1134e4d5e5b7
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parents:
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diff
changeset
|
309 |
val (x', seen') = app body (x, Inttab.update (i, ()) seen); |
1134e4d5e5b7
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parents:
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diff
changeset
|
310 |
in (f {serial = i, name = name, prop = prop, body = body} x', seen') end); |
32726 | 311 |
in fn bodies => fn x => #1 (fold app bodies (x, Inttab.empty)) end; |
30711 | 312 |
|
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
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parents:
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diff
changeset
|
313 |
|
28815 | 314 |
(* proof body *) |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
315 |
|
44334 | 316 |
val unions_oracles = Ord_List.unions oracle_ord; |
317 |
val unions_thms = Ord_List.unions thm_ord; |
|
30716
2ee706293eb5
removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a *full* proof;
wenzelm
parents:
30712
diff
changeset
|
318 |
|
70440 | 319 |
fun no_proof_body proof = PBody {oracles = [], thms = [], proof = proof}; |
70502
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
320 |
val no_thm_body = thm_body (no_proof_body MinProof); |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
321 |
|
70916
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
322 |
fun no_thm_names (Abst (x, T, prf)) = Abst (x, T, no_thm_names prf) |
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
323 |
| no_thm_names (AbsP (x, t, prf)) = AbsP (x, t, no_thm_names prf) |
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
324 |
| no_thm_names (prf % t) = no_thm_names prf % t |
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
325 |
| no_thm_names (prf1 %% prf2) = no_thm_names prf1 %% no_thm_names prf2 |
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
326 |
| no_thm_names (PThm ({serial, pos, theory_name, name = _, prop, types}, thm_body)) = |
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
327 |
PThm (thm_header serial pos theory_name "" prop types, thm_body) |
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
328 |
| no_thm_names a = a; |
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
329 |
|
70493 | 330 |
fun no_thm_proofs (Abst (x, T, prf)) = Abst (x, T, no_thm_proofs prf) |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
331 |
| no_thm_proofs (AbsP (x, t, prf)) = AbsP (x, t, no_thm_proofs prf) |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
332 |
| no_thm_proofs (prf % t) = no_thm_proofs prf % t |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
333 |
| no_thm_proofs (prf1 %% prf2) = no_thm_proofs prf1 %% no_thm_proofs prf2 |
70493 | 334 |
| no_thm_proofs (PThm (header, _)) = PThm (header, no_thm_body) |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
335 |
| no_thm_proofs a = a; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
336 |
|
70493 | 337 |
fun no_body_proofs (Abst (x, T, prf)) = Abst (x, T, no_body_proofs prf) |
70440 | 338 |
| no_body_proofs (AbsP (x, t, prf)) = AbsP (x, t, no_body_proofs prf) |
339 |
| no_body_proofs (prf % t) = no_body_proofs prf % t |
|
340 |
| no_body_proofs (prf1 %% prf2) = no_body_proofs prf1 %% no_body_proofs prf2 |
|
70502
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
341 |
| no_body_proofs (PThm (header, Thm_Body {export_proof, open_proof, body})) = |
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
342 |
let |
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
343 |
val body' = Future.value (no_proof_body (join_proof body)); |
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
344 |
val thm_body' = Thm_Body {export_proof = export_proof, open_proof = open_proof, body = body'}; |
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
345 |
in PThm (header, thm_body') end |
70440 | 346 |
| no_body_proofs a = a; |
347 |
||
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
348 |
|
70397 | 349 |
|
350 |
(** XML data representation **) |
|
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
351 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
352 |
(* encode *) |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
353 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
354 |
local |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
355 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
356 |
open XML.Encode Term_XML.Encode; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
357 |
|
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
358 |
fun proof consts prf = prf |> variant |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
359 |
[fn MinProof => ([], []), |
70844 | 360 |
fn PBound a => ([], int a), |
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
361 |
fn Abst (a, b, c) => ([a], pair (option typ) (proof consts) (b, c)), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
362 |
fn AbsP (a, b, c) => ([a], pair (option (term consts)) (proof consts) (b, c)), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
363 |
fn a % b => ([], pair (proof consts) (option (term consts)) (a, b)), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
364 |
fn a %% b => ([], pair (proof consts) (proof consts) (a, b)), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
365 |
fn Hyp a => ([], term consts a), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
366 |
fn PAxm (a, b, c) => ([a], pair (term consts) (option (list typ)) (b, c)), |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
367 |
fn OfClass (a, b) => ([b], typ a), |
70834 | 368 |
fn Oracle (a, b, c) => ([a], pair (term consts) (option (list typ)) (b, c)), |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
369 |
fn PThm ({serial, pos, theory_name, name, prop, types}, Thm_Body {open_proof, body, ...}) => |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
370 |
([int_atom serial, theory_name, name], |
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
371 |
pair (list properties) (pair (term consts) (pair (option (list typ)) (proof_body consts))) |
70497 | 372 |
(map Position.properties_of pos, (prop, (types, map_proof_of open_proof (Future.join body)))))] |
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
373 |
and proof_body consts (PBody {oracles, thms, proof = prf}) = |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
374 |
triple (list (pair string (option (term consts)))) (list (thm consts)) (proof consts) |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
375 |
(oracles, thms, prf) |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
376 |
and thm consts (a, thm_node) = |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
377 |
pair int (pair string (pair string (pair (term consts) (proof_body consts)))) |
70595
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
378 |
(a, (thm_node_theory_name thm_node, (thm_node_name thm_node, (thm_node_prop thm_node, |
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
379 |
(Future.join (thm_node_body thm_node)))))); |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
380 |
|
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
381 |
fun standard_term consts t = t |> variant |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
382 |
[fn Const (a, b) => ([a], list typ (Consts.typargs consts (a, b))), |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
383 |
fn Free (a, _) => ([a], []), |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
384 |
fn Var (a, _) => (indexname a, []), |
70844 | 385 |
fn Bound a => ([], int a), |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
386 |
fn Abs (a, b, c) => ([a], pair typ (standard_term consts) (b, c)), |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
387 |
fn op $ a => ([], pair (standard_term consts) (standard_term consts) a)]; |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
388 |
|
70829 | 389 |
fun standard_proof consts prf = prf |> variant |
70534
fb876ebbf5a7
export facts with reconstructed proof term (if possible), but its PThm boxes need to be collected separately;
wenzelm
parents:
70531
diff
changeset
|
390 |
[fn MinProof => ([], []), |
70844 | 391 |
fn PBound a => ([], int a), |
70829 | 392 |
fn Abst (a, SOME b, c) => ([a], pair typ (standard_proof consts) (b, c)), |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
393 |
fn AbsP (a, SOME b, c) => ([a], pair (standard_term consts) (standard_proof consts) (b, c)), |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
394 |
fn a % SOME b => ([], pair (standard_proof consts) (standard_term consts) (a, b)), |
70829 | 395 |
fn a %% b => ([], pair (standard_proof consts) (standard_proof consts) (a, b)), |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
396 |
fn Hyp a => ([], standard_term consts a), |
70534
fb876ebbf5a7
export facts with reconstructed proof term (if possible), but its PThm boxes need to be collected separately;
wenzelm
parents:
70531
diff
changeset
|
397 |
fn PAxm (name, _, SOME Ts) => ([name], list typ Ts), |
fb876ebbf5a7
export facts with reconstructed proof term (if possible), but its PThm boxes need to be collected separately;
wenzelm
parents:
70531
diff
changeset
|
398 |
fn OfClass (T, c) => ([c], typ T), |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
399 |
fn Oracle (name, prop, SOME Ts) => ([name], pair (standard_term consts) (list typ) (prop, Ts)), |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
400 |
fn PThm ({serial, theory_name, name, types = SOME Ts, ...}, _) => |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
401 |
([int_atom serial, theory_name, name], list typ Ts)]; |
70534
fb876ebbf5a7
export facts with reconstructed proof term (if possible), but its PThm boxes need to be collected separately;
wenzelm
parents:
70531
diff
changeset
|
402 |
|
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
403 |
in |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
404 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
405 |
val encode = proof; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
406 |
val encode_body = proof_body; |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
407 |
val encode_standard_term = standard_term; |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
408 |
val encode_standard_proof = standard_proof; |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
409 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
410 |
end; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
411 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
412 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
413 |
(* decode *) |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
414 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
415 |
local |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
416 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
417 |
open XML.Decode Term_XML.Decode; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
418 |
|
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
419 |
fun proof consts prf = prf |> variant |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
420 |
[fn ([], []) => MinProof, |
70844 | 421 |
fn ([], a) => PBound (int a), |
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
422 |
fn ([a], b) => let val (c, d) = pair (option typ) (proof consts) b in Abst (a, c, d) end, |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
423 |
fn ([a], b) => let val (c, d) = pair (option (term consts)) (proof consts) b in AbsP (a, c, d) end, |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
424 |
fn ([], a) => op % (pair (proof consts) (option (term consts)) a), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
425 |
fn ([], a) => op %% (pair (proof consts) (proof consts) a), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
426 |
fn ([], a) => Hyp (term consts a), |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
427 |
fn ([a], b) => let val (c, d) = pair (term consts) (option (list typ)) b in PAxm (a, c, d) end, |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
428 |
fn ([b], a) => OfClass (typ a, b), |
70834 | 429 |
fn ([a], b) => let val (c, d) = pair (term consts) (option (list typ)) b in Oracle (a, c, d) end, |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
430 |
fn ([a, b, c], d) => |
70497 | 431 |
let |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
432 |
val ((e, (f, (g, h)))) = |
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
433 |
pair (list properties) (pair (term consts) (pair (option (list typ)) (proof_body consts))) d; |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
434 |
val header = thm_header (int_atom a) (map Position.of_properties e) b c f g; |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
435 |
in PThm (header, thm_body h) end] |
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
436 |
and proof_body consts x = |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
437 |
let |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
438 |
val (a, b, c) = |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
439 |
triple (list (pair string (option (term consts)))) (list (thm consts)) (proof consts) x; |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
440 |
in PBody {oracles = a, thms = b, proof = c} end |
70784
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
441 |
and thm consts x = |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
442 |
let |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
443 |
val (a, (b, (c, (d, e)))) = |
799437173553
Term_XML.Encode/Decode.term uses Const "typargs";
wenzelm
parents:
70604
diff
changeset
|
444 |
pair int (pair string (pair string (pair (term consts) (proof_body consts)))) x |
70595
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
445 |
in (a, make_thm_node b c d (Future.value e)) end; |
52424
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
446 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
447 |
in |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
448 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
449 |
val decode = proof; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
450 |
val decode_body = proof_body; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
451 |
|
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
452 |
end; |
77075c576d4c
support for XML data representation of proof terms;
wenzelm
parents:
51700
diff
changeset
|
453 |
|
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
454 |
|
70397 | 455 |
(** proof objects with different levels of detail **) |
11519 | 456 |
|
70587 | 457 |
val proofs = Unsynchronized.ref 2; |
458 |
fun proofs_enabled () = ! proofs >= 2; |
|
459 |
||
64568
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
460 |
fun atomic_proof prf = |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
461 |
(case prf of |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
462 |
Abst _ => false |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
463 |
| AbsP _ => false |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
464 |
| op % _ => false |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
465 |
| op %% _ => false |
70402
29d81b53c40b
treat MinProof like Promise before 725438ceae7c, e.g. relevant for performance of session Corec (due to Thm.derivation_closed/close_derivation);
wenzelm
parents:
70400
diff
changeset
|
466 |
| MinProof => false |
64568
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
467 |
| _ => true); |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
468 |
|
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
469 |
fun compact_proof (prf % _) = compact_proof prf |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
470 |
| compact_proof (prf1 %% prf2) = atomic_proof prf2 andalso compact_proof prf1 |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
471 |
| compact_proof prf = atomic_proof prf; |
a504a3dec35a
more careful derivation_closed / close_derivation;
wenzelm
parents:
64566
diff
changeset
|
472 |
|
15531 | 473 |
fun (prf %> t) = prf % SOME t; |
11519 | 474 |
|
15570 | 475 |
val proof_combt = Library.foldl (op %>); |
476 |
val proof_combt' = Library.foldl (op %); |
|
477 |
val proof_combP = Library.foldl (op %%); |
|
11519 | 478 |
|
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
479 |
fun strip_combt prf = |
11615 | 480 |
let fun stripc (prf % t, ts) = stripc (prf, t::ts) |
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
481 |
| stripc x = x |
11519 | 482 |
in stripc (prf, []) end; |
483 |
||
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
484 |
fun strip_combP prf = |
11615 | 485 |
let fun stripc (prf %% prf', prfs) = stripc (prf, prf'::prfs) |
11519 | 486 |
| stripc x = x |
487 |
in stripc (prf, []) end; |
|
488 |
||
70830 | 489 |
fun strip_thm_body (body as PBody {proof, ...}) = |
70493 | 490 |
(case fst (strip_combt (fst (strip_combP proof))) of |
491 |
PThm (_, Thm_Body {body = body', ...}) => Future.join body' |
|
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
492 |
| _ => body); |
11519 | 493 |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
494 |
val mk_Abst = fold_rev (fn (x, _: typ) => fn prf => Abst (x, NONE, prf)); |
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
495 |
val mk_AbsP = fold_rev (fn _: term => fn prf => AbsP ("H", NONE, prf)); |
11519 | 496 |
|
36620
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
497 |
fun map_proof_same term typ ofclass = |
20000 | 498 |
let |
32024 | 499 |
val typs = Same.map typ; |
20000 | 500 |
|
32024 | 501 |
fun proof (Abst (s, T, prf)) = |
502 |
(Abst (s, Same.map_option typ T, Same.commit proof prf) |
|
503 |
handle Same.SAME => Abst (s, T, proof prf)) |
|
504 |
| proof (AbsP (s, t, prf)) = |
|
505 |
(AbsP (s, Same.map_option term t, Same.commit proof prf) |
|
506 |
handle Same.SAME => AbsP (s, t, proof prf)) |
|
507 |
| proof (prf % t) = |
|
508 |
(proof prf % Same.commit (Same.map_option term) t |
|
509 |
handle Same.SAME => prf % Same.map_option term t) |
|
510 |
| proof (prf1 %% prf2) = |
|
511 |
(proof prf1 %% Same.commit proof prf2 |
|
512 |
handle Same.SAME => prf1 %% proof prf2) |
|
513 |
| proof (PAxm (a, prop, SOME Ts)) = PAxm (a, prop, SOME (typs Ts)) |
|
36620
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
514 |
| proof (OfClass T_c) = ofclass T_c |
32024 | 515 |
| proof (Oracle (a, prop, SOME Ts)) = Oracle (a, prop, SOME (typs Ts)) |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
516 |
| proof (PThm ({serial, pos, theory_name, name, prop, types = SOME Ts}, thm_body)) = |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
517 |
PThm (thm_header serial pos theory_name name prop (SOME (typs Ts)), thm_body) |
32024 | 518 |
| proof _ = raise Same.SAME; |
36620
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
519 |
in proof end; |
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
520 |
|
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
521 |
fun map_proof_terms_same term typ = map_proof_same term typ (fn (T, c) => OfClass (typ T, c)); |
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
522 |
fun map_proof_types_same typ = map_proof_terms_same (Term_Subst.map_types_same typ) typ; |
20000 | 523 |
|
22662 | 524 |
fun same eq f x = |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
525 |
let val x' = f x |
32019 | 526 |
in if eq (x, x') then raise Same.SAME else x' end; |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
527 |
|
36620
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
528 |
fun map_proof_terms f g = Same.commit (map_proof_terms_same (same (op =) f) (same (op =) g)); |
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
529 |
fun map_proof_types f = Same.commit (map_proof_types_same (same (op =) f)); |
11519 | 530 |
|
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
531 |
fun fold_proof_terms f (Abst (_, _, prf)) = fold_proof_terms f prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
532 |
| fold_proof_terms f (AbsP (_, SOME t, prf)) = f t #> fold_proof_terms f prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
533 |
| fold_proof_terms f (AbsP (_, NONE, prf)) = fold_proof_terms f prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
534 |
| fold_proof_terms f (prf % SOME t) = fold_proof_terms f prf #> f t |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
535 |
| fold_proof_terms f (prf % NONE) = fold_proof_terms f prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
536 |
| fold_proof_terms f (prf1 %% prf2) = fold_proof_terms f prf1 #> fold_proof_terms f prf2 |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
537 |
| fold_proof_terms _ _ = I; |
11519 | 538 |
|
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
539 |
fun fold_proof_terms_types f g (Abst (_, SOME T, prf)) = g T #> fold_proof_terms_types f g prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
540 |
| fold_proof_terms_types f g (Abst (_, NONE, prf)) = fold_proof_terms_types f g prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
541 |
| fold_proof_terms_types f g (AbsP (_, SOME t, prf)) = f t #> fold_proof_terms_types f g prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
542 |
| fold_proof_terms_types f g (AbsP (_, NONE, prf)) = fold_proof_terms_types f g prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
543 |
| fold_proof_terms_types f g (prf % SOME t) = fold_proof_terms_types f g prf #> f t |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
544 |
| fold_proof_terms_types f g (prf % NONE) = fold_proof_terms_types f g prf |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
545 |
| fold_proof_terms_types f g (prf1 %% prf2) = |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
546 |
fold_proof_terms_types f g prf1 #> fold_proof_terms_types f g prf2 |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
547 |
| fold_proof_terms_types _ g (PAxm (_, _, SOME Ts)) = fold g Ts |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
548 |
| fold_proof_terms_types _ g (OfClass (T, _)) = g T |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
549 |
| fold_proof_terms_types _ g (Oracle (_, _, SOME Ts)) = fold g Ts |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
550 |
| fold_proof_terms_types _ g (PThm ({types = SOME Ts, ...}, _)) = fold g Ts |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
551 |
| fold_proof_terms_types _ _ _ = I; |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
552 |
|
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
553 |
fun maxidx_proof prf = fold_proof_terms_types Term.maxidx_term Term.maxidx_typ prf; |
12868 | 554 |
|
13744 | 555 |
fun size_of_proof (Abst (_, _, prf)) = 1 + size_of_proof prf |
63857 | 556 |
| size_of_proof (AbsP (_, _, prf)) = 1 + size_of_proof prf |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
557 |
| size_of_proof (prf % _) = 1 + size_of_proof prf |
13744 | 558 |
| size_of_proof (prf1 %% prf2) = size_of_proof prf1 + size_of_proof prf2 |
559 |
| size_of_proof _ = 1; |
|
560 |
||
70417 | 561 |
fun change_types types (PAxm (name, prop, _)) = PAxm (name, prop, types) |
562 |
| change_types (SOME [T]) (OfClass (_, c)) = OfClass (T, c) |
|
563 |
| change_types types (Oracle (name, prop, _)) = Oracle (name, prop, types) |
|
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
564 |
| change_types types (PThm ({serial, pos, theory_name, name, prop, types = _}, thm_body)) = |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
565 |
PThm (thm_header serial pos theory_name name prop types, thm_body) |
70417 | 566 |
| change_types _ prf = prf; |
12907
27e6d344d724
New function change_type for changing type assignments of theorems,
berghofe
parents:
12890
diff
changeset
|
567 |
|
11519 | 568 |
|
70397 | 569 |
(* utilities *) |
11519 | 570 |
|
571 |
fun strip_abs (_::Ts) (Abs (_, _, t)) = strip_abs Ts t |
|
572 |
| strip_abs _ t = t; |
|
573 |
||
15570 | 574 |
fun mk_abs Ts t = Library.foldl (fn (t', T) => Abs ("", T, t')) (t, Ts); |
11519 | 575 |
|
576 |
||
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
577 |
(*Abstraction of a proof term over its occurrences of v, |
11519 | 578 |
which must contain no loose bound variables. |
579 |
The resulting proof term is ready to become the body of an Abst.*) |
|
580 |
||
581 |
fun prf_abstract_over v = |
|
582 |
let |
|
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
583 |
fun abst' lev u = if v aconv u then Bound lev else |
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
584 |
(case u of |
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
585 |
Abs (a, T, t) => Abs (a, T, abst' (lev + 1) t) |
32019 | 586 |
| f $ t => (abst' lev f $ absth' lev t handle Same.SAME => f $ abst' lev t) |
587 |
| _ => raise Same.SAME) |
|
588 |
and absth' lev t = (abst' lev t handle Same.SAME => t); |
|
11519 | 589 |
|
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
590 |
fun abst lev (AbsP (a, t, prf)) = |
32024 | 591 |
(AbsP (a, Same.map_option (abst' lev) t, absth lev prf) |
32019 | 592 |
handle Same.SAME => AbsP (a, t, abst lev prf)) |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
593 |
| abst lev (Abst (a, T, prf)) = Abst (a, T, abst (lev + 1) prf) |
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
594 |
| abst lev (prf1 %% prf2) = (abst lev prf1 %% absth lev prf2 |
32019 | 595 |
handle Same.SAME => prf1 %% abst lev prf2) |
15570 | 596 |
| abst lev (prf % t) = (abst lev prf % Option.map (absth' lev) t |
32024 | 597 |
handle Same.SAME => prf % Same.map_option (abst' lev) t) |
32019 | 598 |
| abst _ _ = raise Same.SAME |
32024 | 599 |
and absth lev prf = (abst lev prf handle Same.SAME => prf); |
11519 | 600 |
|
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
601 |
in absth 0 end; |
11519 | 602 |
|
603 |
||
604 |
(*increments a proof term's non-local bound variables |
|
605 |
required when moving a proof term within abstractions |
|
606 |
inc is increment for bound variables |
|
607 |
lev is level at which a bound variable is considered 'loose'*) |
|
608 |
||
609 |
fun incr_bv' inct tlev t = incr_bv (inct, tlev, t); |
|
610 |
||
63857 | 611 |
fun prf_incr_bv' incP _ Plev _ (PBound i) = |
32019 | 612 |
if i >= Plev then PBound (i+incP) else raise Same.SAME |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
613 |
| prf_incr_bv' incP inct Plev tlev (AbsP (a, t, body)) = |
32024 | 614 |
(AbsP (a, Same.map_option (same (op =) (incr_bv' inct tlev)) t, |
32019 | 615 |
prf_incr_bv incP inct (Plev+1) tlev body) handle Same.SAME => |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
616 |
AbsP (a, t, prf_incr_bv' incP inct (Plev+1) tlev body)) |
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
617 |
| prf_incr_bv' incP inct Plev tlev (Abst (a, T, body)) = |
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
618 |
Abst (a, T, prf_incr_bv' incP inct Plev (tlev+1) body) |
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
619 |
| prf_incr_bv' incP inct Plev tlev (prf %% prf') = |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
620 |
(prf_incr_bv' incP inct Plev tlev prf %% prf_incr_bv incP inct Plev tlev prf' |
32019 | 621 |
handle Same.SAME => prf %% prf_incr_bv' incP inct Plev tlev prf') |
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
622 |
| prf_incr_bv' incP inct Plev tlev (prf % t) = |
15570 | 623 |
(prf_incr_bv' incP inct Plev tlev prf % Option.map (incr_bv' inct tlev) t |
32024 | 624 |
handle Same.SAME => prf % Same.map_option (same (op =) (incr_bv' inct tlev)) t) |
32019 | 625 |
| prf_incr_bv' _ _ _ _ _ = raise Same.SAME |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
626 |
and prf_incr_bv incP inct Plev tlev prf = |
32019 | 627 |
(prf_incr_bv' incP inct Plev tlev prf handle Same.SAME => prf); |
11519 | 628 |
|
629 |
fun incr_pboundvars 0 0 prf = prf |
|
630 |
| incr_pboundvars incP inct prf = prf_incr_bv incP inct 0 0 prf; |
|
631 |
||
632 |
||
11615 | 633 |
fun prf_loose_bvar1 (prf1 %% prf2) k = prf_loose_bvar1 prf1 k orelse prf_loose_bvar1 prf2 k |
15531 | 634 |
| prf_loose_bvar1 (prf % SOME t) k = prf_loose_bvar1 prf k orelse loose_bvar1 (t, k) |
635 |
| prf_loose_bvar1 (_ % NONE) _ = true |
|
636 |
| prf_loose_bvar1 (AbsP (_, SOME t, prf)) k = loose_bvar1 (t, k) orelse prf_loose_bvar1 prf k |
|
63857 | 637 |
| prf_loose_bvar1 (AbsP (_, NONE, _)) _ = true |
11519 | 638 |
| prf_loose_bvar1 (Abst (_, _, prf)) k = prf_loose_bvar1 prf (k+1) |
639 |
| prf_loose_bvar1 _ _ = false; |
|
640 |
||
641 |
fun prf_loose_Pbvar1 (PBound i) k = i = k |
|
11615 | 642 |
| prf_loose_Pbvar1 (prf1 %% prf2) k = prf_loose_Pbvar1 prf1 k orelse prf_loose_Pbvar1 prf2 k |
643 |
| prf_loose_Pbvar1 (prf % _) k = prf_loose_Pbvar1 prf k |
|
11519 | 644 |
| prf_loose_Pbvar1 (AbsP (_, _, prf)) k = prf_loose_Pbvar1 prf (k+1) |
645 |
| prf_loose_Pbvar1 (Abst (_, _, prf)) k = prf_loose_Pbvar1 prf k |
|
646 |
| prf_loose_Pbvar1 _ _ = false; |
|
647 |
||
63857 | 648 |
fun prf_add_loose_bnos plev _ (PBound i) (is, js) = |
17492 | 649 |
if i < plev then (is, js) else (insert (op =) (i-plev) is, js) |
12279 | 650 |
| prf_add_loose_bnos plev tlev (prf1 %% prf2) p = |
651 |
prf_add_loose_bnos plev tlev prf2 |
|
652 |
(prf_add_loose_bnos plev tlev prf1 p) |
|
653 |
| prf_add_loose_bnos plev tlev (prf % opt) (is, js) = |
|
64566 | 654 |
prf_add_loose_bnos plev tlev prf |
655 |
(case opt of |
|
17492 | 656 |
NONE => (is, insert (op =) ~1 js) |
15531 | 657 |
| SOME t => (is, add_loose_bnos (t, tlev, js))) |
12279 | 658 |
| prf_add_loose_bnos plev tlev (AbsP (_, opt, prf)) (is, js) = |
64566 | 659 |
prf_add_loose_bnos (plev+1) tlev prf |
660 |
(case opt of |
|
17492 | 661 |
NONE => (is, insert (op =) ~1 js) |
15531 | 662 |
| SOME t => (is, add_loose_bnos (t, tlev, js))) |
12279 | 663 |
| prf_add_loose_bnos plev tlev (Abst (_, _, prf)) p = |
664 |
prf_add_loose_bnos plev (tlev+1) prf p |
|
665 |
| prf_add_loose_bnos _ _ _ _ = ([], []); |
|
666 |
||
11519 | 667 |
|
70397 | 668 |
(* substitutions *) |
11519 | 669 |
|
31977 | 670 |
fun del_conflicting_tvars envT T = Term_Subst.instantiateT |
19482
9f11af8f7ef9
tuned basic list operators (flat, maps, map_filter);
wenzelm
parents:
19357
diff
changeset
|
671 |
(map_filter (fn ixnS as (_, S) => |
26328 | 672 |
(Type.lookup envT ixnS; NONE) handle TYPE _ => |
70811
785a2112f861
clarified signature -- some operations to support fully explicit proof terms;
wenzelm
parents:
70810
diff
changeset
|
673 |
SOME (ixnS, Logic.dummy_tfree S)) (Term.add_tvarsT T [])) T; |
18316
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
674 |
|
31977 | 675 |
fun del_conflicting_vars env t = Term_Subst.instantiate |
19482
9f11af8f7ef9
tuned basic list operators (flat, maps, map_filter);
wenzelm
parents:
19357
diff
changeset
|
676 |
(map_filter (fn ixnS as (_, S) => |
32019 | 677 |
(Type.lookup (Envir.type_env env) ixnS; NONE) handle TYPE _ => |
70811
785a2112f861
clarified signature -- some operations to support fully explicit proof terms;
wenzelm
parents:
70810
diff
changeset
|
678 |
SOME (ixnS, Logic.dummy_tfree S)) (Term.add_tvars t []), |
44118
69e29cf993c0
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44116
diff
changeset
|
679 |
map_filter (fn (ixnT as (_, T)) => |
51700 | 680 |
(Envir.lookup env ixnT; NONE) handle TYPE _ => |
44118
69e29cf993c0
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44116
diff
changeset
|
681 |
SOME (ixnT, Free ("dummy", T))) (Term.add_vars t [])) t; |
18316
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
682 |
|
11519 | 683 |
fun norm_proof env = |
684 |
let |
|
32019 | 685 |
val envT = Envir.type_env env; |
18316
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
686 |
fun msg s = warning ("type conflict in norm_proof:\n" ^ s); |
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
687 |
fun htype f t = f env t handle TYPE (s, _, _) => |
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
688 |
(msg s; f env (del_conflicting_vars env t)); |
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
689 |
fun htypeT f T = f envT T handle TYPE (s, _, _) => |
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
690 |
(msg s; f envT (del_conflicting_tvars envT T)); |
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
691 |
fun htypeTs f Ts = f envT Ts handle TYPE (s, _, _) => |
4b62e0cb3aa8
Improved norm_proof to handle proofs containing term (type) variables
berghofe
parents:
18030
diff
changeset
|
692 |
(msg s; f envT (map (del_conflicting_tvars envT) Ts)); |
32024 | 693 |
|
32019 | 694 |
fun norm (Abst (s, T, prf)) = |
32024 | 695 |
(Abst (s, Same.map_option (htypeT Envir.norm_type_same) T, Same.commit norm prf) |
32019 | 696 |
handle Same.SAME => Abst (s, T, norm prf)) |
697 |
| norm (AbsP (s, t, prf)) = |
|
32024 | 698 |
(AbsP (s, Same.map_option (htype Envir.norm_term_same) t, Same.commit norm prf) |
32019 | 699 |
handle Same.SAME => AbsP (s, t, norm prf)) |
700 |
| norm (prf % t) = |
|
701 |
(norm prf % Option.map (htype Envir.norm_term) t |
|
32024 | 702 |
handle Same.SAME => prf % Same.map_option (htype Envir.norm_term_same) t) |
32019 | 703 |
| norm (prf1 %% prf2) = |
704 |
(norm prf1 %% Same.commit norm prf2 |
|
705 |
handle Same.SAME => prf1 %% norm prf2) |
|
706 |
| norm (PAxm (s, prop, Ts)) = |
|
32024 | 707 |
PAxm (s, prop, Same.map_option (htypeTs Envir.norm_types_same) Ts) |
32019 | 708 |
| norm (OfClass (T, c)) = |
709 |
OfClass (htypeT Envir.norm_type_same T, c) |
|
710 |
| norm (Oracle (s, prop, Ts)) = |
|
32024 | 711 |
Oracle (s, prop, Same.map_option (htypeTs Envir.norm_types_same) Ts) |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
712 |
| norm (PThm ({serial = i, pos = p, theory_name, name = a, prop = t, types = Ts}, thm_body)) = |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
713 |
PThm (thm_header i p theory_name a t |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
714 |
(Same.map_option (htypeTs Envir.norm_types_same) Ts), thm_body) |
32019 | 715 |
| norm _ = raise Same.SAME; |
716 |
in Same.commit norm end; |
|
11519 | 717 |
|
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
718 |
|
70397 | 719 |
(* remove some types in proof term (to save space) *) |
11519 | 720 |
|
721 |
fun remove_types (Abs (s, _, t)) = Abs (s, dummyT, remove_types t) |
|
722 |
| remove_types (t $ u) = remove_types t $ remove_types u |
|
723 |
| remove_types (Const (s, _)) = Const (s, dummyT) |
|
724 |
| remove_types t = t; |
|
725 |
||
32032 | 726 |
fun remove_types_env (Envir.Envir {maxidx, tenv, tyenv}) = |
39020 | 727 |
Envir.Envir {maxidx = maxidx, tenv = Vartab.map (K (apsnd remove_types)) tenv, tyenv = tyenv}; |
11519 | 728 |
|
729 |
fun norm_proof' env prf = norm_proof (remove_types_env env) prf; |
|
730 |
||
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
731 |
|
70397 | 732 |
(* substitution of bound variables *) |
11519 | 733 |
|
734 |
fun prf_subst_bounds args prf = |
|
735 |
let |
|
736 |
val n = length args; |
|
737 |
fun subst' lev (Bound i) = |
|
32019 | 738 |
(if i<lev then raise Same.SAME (*var is locally bound*) |
30146 | 739 |
else incr_boundvars lev (nth args (i-lev)) |
43278 | 740 |
handle General.Subscript => Bound (i-n)) (*loose: change it*) |
11519 | 741 |
| subst' lev (Abs (a, T, body)) = Abs (a, T, subst' (lev+1) body) |
742 |
| subst' lev (f $ t) = (subst' lev f $ substh' lev t |
|
32019 | 743 |
handle Same.SAME => f $ subst' lev t) |
744 |
| subst' _ _ = raise Same.SAME |
|
745 |
and substh' lev t = (subst' lev t handle Same.SAME => t); |
|
11519 | 746 |
|
32057 | 747 |
fun subst lev (AbsP (a, t, body)) = |
748 |
(AbsP (a, Same.map_option (subst' lev) t, substh lev body) |
|
32019 | 749 |
handle Same.SAME => AbsP (a, t, subst lev body)) |
11519 | 750 |
| subst lev (Abst (a, T, body)) = Abst (a, T, subst (lev+1) body) |
11615 | 751 |
| subst lev (prf %% prf') = (subst lev prf %% substh lev prf' |
32019 | 752 |
handle Same.SAME => prf %% subst lev prf') |
15570 | 753 |
| subst lev (prf % t) = (subst lev prf % Option.map (substh' lev) t |
32024 | 754 |
handle Same.SAME => prf % Same.map_option (subst' lev) t) |
32019 | 755 |
| subst _ _ = raise Same.SAME |
32024 | 756 |
and substh lev prf = (subst lev prf handle Same.SAME => prf); |
64566 | 757 |
in (case args of [] => prf | _ => substh 0 prf) end; |
11519 | 758 |
|
759 |
fun prf_subst_pbounds args prf = |
|
760 |
let |
|
761 |
val n = length args; |
|
762 |
fun subst (PBound i) Plev tlev = |
|
32019 | 763 |
(if i < Plev then raise Same.SAME (*var is locally bound*) |
30146 | 764 |
else incr_pboundvars Plev tlev (nth args (i-Plev)) |
43278 | 765 |
handle General.Subscript => PBound (i-n) (*loose: change it*)) |
11519 | 766 |
| subst (AbsP (a, t, body)) Plev tlev = AbsP (a, t, subst body (Plev+1) tlev) |
767 |
| subst (Abst (a, T, body)) Plev tlev = Abst (a, T, subst body Plev (tlev+1)) |
|
11615 | 768 |
| subst (prf %% prf') Plev tlev = (subst prf Plev tlev %% substh prf' Plev tlev |
32019 | 769 |
handle Same.SAME => prf %% subst prf' Plev tlev) |
11615 | 770 |
| subst (prf % t) Plev tlev = subst prf Plev tlev % t |
63857 | 771 |
| subst _ _ _ = raise Same.SAME |
32019 | 772 |
and substh prf Plev tlev = (subst prf Plev tlev handle Same.SAME => prf) |
64566 | 773 |
in (case args of [] => prf | _ => substh prf 0 0) end; |
11519 | 774 |
|
775 |
||
70397 | 776 |
(* freezing and thawing of variables in proof terms *) |
11519 | 777 |
|
44101 | 778 |
local |
779 |
||
11519 | 780 |
fun frzT names = |
44101 | 781 |
map_type_tvar (fn (ixn, S) => TFree (the (AList.lookup (op =) names ixn), S)); |
11519 | 782 |
|
783 |
fun thawT names = |
|
44101 | 784 |
map_type_tfree (fn (a, S) => |
785 |
(case AList.lookup (op =) names a of |
|
786 |
NONE => TFree (a, S) |
|
787 |
| SOME ixn => TVar (ixn, S))); |
|
11519 | 788 |
|
789 |
fun freeze names names' (t $ u) = |
|
790 |
freeze names names' t $ freeze names names' u |
|
791 |
| freeze names names' (Abs (s, T, t)) = |
|
792 |
Abs (s, frzT names' T, freeze names names' t) |
|
63857 | 793 |
| freeze _ names' (Const (s, T)) = Const (s, frzT names' T) |
794 |
| freeze _ names' (Free (s, T)) = Free (s, frzT names' T) |
|
11519 | 795 |
| freeze names names' (Var (ixn, T)) = |
44101 | 796 |
Free (the (AList.lookup (op =) names ixn), frzT names' T) |
63857 | 797 |
| freeze _ _ t = t; |
11519 | 798 |
|
799 |
fun thaw names names' (t $ u) = |
|
800 |
thaw names names' t $ thaw names names' u |
|
801 |
| thaw names names' (Abs (s, T, t)) = |
|
802 |
Abs (s, thawT names' T, thaw names names' t) |
|
63857 | 803 |
| thaw _ names' (Const (s, T)) = Const (s, thawT names' T) |
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
804 |
| thaw names names' (Free (s, T)) = |
44101 | 805 |
let val T' = thawT names' T in |
806 |
(case AList.lookup (op =) names s of |
|
15531 | 807 |
NONE => Free (s, T') |
44101 | 808 |
| SOME ixn => Var (ixn, T')) |
11519 | 809 |
end |
63857 | 810 |
| thaw _ names' (Var (ixn, T)) = Var (ixn, thawT names' T) |
811 |
| thaw _ _ t = t; |
|
11519 | 812 |
|
44101 | 813 |
in |
814 |
||
11519 | 815 |
fun freeze_thaw_prf prf = |
816 |
let |
|
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
817 |
val (fs, Tfs, vs, Tvs) = fold_proof_terms_types |
20147 | 818 |
(fn t => fn (fs, Tfs, vs, Tvs) => |
29261 | 819 |
(Term.add_free_names t fs, Term.add_tfree_names t Tfs, |
820 |
Term.add_var_names t vs, Term.add_tvar_names t Tvs)) |
|
20147 | 821 |
(fn T => fn (fs, Tfs, vs, Tvs) => |
29261 | 822 |
(fs, Term.add_tfree_namesT T Tfs, |
823 |
vs, Term.add_tvar_namesT T Tvs)) |
|
20147 | 824 |
prf ([], [], [], []); |
29261 | 825 |
val names = vs ~~ Name.variant_list fs (map fst vs); |
20071
8f3e1ddb50e6
replaced Term.variant(list) by Name.variant(_list);
wenzelm
parents:
20000
diff
changeset
|
826 |
val names' = Tvs ~~ Name.variant_list Tfs (map fst Tvs); |
11519 | 827 |
val rnames = map swap names; |
828 |
val rnames' = map swap names'; |
|
829 |
in |
|
830 |
(map_proof_terms (freeze names names') (frzT names') prf, |
|
831 |
map_proof_terms (thaw rnames rnames') (thawT rnames')) |
|
832 |
end; |
|
833 |
||
44101 | 834 |
end; |
835 |
||
11519 | 836 |
|
70397 | 837 |
|
838 |
(** inference rules **) |
|
839 |
||
70824 | 840 |
(* trivial implication *) |
841 |
||
842 |
val trivial_proof = AbsP ("H", NONE, PBound 0); |
|
843 |
||
844 |
||
70397 | 845 |
(* implication introduction *) |
11519 | 846 |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
847 |
fun gen_implies_intr_proof f h prf = |
11519 | 848 |
let |
32019 | 849 |
fun abshyp i (Hyp t) = if h aconv t then PBound i else raise Same.SAME |
11519 | 850 |
| abshyp i (Abst (s, T, prf)) = Abst (s, T, abshyp i prf) |
32024 | 851 |
| abshyp i (AbsP (s, t, prf)) = AbsP (s, t, abshyp (i + 1) prf) |
11615 | 852 |
| abshyp i (prf % t) = abshyp i prf % t |
32024 | 853 |
| abshyp i (prf1 %% prf2) = |
854 |
(abshyp i prf1 %% abshyph i prf2 |
|
855 |
handle Same.SAME => prf1 %% abshyp i prf2) |
|
32019 | 856 |
| abshyp _ _ = raise Same.SAME |
32024 | 857 |
and abshyph i prf = (abshyp i prf handle Same.SAME => prf); |
11519 | 858 |
in |
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
859 |
AbsP ("H", f h, abshyph 0 prf) |
11519 | 860 |
end; |
861 |
||
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
862 |
val implies_intr_proof = gen_implies_intr_proof (K NONE); |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
863 |
val implies_intr_proof' = gen_implies_intr_proof SOME; |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
864 |
|
11519 | 865 |
|
70397 | 866 |
(* forall introduction *) |
11519 | 867 |
|
70814 | 868 |
fun forall_intr_proof (a, v) opt_T prf = Abst (a, opt_T, prf_abstract_over v prf); |
11519 | 869 |
|
70814 | 870 |
fun forall_intr_proof' v prf = |
871 |
let val (a, T) = (case v of Var ((a, _), T) => (a, T) | Free (a, T) => (a, T)) |
|
872 |
in forall_intr_proof (a, v) (SOME T) prf end; |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
873 |
|
11519 | 874 |
|
70397 | 875 |
(* varify *) |
11519 | 876 |
|
877 |
fun varify_proof t fixed prf = |
|
878 |
let |
|
19304 | 879 |
val fs = Term.fold_types (Term.fold_atyps |
880 |
(fn TFree v => if member (op =) fixed v then I else insert (op =) v | _ => I)) t []; |
|
29261 | 881 |
val used = Name.context |
882 |
|> fold_types (fold_atyps (fn TVar ((a, _), _) => Name.declare a | _ => I)) t; |
|
43326
47cf4bc789aa
simplified Name.variant -- discontinued builtin fold_map;
wenzelm
parents:
43324
diff
changeset
|
883 |
val fmap = fs ~~ #1 (fold_map Name.variant (map fst fs) used); |
63857 | 884 |
fun thaw (a, S) = |
885 |
(case AList.lookup (op =) fmap (a, S) of |
|
886 |
NONE => TFree (a, S) |
|
15531 | 887 |
| SOME b => TVar ((b, 0), S)); |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
888 |
in map_proof_terms (map_types (map_type_tfree thaw)) (map_type_tfree thaw) prf end; |
11519 | 889 |
|
890 |
||
891 |
local |
|
892 |
||
44116
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
893 |
fun new_name ix (pairs, used) = |
43324
2b47822868e4
discontinued Name.variant to emphasize that this is old-style / indirect;
wenzelm
parents:
43278
diff
changeset
|
894 |
let val v = singleton (Name.variant_list used) (string_of_indexname ix) |
44116
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
895 |
in ((ix, v) :: pairs, v :: used) end; |
11519 | 896 |
|
44116
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
897 |
fun freeze_one alist (ix, sort) = |
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
898 |
(case AList.lookup (op =) alist ix of |
15531 | 899 |
NONE => TVar (ix, sort) |
900 |
| SOME name => TFree (name, sort)); |
|
11519 | 901 |
|
902 |
in |
|
903 |
||
36619
deadcd0ec431
renamed Proofterm.freezeT to Proofterm.legacy_freezeT (cf. 88756a5a92fc);
wenzelm
parents:
35851
diff
changeset
|
904 |
fun legacy_freezeT t prf = |
11519 | 905 |
let |
44116
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
906 |
val used = Term.add_tfree_names t []; |
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
907 |
val (alist, _) = fold_rev new_name (map #1 (Term.add_tvars t [])) ([], used); |
11519 | 908 |
in |
909 |
(case alist of |
|
910 |
[] => prf (*nothing to do!*) |
|
911 |
| _ => |
|
44116
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
912 |
let val frzT = map_type_tvar (freeze_one alist) |
c70257b4cb7e
avoid OldTerm operations -- with subtle changes of semantics;
wenzelm
parents:
44113
diff
changeset
|
913 |
in map_proof_terms (map_types frzT) frzT prf end) |
11519 | 914 |
end; |
915 |
||
916 |
end; |
|
917 |
||
918 |
||
70397 | 919 |
(* rotate assumptions *) |
11519 | 920 |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
921 |
fun rotate_proof Bs Bi' params asms m prf = |
11519 | 922 |
let |
923 |
val i = length asms; |
|
924 |
val j = length Bs; |
|
925 |
in |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
926 |
mk_AbsP (Bs @ [Bi']) (proof_combP (prf, map PBound |
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
927 |
(j downto 1) @ [mk_Abst params (mk_AbsP asms |
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
928 |
(proof_combP (proof_combt (PBound i, map Bound ((length params - 1) downto 0)), |
23178 | 929 |
map PBound (((i-m-1) downto 0) @ ((i-1) downto (i-m))))))])) |
11519 | 930 |
end; |
931 |
||
932 |
||
70397 | 933 |
(* permute premises *) |
11519 | 934 |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
935 |
fun permute_prems_proof prems' j k prf = |
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
936 |
let val n = length prems' in |
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
937 |
mk_AbsP prems' |
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
938 |
(proof_combP (prf, map PBound ((n-1 downto n-j) @ (k-1 downto 0) @ (n-j-1 downto k)))) |
11519 | 939 |
end; |
940 |
||
941 |
||
70397 | 942 |
(* generalization *) |
19908 | 943 |
|
70827
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
944 |
fun generalize_proof (tfrees, frees) idx prop prf = |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
945 |
let |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
946 |
val gen = |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
947 |
if null frees then [] |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
948 |
else |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
949 |
fold_aterms (fn Free (x, T) => member (op =) frees x ? insert (op =) (x, T) | _ => I) |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
950 |
(Term_Subst.generalize (tfrees, []) idx prop) []; |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
951 |
in |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
952 |
prf |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
953 |
|> Same.commit (map_proof_terms_same |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
954 |
(Term_Subst.generalize_same (tfrees, []) idx) |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
955 |
(Term_Subst.generalizeT_same tfrees idx)) |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
956 |
|> fold (fn (x, T) => forall_intr_proof (x, Free (x, T)) NONE) gen |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
957 |
|> fold_rev (fn (x, T) => fn prf' => prf' %> Var (Name.clean_index (x, idx), T)) gen |
730251503341
proper generalize_proof: schematic variables need to be explicit in the resulting proof term (for shrink/reconstruct operation);
wenzelm
parents:
70824
diff
changeset
|
958 |
end; |
19908 | 959 |
|
960 |
||
70397 | 961 |
(* instantiation *) |
11519 | 962 |
|
20000 | 963 |
fun instantiate (instT, inst) = |
36620
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
964 |
Same.commit (map_proof_terms_same |
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
965 |
(Term_Subst.instantiate_same (instT, map (apsnd remove_types) inst)) |
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
966 |
(Term_Subst.instantiateT_same instT)); |
11519 | 967 |
|
968 |
||
70397 | 969 |
(* lifting *) |
11519 | 970 |
|
971 |
fun lift_proof Bi inc prop prf = |
|
972 |
let |
|
32024 | 973 |
fun lift'' Us Ts t = |
59787 | 974 |
strip_abs Ts (Logic.incr_indexes ([], Us, inc) (mk_abs Ts t)); |
11519 | 975 |
|
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
976 |
fun lift' Us Ts (Abst (s, T, prf)) = |
32024 | 977 |
(Abst (s, Same.map_option (Logic.incr_tvar_same inc) T, lifth' Us (dummyT::Ts) prf) |
32019 | 978 |
handle Same.SAME => Abst (s, T, lift' Us (dummyT::Ts) prf)) |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
979 |
| lift' Us Ts (AbsP (s, t, prf)) = |
32024 | 980 |
(AbsP (s, Same.map_option (same (op =) (lift'' Us Ts)) t, lifth' Us Ts prf) |
32019 | 981 |
handle Same.SAME => AbsP (s, t, lift' Us Ts prf)) |
15570 | 982 |
| lift' Us Ts (prf % t) = (lift' Us Ts prf % Option.map (lift'' Us Ts) t |
32024 | 983 |
handle Same.SAME => prf % Same.map_option (same (op =) (lift'' Us Ts)) t) |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
984 |
| lift' Us Ts (prf1 %% prf2) = (lift' Us Ts prf1 %% lifth' Us Ts prf2 |
32019 | 985 |
handle Same.SAME => prf1 %% lift' Us Ts prf2) |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
986 |
| lift' _ _ (PAxm (s, prop, Ts)) = |
32024 | 987 |
PAxm (s, prop, (Same.map_option o Same.map) (Logic.incr_tvar_same inc) Ts) |
31943
5e960a0780a2
renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort;
wenzelm
parents:
31903
diff
changeset
|
988 |
| lift' _ _ (OfClass (T, c)) = |
32024 | 989 |
OfClass (Logic.incr_tvar_same inc T, c) |
28828
c25dd83a6f9f
unified treatment of PAxm/Oracle/Promise in basic proof term operations;
wenzelm
parents:
28815
diff
changeset
|
990 |
| lift' _ _ (Oracle (s, prop, Ts)) = |
32024 | 991 |
Oracle (s, prop, (Same.map_option o Same.map) (Logic.incr_tvar_same inc) Ts) |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
992 |
| lift' _ _ (PThm ({serial = i, pos = p, theory_name, name = s, prop, types = Ts}, thm_body)) = |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
993 |
PThm (thm_header i p theory_name s prop |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
994 |
((Same.map_option o Same.map) (Logic.incr_tvar inc) Ts), thm_body) |
32019 | 995 |
| lift' _ _ _ = raise Same.SAME |
996 |
and lifth' Us Ts prf = (lift' Us Ts prf handle Same.SAME => prf); |
|
11519 | 997 |
|
18030 | 998 |
val ps = map (Logic.lift_all inc Bi) (Logic.strip_imp_prems prop); |
11519 | 999 |
val k = length ps; |
1000 |
||
23178 | 1001 |
fun mk_app b (i, j, prf) = |
11615 | 1002 |
if b then (i-1, j, prf %% PBound i) else (i, j-1, prf %> Bound j); |
11519 | 1003 |
|
56245 | 1004 |
fun lift Us bs i j (Const ("Pure.imp", _) $ A $ B) = |
20147 | 1005 |
AbsP ("H", NONE (*A*), lift Us (true::bs) (i+1) j B) |
56245 | 1006 |
| lift Us bs i j (Const ("Pure.all", _) $ Abs (a, T, t)) = |
20147 | 1007 |
Abst (a, NONE (*T*), lift (T::Us) (false::bs) i (j+1) t) |
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
1008 |
| lift Us bs i j _ = proof_combP (lifth' (rev Us) [] prf, |
23178 | 1009 |
map (fn k => (#3 (fold_rev mk_app bs (i-1, j-1, PBound k)))) |
11519 | 1010 |
(i + k - 1 downto i)); |
1011 |
in |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
1012 |
mk_AbsP ps (lift [] [] 0 0 Bi) |
11519 | 1013 |
end; |
1014 |
||
32027 | 1015 |
fun incr_indexes i = |
36620
e6bb250402b5
simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant;
wenzelm
parents:
36619
diff
changeset
|
1016 |
Same.commit (map_proof_terms_same |
59787 | 1017 |
(Logic.incr_indexes_same ([], [], i)) (Logic.incr_tvar_same i)); |
32027 | 1018 |
|
11519 | 1019 |
|
70397 | 1020 |
(* proof by assumption *) |
11519 | 1021 |
|
23296
25f28f9c28a3
Adapted Proofterm.bicompose_proof to Larry's changes in
berghofe
parents:
23178
diff
changeset
|
1022 |
fun mk_asm_prf t i m = |
25f28f9c28a3
Adapted Proofterm.bicompose_proof to Larry's changes in
berghofe
parents:
23178
diff
changeset
|
1023 |
let |
25f28f9c28a3
Adapted Proofterm.bicompose_proof to Larry's changes in
berghofe
parents:
23178
diff
changeset
|
1024 |
fun imp_prf _ i 0 = PBound i |
56245 | 1025 |
| imp_prf (Const ("Pure.imp", _) $ A $ B) i m = AbsP ("H", NONE (*A*), imp_prf B (i+1) (m-1)) |
23296
25f28f9c28a3
Adapted Proofterm.bicompose_proof to Larry's changes in
berghofe
parents:
23178
diff
changeset
|
1026 |
| imp_prf _ i _ = PBound i; |
56245 | 1027 |
fun all_prf (Const ("Pure.all", _) $ Abs (a, T, t)) = Abst (a, NONE (*T*), all_prf t) |
23296
25f28f9c28a3
Adapted Proofterm.bicompose_proof to Larry's changes in
berghofe
parents:
23178
diff
changeset
|
1028 |
| all_prf t = imp_prf t (~i) m |
25f28f9c28a3
Adapted Proofterm.bicompose_proof to Larry's changes in
berghofe
parents:
23178
diff
changeset
|
1029 |
in all_prf t end; |
11519 | 1030 |
|
1031 |
fun assumption_proof Bs Bi n prf = |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
1032 |
mk_AbsP Bs (proof_combP (prf, map PBound (length Bs - 1 downto 0) @ [mk_asm_prf Bi n ~1])); |
11519 | 1033 |
|
1034 |
||
70397 | 1035 |
(* composition of object rule with proof state *) |
11519 | 1036 |
|
56245 | 1037 |
fun flatten_params_proof i j n (Const ("Pure.imp", _) $ A $ B, k) = |
15531 | 1038 |
AbsP ("H", NONE (*A*), flatten_params_proof (i+1) j n (B, k)) |
56245 | 1039 |
| flatten_params_proof i j n (Const ("Pure.all", _) $ Abs (a, T, t), k) = |
15531 | 1040 |
Abst (a, NONE (*T*), flatten_params_proof i (j+1) n (t, k)) |
11519 | 1041 |
| flatten_params_proof i j n (_, k) = proof_combP (proof_combt (PBound (k+i), |
19304 | 1042 |
map Bound (j-1 downto 0)), map PBound (remove (op =) (i-n) (i-1 downto 0))); |
11519 | 1043 |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
1044 |
fun bicompose_proof flatten Bs As A oldAs n m rprf sprf = |
11519 | 1045 |
let |
1046 |
val lb = length Bs; |
|
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
1047 |
val la = length As; |
11519 | 1048 |
in |
70822
22e2f5acc0b4
more accurate treatment of propositions within proof terms, but these are ultimately ignored for performance reasons;
wenzelm
parents:
70815
diff
changeset
|
1049 |
mk_AbsP (Bs @ As) (proof_combP (sprf, |
11615 | 1050 |
map PBound (lb + la - 1 downto la)) %% |
23296
25f28f9c28a3
Adapted Proofterm.bicompose_proof to Larry's changes in
berghofe
parents:
23178
diff
changeset
|
1051 |
proof_combP (rprf, (if n>0 then [mk_asm_prf (the A) n m] else []) @ |
18485 | 1052 |
map (if flatten then flatten_params_proof 0 0 n else PBound o snd) |
1053 |
(oldAs ~~ (la - 1 downto 0)))) |
|
11519 | 1054 |
end; |
1055 |
||
1056 |
||
70397 | 1057 |
|
1058 |
(** type classes **) |
|
36621
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1059 |
|
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1060 |
fun strip_shyps_proof algebra present witnessed extra_sorts prf = |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1061 |
let |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1062 |
fun get S2 (T, S1) = if Sorts.sort_le algebra (S1, S2) then SOME T else NONE; |
70811
785a2112f861
clarified signature -- some operations to support fully explicit proof terms;
wenzelm
parents:
70810
diff
changeset
|
1063 |
val extra = map (`Logic.dummy_tfree) extra_sorts; |
36621
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1064 |
val replacements = present @ extra @ witnessed; |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1065 |
fun replace T = |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1066 |
if exists (fn (T', _) => T' = T) present then raise Same.SAME |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1067 |
else |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1068 |
(case get_first (get (Type.sort_of_atyp T)) replacements of |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1069 |
SOME T' => T' |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1070 |
| NONE => raise Fail "strip_shyps_proof: bad type variable in proof term"); |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1071 |
in Same.commit (map_proof_types_same (Term_Subst.map_atypsT_same replace)) prf end; |
2fd4e2c76636
proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences:
wenzelm
parents:
36620
diff
changeset
|
1072 |
|
70458 | 1073 |
fun of_sort_proof algebra classrel_proof arity_proof hyps = |
1074 |
Sorts.of_sort_derivation algebra |
|
1075 |
{class_relation = fn _ => fn _ => fn (prf, c1) => fn c2 => |
|
1076 |
if c1 = c2 then prf else classrel_proof (c1, c2) %% prf, |
|
1077 |
type_constructor = fn (a, _) => fn dom => fn c => |
|
36741
d65ed9d7275e
added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance;
wenzelm
parents:
36740
diff
changeset
|
1078 |
let val Ss = map (map snd) dom and prfs = maps (map fst) dom |
70458 | 1079 |
in proof_combP (arity_proof (a, Ss, c), prfs) end, |
36741
d65ed9d7275e
added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance;
wenzelm
parents:
36740
diff
changeset
|
1080 |
type_variable = fn typ => map (fn c => (hyps (typ, c), c)) (Type.sort_of_atyp typ)}; |
d65ed9d7275e
added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance;
wenzelm
parents:
36740
diff
changeset
|
1081 |
|
d65ed9d7275e
added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance;
wenzelm
parents:
36740
diff
changeset
|
1082 |
|
70420 | 1083 |
|
70397 | 1084 |
(** axioms and theorems **) |
11519 | 1085 |
|
70948
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1086 |
val add_type_variables = (fold_types o fold_atyps) (insert (op =)); |
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1087 |
fun type_variables_of t = rev (add_type_variables t []); |
70810 | 1088 |
|
70948
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1089 |
val add_variables = fold_aterms (fn a => (is_Var a orelse is_Free a) ? insert (op =) a); |
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1090 |
fun variables_of t = rev (add_variables t []); |
11519 | 1091 |
|
1092 |
fun test_args _ [] = true |
|
1093 |
| test_args is (Bound i :: ts) = |
|
17492 | 1094 |
not (member (op =) is i) andalso test_args (i :: is) ts |
11519 | 1095 |
| test_args _ _ = false; |
1096 |
||
1097 |
fun is_fun (Type ("fun", _)) = true |
|
1098 |
| is_fun (TVar _) = true |
|
1099 |
| is_fun _ = false; |
|
1100 |
||
70948
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1101 |
fun vars_of t = map Var (rev (Term.add_vars t [])); |
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1102 |
|
11519 | 1103 |
fun add_funvars Ts (vs, t) = |
1104 |
if is_fun (fastype_of1 (Ts, t)) then |
|
33042 | 1105 |
union (op =) vs (map_filter (fn Var (ixn, T) => |
33037
b22e44496dc2
replaced old_style infixes eq_set, subset, union, inter and variants by generic versions
haftmann
parents:
32810
diff
changeset
|
1106 |
if is_fun T then SOME ixn else NONE | _ => NONE) (vars_of t)) |
11519 | 1107 |
else vs; |
1108 |
||
56245 | 1109 |
fun add_npvars q p Ts (vs, Const ("Pure.imp", _) $ t $ u) = |
11519 | 1110 |
add_npvars q p Ts (add_npvars q (not p) Ts (vs, t), u) |
56245 | 1111 |
| add_npvars q p Ts (vs, Const ("Pure.all", Type (_, [Type (_, [T, _]), _])) $ t) = |
11519 | 1112 |
add_npvars q p Ts (vs, if p andalso q then betapply (t, Var (("",0), T)) else t) |
12041 | 1113 |
| add_npvars q p Ts (vs, Abs (_, T, t)) = add_npvars q p (T::Ts) (vs, t) |
1114 |
| add_npvars _ _ Ts (vs, t) = add_npvars' Ts (vs, t) |
|
64566 | 1115 |
and add_npvars' Ts (vs, t) = |
1116 |
(case strip_comb t of |
|
11519 | 1117 |
(Var (ixn, _), ts) => if test_args [] ts then vs |
17314 | 1118 |
else Library.foldl (add_npvars' Ts) |
1119 |
(AList.update (op =) (ixn, |
|
1120 |
Library.foldl (add_funvars Ts) ((these ooo AList.lookup) (op =) vs ixn, ts)) vs, ts) |
|
15570 | 1121 |
| (Abs (_, T, u), ts) => Library.foldl (add_npvars' (T::Ts)) (vs, u :: ts) |
1122 |
| (_, ts) => Library.foldl (add_npvars' Ts) (vs, ts)); |
|
11519 | 1123 |
|
56245 | 1124 |
fun prop_vars (Const ("Pure.imp", _) $ P $ Q) = union (op =) (prop_vars P) (prop_vars Q) |
1125 |
| prop_vars (Const ("Pure.all", _) $ Abs (_, _, t)) = prop_vars t |
|
64566 | 1126 |
| prop_vars t = (case strip_comb t of (Var (ixn, _), _) => [ixn] | _ => []); |
11519 | 1127 |
|
1128 |
fun is_proj t = |
|
1129 |
let |
|
64566 | 1130 |
fun is_p i t = |
1131 |
(case strip_comb t of |
|
63857 | 1132 |
(Bound _, []) => false |
11519 | 1133 |
| (Bound j, ts) => j >= i orelse exists (is_p i) ts |
1134 |
| (Abs (_, _, u), _) => is_p (i+1) u |
|
1135 |
| (_, ts) => exists (is_p i) ts) |
|
64566 | 1136 |
in |
1137 |
(case strip_abs_body t of |
|
1138 |
Bound _ => true |
|
1139 |
| t' => is_p 0 t') |
|
11519 | 1140 |
end; |
1141 |
||
70416 | 1142 |
fun prop_args prop = |
1143 |
let |
|
1144 |
val needed_vars = |
|
1145 |
union (op =) (Library.foldl (uncurry (union (op =))) |
|
1146 |
([], map (uncurry (insert (op =))) (add_npvars true true [] ([], prop)))) |
|
1147 |
(prop_vars prop); |
|
70948
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1148 |
in |
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1149 |
variables_of prop |> map |
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1150 |
(fn var as Var (ixn, _) => if member (op =) needed_vars ixn then SOME var else NONE |
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1151 |
| free => SOME free) |
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1152 |
end; |
11519 | 1153 |
|
70835
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1154 |
fun const_proof mk name prop = |
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1155 |
let |
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1156 |
val args = prop_args prop; |
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1157 |
val ({outer_constraints, ...}, prop1) = Logic.unconstrainT [] prop; |
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1158 |
val head = mk (name, prop1, NONE); |
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1159 |
in proof_combP (proof_combt' (head, args), map OfClass outer_constraints) end; |
17017 | 1160 |
|
70835
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1161 |
val axm_proof = const_proof PAxm; |
2d991e01a671
proper treatment of axm_proof/oracle_proof like a closed proof constant, e.g. relevant for proof reconstruction of List.list.full_exhaustive_list.simps;
wenzelm
parents:
70834
diff
changeset
|
1162 |
val oracle_proof = const_proof Oracle; |
11519 | 1163 |
|
63623 | 1164 |
val shrink_proof = |
17492 | 1165 |
let |
1166 |
fun shrink ls lev (prf as Abst (a, T, body)) = |
|
1167 |
let val (b, is, ch, body') = shrink ls (lev+1) body |
|
51100
18daa3380ff7
discontinued home-made sharing for proof terms -- leave memory management to the Poly/ML RTS;
wenzelm
parents:
51047
diff
changeset
|
1168 |
in (b, is, ch, if ch then Abst (a, T, body') else prf) end |
17492 | 1169 |
| shrink ls lev (prf as AbsP (a, t, body)) = |
1170 |
let val (b, is, ch, body') = shrink (lev::ls) lev body |
|
19482
9f11af8f7ef9
tuned basic list operators (flat, maps, map_filter);
wenzelm
parents:
19357
diff
changeset
|
1171 |
in (b orelse member (op =) is 0, map_filter (fn 0 => NONE | i => SOME (i-1)) is, |
51100
18daa3380ff7
discontinued home-made sharing for proof terms -- leave memory management to the Poly/ML RTS;
wenzelm
parents:
51047
diff
changeset
|
1172 |
ch, if ch then AbsP (a, t, body') else prf) |
17492 | 1173 |
end |
1174 |
| shrink ls lev prf = |
|
1175 |
let val (is, ch, _, prf') = shrink' ls lev [] [] prf |
|
1176 |
in (false, is, ch, prf') end |
|
1177 |
and shrink' ls lev ts prfs (prf as prf1 %% prf2) = |
|
1178 |
let |
|
1179 |
val p as (_, is', ch', prf') = shrink ls lev prf2; |
|
1180 |
val (is, ch, ts', prf'') = shrink' ls lev ts (p::prfs) prf1 |
|
33042 | 1181 |
in (union (op =) is is', ch orelse ch', ts', |
17492 | 1182 |
if ch orelse ch' then prf'' %% prf' else prf) |
1183 |
end |
|
1184 |
| shrink' ls lev ts prfs (prf as prf1 % t) = |
|
1185 |
let val (is, ch, (ch', t')::ts', prf') = shrink' ls lev (t::ts) prfs prf1 |
|
1186 |
in (is, ch orelse ch', ts', |
|
51100
18daa3380ff7
discontinued home-made sharing for proof terms -- leave memory management to the Poly/ML RTS;
wenzelm
parents:
51047
diff
changeset
|
1187 |
if ch orelse ch' then prf' % t' else prf) end |
17492 | 1188 |
| shrink' ls lev ts prfs (prf as PBound i) = |
30146 | 1189 |
(if exists (fn SOME (Bound j) => lev-j <= nth ls i | _ => true) ts |
18928
042608ffa2ec
subsituted gen_duplicates / has_duplicates for duplicates whenever appropriate
haftmann
parents:
18485
diff
changeset
|
1190 |
orelse has_duplicates (op =) |
042608ffa2ec
subsituted gen_duplicates / has_duplicates for duplicates whenever appropriate
haftmann
parents:
18485
diff
changeset
|
1191 |
(Library.foldl (fn (js, SOME (Bound j)) => j :: js | (js, _) => js) ([], ts)) |
17492 | 1192 |
orelse exists #1 prfs then [i] else [], false, map (pair false) ts, prf) |
63857 | 1193 |
| shrink' _ _ ts _ (Hyp t) = ([], false, map (pair false) ts, Hyp t) |
1194 |
| shrink' _ _ ts _ (prf as MinProof) = ([], false, map (pair false) ts, prf) |
|
1195 |
| shrink' _ _ ts _ (prf as OfClass _) = ([], false, map (pair false) ts, prf) |
|
1196 |
| shrink' _ _ ts prfs prf = |
|
17492 | 1197 |
let |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1198 |
val prop = |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1199 |
(case prf of |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1200 |
PAxm (_, prop, _) => prop |
70834 | 1201 |
| Oracle (_, prop, _) => prop |
70493 | 1202 |
| PThm ({prop, ...}, _) => prop |
36879
201a4afd8533
raise Fail uniformly for proofterm errors, which appear to be rather low-level;
wenzelm
parents:
36878
diff
changeset
|
1203 |
| _ => raise Fail "shrink: proof not in normal form"); |
17492 | 1204 |
val vs = vars_of prop; |
19012 | 1205 |
val (ts', ts'') = chop (length vs) ts; |
33957 | 1206 |
val insts = take (length ts') (map (fst o dest_Var) vs) ~~ ts'; |
17492 | 1207 |
val nvs = Library.foldl (fn (ixns', (ixn, ixns)) => |
64566 | 1208 |
insert (op =) ixn |
1209 |
(case AList.lookup (op =) insts ixn of |
|
33042 | 1210 |
SOME (SOME t) => if is_proj t then union (op =) ixns ixns' else ixns' |
1211 |
| _ => union (op =) ixns ixns')) |
|
17492 | 1212 |
(needed prop ts'' prfs, add_npvars false true [] ([], prop)); |
1213 |
val insts' = map |
|
1214 |
(fn (ixn, x as SOME _) => if member (op =) nvs ixn then (false, x) else (true, NONE) |
|
1215 |
| (_, x) => (false, x)) insts |
|
1216 |
in ([], false, insts' @ map (pair false) ts'', prf) end |
|
56245 | 1217 |
and needed (Const ("Pure.imp", _) $ t $ u) ts ((b, _, _, _)::prfs) = |
33042 | 1218 |
union (op =) (if b then map (fst o dest_Var) (vars_of t) else []) (needed u ts prfs) |
17492 | 1219 |
| needed (Var (ixn, _)) (_::_) _ = [ixn] |
1220 |
| needed _ _ _ = []; |
|
63623 | 1221 |
in fn prf => #4 (shrink [] 0 prf) end; |
11519 | 1222 |
|
1223 |
||
70397 | 1224 |
|
70420 | 1225 |
(** axioms for equality **) |
1226 |
||
1227 |
val aT = TFree ("'a", []); |
|
1228 |
val bT = TFree ("'b", []); |
|
1229 |
val x = Free ("x", aT); |
|
1230 |
val y = Free ("y", aT); |
|
1231 |
val z = Free ("z", aT); |
|
1232 |
val A = Free ("A", propT); |
|
1233 |
val B = Free ("B", propT); |
|
1234 |
val f = Free ("f", aT --> bT); |
|
1235 |
val g = Free ("g", aT --> bT); |
|
1236 |
||
1237 |
val equality_axms = |
|
1238 |
[("reflexive", Logic.mk_equals (x, x)), |
|
1239 |
("symmetric", Logic.mk_implies (Logic.mk_equals (x, y), Logic.mk_equals (y, x))), |
|
1240 |
("transitive", |
|
1241 |
Logic.list_implies ([Logic.mk_equals (x, y), Logic.mk_equals (y, z)], Logic.mk_equals (x, z))), |
|
1242 |
("equal_intr", |
|
1243 |
Logic.list_implies ([Logic.mk_implies (A, B), Logic.mk_implies (B, A)], Logic.mk_equals (A, B))), |
|
1244 |
("equal_elim", Logic.list_implies ([Logic.mk_equals (A, B), A], B)), |
|
1245 |
("abstract_rule", |
|
1246 |
Logic.mk_implies |
|
70814 | 1247 |
(Logic.all x (Logic.mk_equals (f $ x, g $ x)), |
1248 |
Logic.mk_equals (lambda x (f $ x), lambda x (g $ x)))), |
|
70420 | 1249 |
("combination", Logic.list_implies |
1250 |
([Logic.mk_equals (f, g), Logic.mk_equals (x, y)], Logic.mk_equals (f $ x, g $ y)))]; |
|
1251 |
||
1252 |
val [reflexive_axm, symmetric_axm, transitive_axm, equal_intr_axm, |
|
1253 |
equal_elim_axm, abstract_rule_axm, combination_axm] = |
|
1254 |
map (fn (s, t) => PAxm ("Pure." ^ s, Logic.varify_global t, NONE)) equality_axms; |
|
1255 |
||
70814 | 1256 |
val reflexive_proof = reflexive_axm % NONE; |
1257 |
||
1258 |
val is_reflexive_proof = fn PAxm ("Pure.reflexive", _, _) % _ => true | _ => false; |
|
70420 | 1259 |
|
70814 | 1260 |
fun symmetric_proof prf = |
1261 |
if is_reflexive_proof prf then prf |
|
1262 |
else symmetric_axm % NONE % NONE %% prf; |
|
70420 | 1263 |
|
70814 | 1264 |
fun transitive_proof U u prf1 prf2 = |
1265 |
if is_reflexive_proof prf1 then prf2 |
|
1266 |
else if is_reflexive_proof prf2 then prf1 |
|
1267 |
else if U = propT then transitive_axm % NONE % SOME (remove_types u) % NONE %% prf1 %% prf2 |
|
1268 |
else transitive_axm % NONE % NONE % NONE %% prf1 %% prf2; |
|
70420 | 1269 |
|
70814 | 1270 |
fun equal_intr_proof A B prf1 prf2 = |
1271 |
equal_intr_axm %> remove_types A %> remove_types B %% prf1 %% prf2; |
|
1272 |
||
1273 |
fun equal_elim_proof A B prf1 prf2 = |
|
1274 |
equal_elim_axm %> remove_types A %> remove_types B %% prf1 %% prf2; |
|
1275 |
||
1276 |
fun abstract_rule_proof (a, x) prf = |
|
1277 |
abstract_rule_axm % NONE % NONE %% forall_intr_proof (a, x) NONE prf; |
|
70420 | 1278 |
|
1279 |
fun check_comb (PAxm ("Pure.combination", _, _) % f % _ % _ % _ %% prf %% _) = |
|
1280 |
is_some f orelse check_comb prf |
|
1281 |
| check_comb (PAxm ("Pure.transitive", _, _) % _ % _ % _ %% prf1 %% prf2) = |
|
1282 |
check_comb prf1 andalso check_comb prf2 |
|
1283 |
| check_comb (PAxm ("Pure.symmetric", _, _) % _ % _ %% prf) = check_comb prf |
|
1284 |
| check_comb _ = false; |
|
1285 |
||
70908 | 1286 |
fun combination_proof f g t u prf1 prf2 = |
70420 | 1287 |
let |
1288 |
val f = Envir.beta_norm f; |
|
1289 |
val g = Envir.beta_norm g; |
|
1290 |
val prf = |
|
1291 |
if check_comb prf1 then |
|
1292 |
combination_axm % NONE % NONE |
|
1293 |
else |
|
1294 |
(case prf1 of |
|
1295 |
PAxm ("Pure.reflexive", _, _) % _ => |
|
1296 |
combination_axm %> remove_types f % NONE |
|
1297 |
| _ => combination_axm %> remove_types f %> remove_types g) |
|
1298 |
in |
|
70888
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1299 |
prf % |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1300 |
(case head_of f of |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1301 |
Abs _ => SOME (remove_types t) |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1302 |
| Var _ => SOME (remove_types t) |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1303 |
| _ => NONE) % |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1304 |
(case head_of g of |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1305 |
Abs _ => SOME (remove_types u) |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1306 |
| Var _ => SOME (remove_types u) |
9ff9559f1ee2
more informative combination_proof, e.g. relevant for proper type inference in HOL.Product_Type (with export_proofs);
wenzelm
parents:
70887
diff
changeset
|
1307 |
| _ => NONE) %% prf1 %% prf2 |
70420 | 1308 |
end; |
1309 |
||
1310 |
||
1311 |
||
70399 | 1312 |
(** rewriting on proof terms **) |
1313 |
||
1314 |
(* simple first order matching functions for terms and proofs (see pattern.ML) *) |
|
11519 | 1315 |
|
1316 |
exception PMatch; |
|
1317 |
||
33317 | 1318 |
fun flt (i: int) = filter (fn n => n < i); |
12279 | 1319 |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1320 |
fun fomatch Ts tymatch j instsp p = |
11519 | 1321 |
let |
1322 |
fun mtch (instsp as (tyinsts, insts)) = fn |
|
1323 |
(Var (ixn, T), t) => |
|
12279 | 1324 |
if j>0 andalso not (null (flt j (loose_bnos t))) |
1325 |
then raise PMatch |
|
1326 |
else (tymatch (tyinsts, fn () => (T, fastype_of1 (Ts, t))), |
|
1327 |
(ixn, t) :: insts) |
|
11519 | 1328 |
| (Free (a, T), Free (b, U)) => |
20147 | 1329 |
if a=b then (tymatch (tyinsts, K (T, U)), insts) else raise PMatch |
11519 | 1330 |
| (Const (a, T), Const (b, U)) => |
20147 | 1331 |
if a=b then (tymatch (tyinsts, K (T, U)), insts) else raise PMatch |
11519 | 1332 |
| (f $ t, g $ u) => mtch (mtch instsp (f, g)) (t, u) |
12279 | 1333 |
| (Bound i, Bound j) => if i=j then instsp else raise PMatch |
11519 | 1334 |
| _ => raise PMatch |
59058
a78612c67ec0
renamed "pairself" to "apply2", in accordance to @{apply 2};
wenzelm
parents:
56245
diff
changeset
|
1335 |
in mtch instsp (apply2 Envir.beta_eta_contract p) end; |
11519 | 1336 |
|
12279 | 1337 |
fun match_proof Ts tymatch = |
11519 | 1338 |
let |
15531 | 1339 |
fun optmatch _ inst (NONE, _) = inst |
1340 |
| optmatch _ _ (SOME _, NONE) = raise PMatch |
|
1341 |
| optmatch mtch inst (SOME x, SOME y) = mtch inst (x, y) |
|
12279 | 1342 |
|
1343 |
fun matcht Ts j (pinst, tinst) (t, u) = |
|
1344 |
(pinst, fomatch Ts tymatch j tinst (t, Envir.beta_norm u)); |
|
1345 |
fun matchT (pinst, (tyinsts, insts)) p = |
|
1346 |
(pinst, (tymatch (tyinsts, K p), insts)); |
|
15570 | 1347 |
fun matchTs inst (Ts, Us) = Library.foldl (uncurry matchT) (inst, Ts ~~ Us); |
12279 | 1348 |
|
1349 |
fun mtch Ts i j (pinst, tinst) (Hyp (Var (ixn, _)), prf) = |
|
1350 |
if i = 0 andalso j = 0 then ((ixn, prf) :: pinst, tinst) |
|
64566 | 1351 |
else |
1352 |
(case apfst (flt i) (apsnd (flt j) (prf_add_loose_bnos 0 0 prf ([], []))) of |
|
12279 | 1353 |
([], []) => ((ixn, incr_pboundvars (~i) (~j) prf) :: pinst, tinst) |
64566 | 1354 |
| ([], _) => |
1355 |
if j = 0 then ((ixn, incr_pboundvars (~i) (~j) prf) :: pinst, tinst) |
|
1356 |
else raise PMatch |
|
12279 | 1357 |
| _ => raise PMatch) |
1358 |
| mtch Ts i j inst (prf1 % opt1, prf2 % opt2) = |
|
1359 |
optmatch (matcht Ts j) (mtch Ts i j inst (prf1, prf2)) (opt1, opt2) |
|
1360 |
| mtch Ts i j inst (prf1 %% prf2, prf1' %% prf2') = |
|
1361 |
mtch Ts i j (mtch Ts i j inst (prf1, prf1')) (prf2, prf2') |
|
1362 |
| mtch Ts i j inst (Abst (_, opT, prf1), Abst (_, opU, prf2)) = |
|
18485 | 1363 |
mtch (the_default dummyT opU :: Ts) i (j+1) |
12279 | 1364 |
(optmatch matchT inst (opT, opU)) (prf1, prf2) |
1365 |
| mtch Ts i j inst (prf1, Abst (_, opU, prf2)) = |
|
18485 | 1366 |
mtch (the_default dummyT opU :: Ts) i (j+1) inst |
12279 | 1367 |
(incr_pboundvars 0 1 prf1 %> Bound 0, prf2) |
1368 |
| mtch Ts i j inst (AbsP (_, opt, prf1), AbsP (_, opu, prf2)) = |
|
1369 |
mtch Ts (i+1) j (optmatch (matcht Ts j) inst (opt, opu)) (prf1, prf2) |
|
1370 |
| mtch Ts i j inst (prf1, AbsP (_, _, prf2)) = |
|
1371 |
mtch Ts (i+1) j inst (incr_pboundvars 1 0 prf1 %% PBound 0, prf2) |
|
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1372 |
| mtch Ts i j inst (PAxm (s1, _, opTs), PAxm (s2, _, opUs)) = |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1373 |
if s1 = s2 then optmatch matchTs inst (opTs, opUs) |
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1374 |
else raise PMatch |
31943
5e960a0780a2
renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort;
wenzelm
parents:
31903
diff
changeset
|
1375 |
| mtch Ts i j inst (OfClass (T1, c1), OfClass (T2, c2)) = |
31903 | 1376 |
if c1 = c2 then matchT inst (T1, T2) |
1377 |
else raise PMatch |
|
70412
64ead6de6212
defer rew_proof on unnamed PThm node as open_proof operation: significant performance improvement;
wenzelm
parents:
70409
diff
changeset
|
1378 |
| mtch Ts i j inst |
70493 | 1379 |
(PThm ({name = name1, prop = prop1, types = types1, ...}, _), |
1380 |
PThm ({name = name2, prop = prop2, types = types2, ...}, _)) = |
|
1381 |
if name1 = name2 andalso prop1 = prop2 |
|
1382 |
then optmatch matchTs inst (types1, types2) |
|
11519 | 1383 |
else raise PMatch |
12279 | 1384 |
| mtch _ _ _ inst (PBound i, PBound j) = if i = j then inst else raise PMatch |
1385 |
| mtch _ _ _ _ _ = raise PMatch |
|
1386 |
in mtch Ts 0 0 end; |
|
11519 | 1387 |
|
1388 |
fun prf_subst (pinst, (tyinsts, insts)) = |
|
1389 |
let |
|
32049 | 1390 |
val substT = Envir.subst_type_same tyinsts; |
1391 |
val substTs = Same.map substT; |
|
11519 | 1392 |
|
32049 | 1393 |
fun subst' lev (Var (xi, _)) = |
1394 |
(case AList.lookup (op =) insts xi of |
|
1395 |
NONE => raise Same.SAME |
|
15531 | 1396 |
| SOME u => incr_boundvars lev u) |
32049 | 1397 |
| subst' _ (Const (s, T)) = Const (s, substT T) |
1398 |
| subst' _ (Free (s, T)) = Free (s, substT T) |
|
1399 |
| subst' lev (Abs (a, T, body)) = |
|
1400 |
(Abs (a, substT T, Same.commit (subst' (lev + 1)) body) |
|
1401 |
handle Same.SAME => Abs (a, T, subst' (lev + 1) body)) |
|
1402 |
| subst' lev (f $ t) = |
|
1403 |
(subst' lev f $ Same.commit (subst' lev) t |
|
1404 |
handle Same.SAME => f $ subst' lev t) |
|
1405 |
| subst' _ _ = raise Same.SAME; |
|
11519 | 1406 |
|
1407 |
fun subst plev tlev (AbsP (a, t, body)) = |
|
32049 | 1408 |
(AbsP (a, Same.map_option (subst' tlev) t, Same.commit (subst (plev + 1) tlev) body) |
1409 |
handle Same.SAME => AbsP (a, t, subst (plev + 1) tlev body)) |
|
11519 | 1410 |
| subst plev tlev (Abst (a, T, body)) = |
32049 | 1411 |
(Abst (a, Same.map_option substT T, Same.commit (subst plev (tlev + 1)) body) |
1412 |
handle Same.SAME => Abst (a, T, subst plev (tlev + 1) body)) |
|
1413 |
| subst plev tlev (prf %% prf') = |
|
1414 |
(subst plev tlev prf %% Same.commit (subst plev tlev) prf' |
|
1415 |
handle Same.SAME => prf %% subst plev tlev prf') |
|
1416 |
| subst plev tlev (prf % t) = |
|
1417 |
(subst plev tlev prf % Same.commit (Same.map_option (subst' tlev)) t |
|
1418 |
handle Same.SAME => prf % Same.map_option (subst' tlev) t) |
|
1419 |
| subst plev tlev (Hyp (Var (xi, _))) = |
|
1420 |
(case AList.lookup (op =) pinst xi of |
|
1421 |
NONE => raise Same.SAME |
|
1422 |
| SOME prf' => incr_pboundvars plev tlev prf') |
|
1423 |
| subst _ _ (PAxm (id, prop, Ts)) = PAxm (id, prop, Same.map_option substTs Ts) |
|
31943
5e960a0780a2
renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort;
wenzelm
parents:
31903
diff
changeset
|
1424 |
| subst _ _ (OfClass (T, c)) = OfClass (substT T, c) |
32049 | 1425 |
| subst _ _ (Oracle (id, prop, Ts)) = Oracle (id, prop, Same.map_option substTs Ts) |
70538
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
1426 |
| subst _ _ (PThm ({serial = i, pos = p, theory_name, name = id, prop, types}, thm_body)) = |
fc9ba6fe367f
clarified PThm: theory_name simplifies retrieval from exports;
wenzelm
parents:
70534
diff
changeset
|
1427 |
PThm (thm_header i p theory_name id prop (Same.map_option substTs types), thm_body) |
32049 | 1428 |
| subst _ _ _ = raise Same.SAME; |
1429 |
in fn t => subst 0 0 t handle Same.SAME => t end; |
|
11519 | 1430 |
|
21646
c07b5b0e8492
thm/prf: separate official name vs. additional tags;
wenzelm
parents:
20853
diff
changeset
|
1431 |
(*A fast unification filter: true unless the two terms cannot be unified. |
12871
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1432 |
Terms must be NORMAL. Treats all Vars as distinct. *) |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1433 |
fun could_unify prf1 prf2 = |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1434 |
let |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1435 |
fun matchrands (prf1 %% prf2) (prf1' %% prf2') = |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1436 |
could_unify prf2 prf2' andalso matchrands prf1 prf1' |
15531 | 1437 |
| matchrands (prf % SOME t) (prf' % SOME t') = |
12871
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1438 |
Term.could_unify (t, t') andalso matchrands prf prf' |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1439 |
| matchrands (prf % _) (prf' % _) = matchrands prf prf' |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1440 |
| matchrands _ _ = true |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1441 |
|
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1442 |
fun head_of (prf %% _) = head_of prf |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1443 |
| head_of (prf % _) = head_of prf |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1444 |
| head_of prf = prf |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1445 |
|
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1446 |
in case (head_of prf1, head_of prf2) of |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1447 |
(_, Hyp (Var _)) => true |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1448 |
| (Hyp (Var _), _) => true |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1449 |
| (PAxm (a, _, _), PAxm (b, _, _)) => a = b andalso matchrands prf1 prf2 |
31943
5e960a0780a2
renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort;
wenzelm
parents:
31903
diff
changeset
|
1450 |
| (OfClass (_, c), OfClass (_, d)) => c = d andalso matchrands prf1 prf2 |
70493 | 1451 |
| (PThm ({name = a, prop = propa, ...}, _), PThm ({name = b, prop = propb, ...}, _)) => |
12871
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1452 |
a = b andalso propa = propb andalso matchrands prf1 prf2 |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1453 |
| (PBound i, PBound j) => i = j andalso matchrands prf1 prf2 |
12871
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1454 |
| (AbsP _, _) => true (*because of possible eta equality*) |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1455 |
| (Abst _, _) => true |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1456 |
| (_, AbsP _) => true |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1457 |
| (_, Abst _) => true |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1458 |
| _ => false |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1459 |
end; |
21486a0557d1
Added function could_unify to speed up rewriting of proof terms.
berghofe
parents:
12868
diff
changeset
|
1460 |
|
28329
e6a5fa9f1e41
added conditional add_oracles, keep oracles_of_proof private;
wenzelm
parents:
28319
diff
changeset
|
1461 |
|
70399 | 1462 |
(* rewrite proof *) |
11519 | 1463 |
|
33722
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1464 |
val no_skel = PBound 0; |
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1465 |
val normal_skel = Hyp (Var ((Name.uu, 0), propT)); |
13102
b6f8aae5f152
Added skeletons to speed up rewriting on proof terms.
berghofe
parents:
12923
diff
changeset
|
1466 |
|
12279 | 1467 |
fun rewrite_prf tymatch (rules, procs) prf = |
11519 | 1468 |
let |
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1469 |
fun rew _ _ (Abst (_, _, body) % SOME t) = SOME (prf_subst_bounds [t] body, no_skel) |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1470 |
| rew _ _ (AbsP (_, _, body) %% prf) = SOME (prf_subst_pbounds [prf] body, no_skel) |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1471 |
| rew Ts hs prf = |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1472 |
(case get_first (fn r => r Ts hs prf) procs of |
33722
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1473 |
NONE => get_first (fn (prf1, prf2) => SOME (prf_subst |
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1474 |
(match_proof Ts tymatch ([], (Vartab.empty, [])) (prf1, prf)) prf2, prf2) |
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1475 |
handle PMatch => NONE) (filter (could_unify prf o fst) rules) |
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1476 |
| some => some); |
11519 | 1477 |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1478 |
fun rew0 Ts hs (prf as AbsP (_, _, prf' %% PBound 0)) = |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1479 |
if prf_loose_Pbvar1 prf' 0 then rew Ts hs prf |
11519 | 1480 |
else |
1481 |
let val prf'' = incr_pboundvars (~1) 0 prf' |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1482 |
in SOME (the_default (prf'', no_skel) (rew Ts hs prf'')) end |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1483 |
| rew0 Ts hs (prf as Abst (_, _, prf' % SOME (Bound 0))) = |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1484 |
if prf_loose_bvar1 prf' 0 then rew Ts hs prf |
11519 | 1485 |
else |
1486 |
let val prf'' = incr_pboundvars 0 (~1) prf' |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1487 |
in SOME (the_default (prf'', no_skel) (rew Ts hs prf'')) end |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1488 |
| rew0 Ts hs prf = rew Ts hs prf; |
11519 | 1489 |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1490 |
fun rew1 _ _ (Hyp (Var _)) _ = NONE |
64566 | 1491 |
| rew1 Ts hs skel prf = |
1492 |
(case rew2 Ts hs skel prf of |
|
1493 |
SOME prf1 => |
|
1494 |
(case rew0 Ts hs prf1 of |
|
1495 |
SOME (prf2, skel') => SOME (the_default prf2 (rew1 Ts hs skel' prf2)) |
|
1496 |
| NONE => SOME prf1) |
|
1497 |
| NONE => |
|
1498 |
(case rew0 Ts hs prf of |
|
1499 |
SOME (prf1, skel') => SOME (the_default prf1 (rew1 Ts hs skel' prf1)) |
|
1500 |
| NONE => NONE)) |
|
11519 | 1501 |
|
64566 | 1502 |
and rew2 Ts hs skel (prf % SOME t) = |
1503 |
(case prf of |
|
11519 | 1504 |
Abst (_, _, body) => |
1505 |
let val prf' = prf_subst_bounds [t] body |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1506 |
in SOME (the_default prf' (rew2 Ts hs no_skel prf')) end |
64566 | 1507 |
| _ => |
1508 |
(case rew1 Ts hs (case skel of skel' % _ => skel' | _ => no_skel) prf of |
|
1509 |
SOME prf' => SOME (prf' % SOME t) |
|
1510 |
| NONE => NONE)) |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1511 |
| rew2 Ts hs skel (prf % NONE) = Option.map (fn prf' => prf' % NONE) |
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1512 |
(rew1 Ts hs (case skel of skel' % _ => skel' | _ => no_skel) prf) |
64566 | 1513 |
| rew2 Ts hs skel (prf1 %% prf2) = |
1514 |
(case prf1 of |
|
11519 | 1515 |
AbsP (_, _, body) => |
1516 |
let val prf' = prf_subst_pbounds [prf2] body |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1517 |
in SOME (the_default prf' (rew2 Ts hs no_skel prf')) end |
13102
b6f8aae5f152
Added skeletons to speed up rewriting on proof terms.
berghofe
parents:
12923
diff
changeset
|
1518 |
| _ => |
64566 | 1519 |
let |
1520 |
val (skel1, skel2) = |
|
1521 |
(case skel of |
|
1522 |
skel1 %% skel2 => (skel1, skel2) |
|
1523 |
| _ => (no_skel, no_skel)) |
|
1524 |
in |
|
1525 |
(case rew1 Ts hs skel1 prf1 of |
|
1526 |
SOME prf1' => |
|
1527 |
(case rew1 Ts hs skel2 prf2 of |
|
15531 | 1528 |
SOME prf2' => SOME (prf1' %% prf2') |
1529 |
| NONE => SOME (prf1' %% prf2)) |
|
64566 | 1530 |
| NONE => |
1531 |
(case rew1 Ts hs skel2 prf2 of |
|
15531 | 1532 |
SOME prf2' => SOME (prf1 %% prf2') |
64566 | 1533 |
| NONE => NONE)) |
13102
b6f8aae5f152
Added skeletons to speed up rewriting on proof terms.
berghofe
parents:
12923
diff
changeset
|
1534 |
end) |
64566 | 1535 |
| rew2 Ts hs skel (Abst (s, T, prf)) = |
1536 |
(case rew1 (the_default dummyT T :: Ts) hs |
|
33722
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1537 |
(case skel of Abst (_, _, skel') => skel' | _ => no_skel) prf of |
15531 | 1538 |
SOME prf' => SOME (Abst (s, T, prf')) |
1539 |
| NONE => NONE) |
|
64566 | 1540 |
| rew2 Ts hs skel (AbsP (s, t, prf)) = |
1541 |
(case rew1 Ts (t :: hs) (case skel of AbsP (_, _, skel') => skel' | _ => no_skel) prf of |
|
15531 | 1542 |
SOME prf' => SOME (AbsP (s, t, prf')) |
1543 |
| NONE => NONE) |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1544 |
| rew2 _ _ _ _ = NONE; |
11519 | 1545 |
|
37231
e5419ecf92b7
- outer_constraints with original variable names, to ensure that argsP is consistent with args
berghofe
parents:
36883
diff
changeset
|
1546 |
in the_default prf (rew1 [] [] no_skel prf) end; |
11519 | 1547 |
|
17203 | 1548 |
fun rewrite_proof thy = rewrite_prf (fn (tyenv, f) => |
1549 |
Sign.typ_match thy (f ()) tyenv handle Type.TYPE_MATCH => raise PMatch); |
|
11519 | 1550 |
|
11715
592923615f77
Tuned several functions to improve sharing of unchanged subproofs.
berghofe
parents:
11652
diff
changeset
|
1551 |
fun rewrite_proof_notypes rews = rewrite_prf fst rews; |
11615 | 1552 |
|
16940 | 1553 |
|
70399 | 1554 |
(* theory data *) |
11519 | 1555 |
|
37216
3165bc303f66
modernized some structure names, keeping a few legacy aliases;
wenzelm
parents:
36883
diff
changeset
|
1556 |
structure Data = Theory_Data |
22846 | 1557 |
( |
33722
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1558 |
type T = |
70848 | 1559 |
((stamp * (proof * proof)) list * |
1560 |
(stamp * (typ list -> term option list -> proof -> (proof * proof) option)) list) * |
|
1561 |
(theory -> proof -> proof) option; |
|
11519 | 1562 |
|
70848 | 1563 |
val empty = (([], []), NONE); |
16458 | 1564 |
val extend = I; |
70848 | 1565 |
fun merge (((rules1, procs1), preproc1), ((rules2, procs2), preproc2)) : T = |
1566 |
((AList.merge (op =) (K true) (rules1, rules2), |
|
1567 |
AList.merge (op =) (K true) (procs1, procs2)), |
|
1568 |
merge_options (preproc1, preproc2)); |
|
22846 | 1569 |
); |
11519 | 1570 |
|
70848 | 1571 |
fun get_rew_data thy = |
1572 |
let val (rules, procs) = #1 (Data.get thy) |
|
1573 |
in (map #2 rules, map #2 procs) end; |
|
1574 |
||
1575 |
fun rew_proof thy = rewrite_prf fst (get_rew_data thy); |
|
23780
a0e7305dd0cb
Added function rew_proof (for pre-normalizing proofs).
berghofe
parents:
23296
diff
changeset
|
1576 |
|
70848 | 1577 |
fun add_prf_rrule r = (Data.map o apfst o apfst) (cons (stamp (), r)); |
1578 |
fun add_prf_rproc p = (Data.map o apfst o apsnd) (cons (stamp (), p)); |
|
1579 |
||
1580 |
fun set_preproc f = (Data.map o apsnd) (K (SOME f)); |
|
1581 |
fun apply_preproc thy = (case #2 (Data.get thy) of NONE => I | SOME f => f thy); |
|
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1582 |
|
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
1583 |
|
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1584 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1585 |
(** reconstruction of partial proof terms **) |
70400
65bbef66e2ec
clarified treatment of unnamed PThm nodes (from close_derivation): retain full proof, publish when named;
wenzelm
parents:
70399
diff
changeset
|
1586 |
|
70978 | 1587 |
fun forall_intr_variables_term prop = fold_rev Logic.all (variables_of prop) prop; |
1588 |
fun forall_intr_variables prop prf = fold_rev forall_intr_proof' (variables_of prop) prf; |
|
70400
65bbef66e2ec
clarified treatment of unnamed PThm nodes (from close_derivation): retain full proof, publish when named;
wenzelm
parents:
70399
diff
changeset
|
1589 |
|
70978 | 1590 |
local |
70400
65bbef66e2ec
clarified treatment of unnamed PThm nodes (from close_derivation): retain full proof, publish when named;
wenzelm
parents:
70399
diff
changeset
|
1591 |
|
70419 | 1592 |
fun app_types shift prop Ts prf = |
1593 |
let |
|
70810 | 1594 |
val inst = type_variables_of prop ~~ Ts; |
1595 |
fun subst_same A = |
|
1596 |
(case AList.lookup (op =) inst A of SOME T => T | NONE => raise Same.SAME); |
|
70807
303721c3caa2
tuned app_types: more direct map_proof_types_same;
wenzelm
parents:
70784
diff
changeset
|
1597 |
val subst_type_same = |
303721c3caa2
tuned app_types: more direct map_proof_types_same;
wenzelm
parents:
70784
diff
changeset
|
1598 |
Term_Subst.map_atypsT_same |
70810 | 1599 |
(fn TVar ((a, i), S) => subst_same (TVar ((a, i - shift), S)) | A => subst_same A); |
70807
303721c3caa2
tuned app_types: more direct map_proof_types_same;
wenzelm
parents:
70784
diff
changeset
|
1600 |
in Same.commit (map_proof_types_same subst_type_same) prf end; |
70419 | 1601 |
|
70493 | 1602 |
fun guess_name (PThm ({name, ...}, _)) = name |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1603 |
| guess_name (prf %% Hyp _) = guess_name prf |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1604 |
| guess_name (prf %% OfClass _) = guess_name prf |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1605 |
| guess_name (prf % NONE) = guess_name prf |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1606 |
| guess_name (prf % SOME (Var _)) = guess_name prf |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1607 |
| guess_name _ = ""; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1608 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1609 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1610 |
(* generate constraints for proof term *) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1611 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1612 |
fun mk_var env Ts T = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1613 |
let val (env', v) = Envir.genvar "a" (env, rev Ts ---> T) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1614 |
in (list_comb (v, map Bound (length Ts - 1 downto 0)), env') end; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1615 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1616 |
fun mk_tvar S (Envir.Envir {maxidx, tenv, tyenv}) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1617 |
(TVar (("'t", maxidx + 1), S), |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1618 |
Envir.Envir {maxidx = maxidx + 1, tenv = tenv, tyenv = tyenv}); |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1619 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1620 |
val mk_abs = fold (fn T => fn u => Abs ("", T, u)); |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1621 |
|
70449 | 1622 |
fun unifyT thy env T U = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1623 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1624 |
val Envir.Envir {maxidx, tenv, tyenv} = env; |
70449 | 1625 |
val (tyenv', maxidx') = Sign.typ_unify thy (T, U) (tyenv, maxidx); |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1626 |
in Envir.Envir {maxidx = maxidx', tenv = tenv, tyenv = tyenv'} end; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1627 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1628 |
fun chaseT env (T as TVar v) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1629 |
(case Type.lookup (Envir.type_env env) v of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1630 |
NONE => T |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1631 |
| SOME T' => chaseT env T') |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1632 |
| chaseT _ T = T; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1633 |
|
70449 | 1634 |
fun infer_type thy (env as Envir.Envir {maxidx, tenv, tyenv}) _ vTs |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1635 |
(t as Const (s, T)) = if T = dummyT then |
70449 | 1636 |
(case Sign.const_type thy s of |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1637 |
NONE => error ("reconstruct_proof: No such constant: " ^ quote s) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1638 |
| SOME T => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1639 |
let val T' = Type.strip_sorts (Logic.incr_tvar (maxidx + 1) T) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1640 |
in (Const (s, T'), T', vTs, |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1641 |
Envir.Envir {maxidx = maxidx + 1, tenv = tenv, tyenv = tyenv}) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1642 |
end) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1643 |
else (t, T, vTs, env) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1644 |
| infer_type _ env _ vTs (t as Free (s, T)) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1645 |
if T = dummyT then (case Symtab.lookup vTs s of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1646 |
NONE => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1647 |
let val (T, env') = mk_tvar [] env |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1648 |
in (Free (s, T), T, Symtab.update_new (s, T) vTs, env') end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1649 |
| SOME T => (Free (s, T), T, vTs, env)) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1650 |
else (t, T, vTs, env) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1651 |
| infer_type _ _ _ _ (Var _) = error "reconstruct_proof: internal error" |
70449 | 1652 |
| infer_type thy env Ts vTs (Abs (s, T, t)) = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1653 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1654 |
val (T', env') = if T = dummyT then mk_tvar [] env else (T, env); |
70449 | 1655 |
val (t', U, vTs', env'') = infer_type thy env' (T' :: Ts) vTs t |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1656 |
in (Abs (s, T', t'), T' --> U, vTs', env'') end |
70449 | 1657 |
| infer_type thy env Ts vTs (t $ u) = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1658 |
let |
70449 | 1659 |
val (t', T, vTs1, env1) = infer_type thy env Ts vTs t; |
1660 |
val (u', U, vTs2, env2) = infer_type thy env1 Ts vTs1 u; |
|
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1661 |
in (case chaseT env2 T of |
70449 | 1662 |
Type ("fun", [U', V]) => (t' $ u', V, vTs2, unifyT thy env2 U U') |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1663 |
| _ => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1664 |
let val (V, env3) = mk_tvar [] env2 |
70449 | 1665 |
in (t' $ u', V, vTs2, unifyT thy env3 T (U --> V)) end) |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1666 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1667 |
| infer_type _ env Ts vTs (t as Bound i) = ((t, nth Ts i, vTs, env) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1668 |
handle General.Subscript => error ("infer_type: bad variable index " ^ string_of_int i)); |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1669 |
|
70449 | 1670 |
fun cantunify thy (t, u) = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1671 |
error ("Non-unifiable terms:\n" ^ |
70449 | 1672 |
Syntax.string_of_term_global thy t ^ "\n\n" ^ Syntax.string_of_term_global thy u); |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1673 |
|
70449 | 1674 |
fun decompose thy Ts (p as (t, u)) env = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1675 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1676 |
fun rigrig (a, T) (b, U) uT ts us = |
70449 | 1677 |
if a <> b then cantunify thy p |
1678 |
else apfst flat (fold_map (decompose thy Ts) (ts ~~ us) (uT env T U)) |
|
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1679 |
in |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1680 |
case apply2 (strip_comb o Envir.head_norm env) p of |
70449 | 1681 |
((Const c, ts), (Const d, us)) => rigrig c d (unifyT thy) ts us |
1682 |
| ((Free c, ts), (Free d, us)) => rigrig c d (unifyT thy) ts us |
|
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1683 |
| ((Bound i, ts), (Bound j, us)) => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1684 |
rigrig (i, dummyT) (j, dummyT) (K o K) ts us |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1685 |
| ((Abs (_, T, t), []), (Abs (_, U, u), [])) => |
70449 | 1686 |
decompose thy (T::Ts) (t, u) (unifyT thy env T U) |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1687 |
| ((Abs (_, T, t), []), _) => |
70449 | 1688 |
decompose thy (T::Ts) (t, incr_boundvars 1 u $ Bound 0) env |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1689 |
| (_, (Abs (_, T, u), [])) => |
70449 | 1690 |
decompose thy (T::Ts) (incr_boundvars 1 t $ Bound 0, u) env |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1691 |
| _ => ([(mk_abs Ts t, mk_abs Ts u)], env) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1692 |
end; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1693 |
|
70449 | 1694 |
fun make_constraints_cprf thy env cprf = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1695 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1696 |
fun add_cnstrt Ts prop prf cs env vTs (t, u) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1697 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1698 |
val t' = mk_abs Ts t; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1699 |
val u' = mk_abs Ts u |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1700 |
in |
70449 | 1701 |
(prop, prf, cs, Pattern.unify (Context.Theory thy) (t', u') env, vTs) |
1702 |
handle Pattern.Pattern => |
|
1703 |
let val (cs', env') = decompose thy [] (t', u') env |
|
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1704 |
in (prop, prf, cs @ cs', env', vTs) end |
70449 | 1705 |
| Pattern.Unif => cantunify thy (Envir.norm_term env t', Envir.norm_term env u') |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1706 |
end; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1707 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1708 |
fun mk_cnstrts_atom env vTs prop opTs prf = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1709 |
let |
70948
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1710 |
val prop_types = type_variables_of prop; |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1711 |
val (Ts, env') = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1712 |
(case opTs of |
70948
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1713 |
NONE => fold_map (mk_tvar o Type.sort_of_atyp) prop_types env |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1714 |
| SOME Ts => (Ts, env)); |
70948
5ed8c7e826a2
proper order of variables, independently of varify/unvarify state -- relevant for export of locale conclusions;
wenzelm
parents:
70916
diff
changeset
|
1715 |
val prop' = subst_atomic_types (prop_types ~~ Ts) |
70978 | 1716 |
(forall_intr_variables_term prop) handle ListPair.UnequalLengths => |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1717 |
error ("Wrong number of type arguments for " ^ quote (guess_name prf)) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1718 |
in (prop', change_types (SOME Ts) prf, [], env', vTs) end; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1719 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1720 |
fun head_norm (prop, prf, cnstrts, env, vTs) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1721 |
(Envir.head_norm env prop, prf, cnstrts, env, vTs); |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1722 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1723 |
fun mk_cnstrts env _ Hs vTs (PBound i) = ((nth Hs i, PBound i, [], env, vTs) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1724 |
handle General.Subscript => error ("mk_cnstrts: bad variable index " ^ string_of_int i)) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1725 |
| mk_cnstrts env Ts Hs vTs (Abst (s, opT, cprf)) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1726 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1727 |
val (T, env') = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1728 |
(case opT of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1729 |
NONE => mk_tvar [] env |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1730 |
| SOME T => (T, env)); |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1731 |
val (t, prf, cnstrts, env'', vTs') = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1732 |
mk_cnstrts env' (T::Ts) (map (incr_boundvars 1) Hs) vTs cprf; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1733 |
in |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1734 |
(Const ("Pure.all", (T --> propT) --> propT) $ Abs (s, T, t), Abst (s, SOME T, prf), |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1735 |
cnstrts, env'', vTs') |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1736 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1737 |
| mk_cnstrts env Ts Hs vTs (AbsP (s, SOME t, cprf)) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1738 |
let |
70449 | 1739 |
val (t', _, vTs', env') = infer_type thy env Ts vTs t; |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1740 |
val (u, prf, cnstrts, env'', vTs'') = mk_cnstrts env' Ts (t'::Hs) vTs' cprf; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1741 |
in (Logic.mk_implies (t', u), AbsP (s, SOME t', prf), cnstrts, env'', vTs'') |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1742 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1743 |
| mk_cnstrts env Ts Hs vTs (AbsP (s, NONE, cprf)) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1744 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1745 |
val (t, env') = mk_var env Ts propT; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1746 |
val (u, prf, cnstrts, env'', vTs') = mk_cnstrts env' Ts (t::Hs) vTs cprf; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1747 |
in (Logic.mk_implies (t, u), AbsP (s, SOME t, prf), cnstrts, env'', vTs') |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1748 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1749 |
| mk_cnstrts env Ts Hs vTs (cprf1 %% cprf2) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1750 |
let val (u, prf2, cnstrts, env', vTs') = mk_cnstrts env Ts Hs vTs cprf2 |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1751 |
in (case head_norm (mk_cnstrts env' Ts Hs vTs' cprf1) of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1752 |
(Const ("Pure.imp", _) $ u' $ t', prf1, cnstrts', env'', vTs'') => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1753 |
add_cnstrt Ts t' (prf1 %% prf2) (cnstrts' @ cnstrts) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1754 |
env'' vTs'' (u, u') |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1755 |
| (t, prf1, cnstrts', env'', vTs'') => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1756 |
let val (v, env''') = mk_var env'' Ts propT |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1757 |
in add_cnstrt Ts v (prf1 %% prf2) (cnstrts' @ cnstrts) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1758 |
env''' vTs'' (t, Logic.mk_implies (u, v)) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1759 |
end) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1760 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1761 |
| mk_cnstrts env Ts Hs vTs (cprf % SOME t) = |
70449 | 1762 |
let val (t', U, vTs1, env1) = infer_type thy env Ts vTs t |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1763 |
in (case head_norm (mk_cnstrts env1 Ts Hs vTs1 cprf) of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1764 |
(Const ("Pure.all", Type ("fun", [Type ("fun", [T, _]), _])) $ f, |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1765 |
prf, cnstrts, env2, vTs2) => |
70449 | 1766 |
let val env3 = unifyT thy env2 T U |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1767 |
in (betapply (f, t'), prf % SOME t', cnstrts, env3, vTs2) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1768 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1769 |
| (u, prf, cnstrts, env2, vTs2) => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1770 |
let val (v, env3) = mk_var env2 Ts (U --> propT); |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1771 |
in |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1772 |
add_cnstrt Ts (v $ t') (prf % SOME t') cnstrts env3 vTs2 |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1773 |
(u, Const ("Pure.all", (U --> propT) --> propT) $ v) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1774 |
end) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1775 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1776 |
| mk_cnstrts env Ts Hs vTs (cprf % NONE) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1777 |
(case head_norm (mk_cnstrts env Ts Hs vTs cprf) of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1778 |
(Const ("Pure.all", Type ("fun", [Type ("fun", [T, _]), _])) $ f, |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1779 |
prf, cnstrts, env', vTs') => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1780 |
let val (t, env'') = mk_var env' Ts T |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1781 |
in (betapply (f, t), prf % SOME t, cnstrts, env'', vTs') |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1782 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1783 |
| (u, prf, cnstrts, env', vTs') => |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1784 |
let |
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|
1785 |
val (T, env1) = mk_tvar [] env'; |
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|
1786 |
val (v, env2) = mk_var env1 Ts (T --> propT); |
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|
1787 |
val (t, env3) = mk_var env2 Ts T |
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|
1788 |
in |
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|
1789 |
add_cnstrt Ts (v $ t) (prf % SOME t) cnstrts env3 vTs' |
755d58b48cec
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|
1790 |
(u, Const ("Pure.all", (T --> propT) --> propT) $ v) |
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|
1791 |
end) |
70493 | 1792 |
| mk_cnstrts env _ _ vTs (prf as PThm ({prop, types = opTs, ...}, _)) = |
70447
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|
1793 |
mk_cnstrts_atom env vTs prop opTs prf |
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|
1794 |
| mk_cnstrts env _ _ vTs (prf as PAxm (_, prop, opTs)) = |
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changeset
|
1795 |
mk_cnstrts_atom env vTs prop opTs prf |
755d58b48cec
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|
1796 |
| mk_cnstrts env _ _ vTs (prf as OfClass (T, c)) = |
755d58b48cec
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|
1797 |
mk_cnstrts_atom env vTs (Logic.mk_of_class (T, c)) NONE prf |
755d58b48cec
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|
1798 |
| mk_cnstrts env _ _ vTs (prf as Oracle (_, prop, opTs)) = |
70834 | 1799 |
mk_cnstrts_atom env vTs prop opTs prf |
70447
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|
1800 |
| mk_cnstrts env _ _ vTs (Hyp t) = (t, Hyp t, [], env, vTs) |
70603 | 1801 |
| mk_cnstrts _ _ _ _ MinProof = raise MIN_PROOF () |
70447
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|
1802 |
in mk_cnstrts env [] [] Symtab.empty cprf end; |
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clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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|
1803 |
|
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|
1804 |
|
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changeset
|
1805 |
(* update list of free variables of constraints *) |
755d58b48cec
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|
1806 |
|
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|
1807 |
fun upd_constrs env cs = |
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|
1808 |
let |
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|
1809 |
val tenv = Envir.term_env env; |
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|
1810 |
val tyenv = Envir.type_env env; |
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|
1811 |
val dom = [] |
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|
1812 |
|> Vartab.fold (cons o #1) tenv |
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|
1813 |
|> Vartab.fold (cons o #1) tyenv; |
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|
1814 |
val vran = [] |
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|
1815 |
|> Vartab.fold (Term.add_var_names o #2 o #2) tenv |
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|
1816 |
|> Vartab.fold (Term.add_tvar_namesT o #2 o #2) tyenv; |
755d58b48cec
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|
1817 |
fun check_cs [] = [] |
755d58b48cec
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|
1818 |
| check_cs ((u, p, vs) :: ps) = |
755d58b48cec
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|
1819 |
let val vs' = subtract (op =) dom vs in |
755d58b48cec
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changeset
|
1820 |
if vs = vs' then (u, p, vs) :: check_cs ps |
755d58b48cec
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changeset
|
1821 |
else (true, p, fold (insert op =) vs' vran) :: check_cs ps |
755d58b48cec
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changeset
|
1822 |
end; |
755d58b48cec
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changeset
|
1823 |
in check_cs cs end; |
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clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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changeset
|
1824 |
|
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changeset
|
1825 |
|
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changeset
|
1826 |
(* solution of constraints *) |
755d58b48cec
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changeset
|
1827 |
|
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changeset
|
1828 |
fun solve _ [] bigenv = bigenv |
70449 | 1829 |
| solve thy cs bigenv = |
70447
755d58b48cec
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changeset
|
1830 |
let |
70449 | 1831 |
fun search _ [] = |
1832 |
error ("Unsolvable constraints:\n" ^ |
|
1833 |
Pretty.string_of (Pretty.chunks (map (fn (_, p, _) => |
|
1834 |
Syntax.pretty_flexpair (Syntax.init_pretty_global thy) |
|
1835 |
(apply2 (Envir.norm_term bigenv) p)) cs))) |
|
70447
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parents:
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diff
changeset
|
1836 |
| search env ((u, p as (t1, t2), vs)::ps) = |
755d58b48cec
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diff
changeset
|
1837 |
if u then |
755d58b48cec
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changeset
|
1838 |
let |
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diff
changeset
|
1839 |
val tn1 = Envir.norm_term bigenv t1; |
755d58b48cec
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parents:
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diff
changeset
|
1840 |
val tn2 = Envir.norm_term bigenv t2 |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1841 |
in |
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parents:
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changeset
|
1842 |
if Pattern.pattern tn1 andalso Pattern.pattern tn2 then |
70449 | 1843 |
(Pattern.unify (Context.Theory thy) (tn1, tn2) env, ps) |
1844 |
handle Pattern.Unif => cantunify thy (tn1, tn2) |
|
70447
755d58b48cec
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parents:
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diff
changeset
|
1845 |
else |
70449 | 1846 |
let val (cs', env') = decompose thy [] (tn1, tn2) env |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1847 |
in if cs' = [(tn1, tn2)] then |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1848 |
apsnd (cons (false, (tn1, tn2), vs)) (search env ps) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1849 |
else search env' (map (fn q => (true, q, vs)) cs' @ ps) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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changeset
|
1850 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1851 |
end |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1852 |
else apsnd (cons (false, p, vs)) (search env ps); |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1853 |
val Envir.Envir {maxidx, ...} = bigenv; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1854 |
val (env, cs') = search (Envir.empty maxidx) cs; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1855 |
in |
70449 | 1856 |
solve thy (upd_constrs env cs') (Envir.merge (bigenv, env)) |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1857 |
end; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1858 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1859 |
in |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1860 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1861 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1862 |
(* reconstruction of proofs *) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1863 |
|
70449 | 1864 |
fun reconstruct_proof thy prop cprf = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1865 |
let |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1866 |
val (cprf' % SOME prop', thawf) = freeze_thaw_prf (cprf % SOME prop); |
70449 | 1867 |
val (t, prf, cs, env, _) = make_constraints_cprf thy |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1868 |
(Envir.empty (maxidx_proof cprf ~1)) cprf'; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1869 |
val cs' = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1870 |
map (apply2 (Envir.norm_term env)) ((t, prop') :: cs) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1871 |
|> map (fn p => (true, p, Term.add_var_names (#1 p) (Term.add_var_names (#2 p) []))); |
70449 | 1872 |
val env' = solve thy cs' env |
70603 | 1873 |
in thawf (norm_proof env' prf) end handle MIN_PROOF () => MinProof; |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1874 |
|
70815 | 1875 |
fun prop_of_atom prop Ts = |
70978 | 1876 |
subst_atomic_types (type_variables_of prop ~~ Ts) (forall_intr_variables_term prop); |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1877 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1878 |
val head_norm = Envir.head_norm Envir.init; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1879 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1880 |
fun prop_of0 Hs (PBound i) = nth Hs i |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1881 |
| prop_of0 Hs (Abst (s, SOME T, prf)) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1882 |
Logic.all_const T $ (Abs (s, T, prop_of0 Hs prf)) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1883 |
| prop_of0 Hs (AbsP (_, SOME t, prf)) = |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1884 |
Logic.mk_implies (t, prop_of0 (t :: Hs) prf) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1885 |
| prop_of0 Hs (prf % SOME t) = (case head_norm (prop_of0 Hs prf) of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1886 |
Const ("Pure.all", _) $ f => f $ t |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1887 |
| _ => error "prop_of: all expected") |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1888 |
| prop_of0 Hs (prf1 %% _) = (case head_norm (prop_of0 Hs prf1) of |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1889 |
Const ("Pure.imp", _) $ _ $ Q => Q |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1890 |
| _ => error "prop_of: ==> expected") |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1891 |
| prop_of0 _ (Hyp t) = t |
70493 | 1892 |
| prop_of0 _ (PThm ({prop, types = SOME Ts, ...}, _)) = prop_of_atom prop Ts |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1893 |
| prop_of0 _ (PAxm (_, prop, SOME Ts)) = prop_of_atom prop Ts |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1894 |
| prop_of0 _ (OfClass (T, c)) = Logic.mk_of_class (T, c) |
70834 | 1895 |
| prop_of0 _ (Oracle (_, prop, SOME Ts)) = prop_of_atom prop Ts |
70447
755d58b48cec
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parents:
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diff
changeset
|
1896 |
| prop_of0 _ _ = error "prop_of: partial proof object"; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1897 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1898 |
val prop_of' = Envir.beta_eta_contract oo prop_of0; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1899 |
val prop_of = prop_of' []; |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1900 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
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diff
changeset
|
1901 |
|
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
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parents:
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diff
changeset
|
1902 |
(* expand and reconstruct subproofs *) |
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1903 |
|
70915
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1904 |
fun expand_name_empty (header: thm_header) = if #name header = "" then SOME "" else NONE; |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1905 |
|
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1906 |
fun expand_proof thy expand_name prf = |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1907 |
let |
70833 | 1908 |
fun expand seen maxidx (AbsP (s, t, prf)) = |
1909 |
let val (seen', maxidx', prf') = expand seen maxidx prf |
|
1910 |
in (seen', maxidx', AbsP (s, t, prf')) end |
|
1911 |
| expand seen maxidx (Abst (s, T, prf)) = |
|
1912 |
let val (seen', maxidx', prf') = expand seen maxidx prf |
|
1913 |
in (seen', maxidx', Abst (s, T, prf')) end |
|
1914 |
| expand seen maxidx (prf1 %% prf2) = |
|
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1915 |
let |
70833 | 1916 |
val (seen', maxidx', prf1') = expand seen maxidx prf1; |
1917 |
val (seen'', maxidx'', prf2') = expand seen' maxidx' prf2; |
|
1918 |
in (seen'', maxidx'', prf1' %% prf2') end |
|
1919 |
| expand seen maxidx (prf % t) = |
|
1920 |
let val (seen', maxidx', prf') = expand seen maxidx prf |
|
1921 |
in (seen', maxidx', prf' % t) end |
|
70915
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1922 |
| expand seen maxidx (prf as PThm (header, thm_body)) = |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1923 |
let val {serial, pos, theory_name, name, prop, types} = header in |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1924 |
(case expand_name header of |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1925 |
SOME name' => |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1926 |
if name' = "" andalso is_some types then |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1927 |
let |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1928 |
val (seen', maxidx', prf') = |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1929 |
(case Inttab.lookup seen serial of |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1930 |
NONE => |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1931 |
let |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1932 |
val prf1 = |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1933 |
thm_body_proof_open thm_body |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1934 |
|> reconstruct_proof thy prop |
70978 | 1935 |
|> forall_intr_variables prop; |
70915
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1936 |
val (seen1, maxidx1, prf2) = expand_init seen prf1 |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1937 |
val seen2 = seen1 |> Inttab.update (serial, (maxidx1, prf2)); |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1938 |
in (seen2, maxidx1, prf2) end |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1939 |
| SOME (maxidx1, prf1) => (seen, maxidx1, prf1)); |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1940 |
val prf'' = prf' |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1941 |
|> incr_indexes (maxidx + 1) |> app_types (maxidx + 1) prop (the types); |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1942 |
in (seen', maxidx' + maxidx + 1, prf'') end |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1943 |
else if name' <> name then |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1944 |
(seen, maxidx, PThm (thm_header serial pos theory_name name' prop types, thm_body)) |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1945 |
else (seen, maxidx, prf) |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1946 |
| NONE => (seen, maxidx, prf)) |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1947 |
end |
70833 | 1948 |
| expand seen maxidx prf = (seen, maxidx, prf) |
1949 |
and expand_init seen prf = expand seen (maxidx_proof prf ~1) prf; |
|
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1950 |
|
70915
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
1951 |
in #3 (expand_init Inttab.empty prf) end; |
70447
755d58b48cec
clarified modules: provide reconstruct_proof / expand_proof at the bottom of proof term construction;
wenzelm
parents:
70442
diff
changeset
|
1952 |
|
70400
65bbef66e2ec
clarified treatment of unnamed PThm nodes (from close_derivation): retain full proof, publish when named;
wenzelm
parents:
70399
diff
changeset
|
1953 |
end; |
65bbef66e2ec
clarified treatment of unnamed PThm nodes (from close_derivation): retain full proof, publish when named;
wenzelm
parents:
70399
diff
changeset
|
1954 |
|
65bbef66e2ec
clarified treatment of unnamed PThm nodes (from close_derivation): retain full proof, publish when named;
wenzelm
parents:
70399
diff
changeset
|
1955 |
|
70397 | 1956 |
|
1957 |
(** promises **) |
|
11519 | 1958 |
|
33722
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1959 |
fun fulfill_norm_proof thy ps body0 = |
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1960 |
let |
66168 | 1961 |
val _ = consolidate (map #2 ps @ [body0]); |
33722
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1962 |
val PBody {oracles = oracles0, thms = thms0, proof = proof0} = body0; |
44334 | 1963 |
val oracles = |
1964 |
unions_oracles |
|
1965 |
(fold (fn (_, PBody {oracles, ...}) => not (null oracles) ? cons oracles) ps [oracles0]); |
|
1966 |
val thms = |
|
1967 |
unions_thms (fold (fn (_, PBody {thms, ...}) => not (null thms) ? cons thms) ps [thms0]); |
|
70398 | 1968 |
val proof = rew_proof thy proof0; |
33722
e588744f14da
generalized procs for rewrite_proof: allow skeleton;
wenzelm
parents:
33522
diff
changeset
|
1969 |
in PBody {oracles = oracles, thms = thms, proof = proof} end; |
28828
c25dd83a6f9f
unified treatment of PAxm/Oracle/Promise in basic proof term operations;
wenzelm
parents:
28815
diff
changeset
|
1970 |
|
70395
af88c05696bd
clarified postproc: apply shrink_proof last, e.g. relevant for export of full proof term;
wenzelm
parents:
70394
diff
changeset
|
1971 |
fun fulfill_proof_future thy promises (postproc: proof_body -> proof_body) body = |
51047
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1972 |
let |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1973 |
fun fulfill () = |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1974 |
postproc (fulfill_norm_proof thy (map (apsnd Future.join) promises) (Future.join body)); |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1975 |
in |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1976 |
if null promises then Future.map postproc body |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1977 |
else if Future.is_finished body andalso length promises = 1 then |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1978 |
Future.map (fn _ => fulfill ()) (snd (hd promises)) |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1979 |
else |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1980 |
(singleton o Future.forks) |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1981 |
{name = "Proofterm.fulfill_proof_future", group = NONE, |
70415
3c20a86f14f1
finalize proofs earlier to reduce memory requirement;
wenzelm
parents:
70413
diff
changeset
|
1982 |
deps = Future.task_of body :: map (Future.task_of o snd) promises, pri = 1, |
51047
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1983 |
interrupts = true} |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1984 |
fulfill |
2ad5c46bcd04
avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task;
wenzelm
parents:
50763
diff
changeset
|
1985 |
end; |
29642 | 1986 |
|
28828
c25dd83a6f9f
unified treatment of PAxm/Oracle/Promise in basic proof term operations;
wenzelm
parents:
28815
diff
changeset
|
1987 |
|
70397 | 1988 |
|
1989 |
(** theorems **) |
|
11519 | 1990 |
|
70529 | 1991 |
(* standardization of variables for export: only frees and named bounds *) |
1992 |
||
1993 |
local |
|
1994 |
||
70531
2d2b5a8e8d59
clarified name context for abstractions -- in contrast to 367e60d9aa1b and Term.variant_frees (*as they are printed :-*);
wenzelm
parents:
70530
diff
changeset
|
1995 |
val declare_names_term = Term.declare_term_frees; |
70529 | 1996 |
val declare_names_term' = fn SOME t => declare_names_term t | NONE => I; |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
1997 |
val declare_names_proof = fold_proof_terms declare_names_term; |
70529 | 1998 |
|
1999 |
fun variant names bs x = |
|
2000 |
#1 (Name.variant x (fold Name.declare bs names)); |
|
2001 |
||
2002 |
fun variant_term bs (Abs (x, T, t)) = |
|
2003 |
let |
|
2004 |
val x' = variant (declare_names_term t Name.context) bs x; |
|
2005 |
val t' = variant_term (x' :: bs) t; |
|
2006 |
in Abs (x', T, t') end |
|
2007 |
| variant_term bs (t $ u) = variant_term bs t $ variant_term bs u |
|
2008 |
| variant_term _ t = t; |
|
2009 |
||
2010 |
fun variant_proof bs (Abst (x, T, prf)) = |
|
2011 |
let |
|
2012 |
val x' = variant (declare_names_proof prf Name.context) bs x; |
|
2013 |
val prf' = variant_proof (x' :: bs) prf; |
|
2014 |
in Abst (x', T, prf') end |
|
2015 |
| variant_proof bs (AbsP (x, t, prf)) = |
|
2016 |
let |
|
2017 |
val x' = variant (declare_names_term' t (declare_names_proof prf Name.context)) bs x; |
|
2018 |
val t' = Option.map (variant_term bs) t; |
|
2019 |
val prf' = variant_proof (x' :: bs) prf; |
|
2020 |
in AbsP (x', t', prf') end |
|
2021 |
| variant_proof bs (prf % t) = variant_proof bs prf % Option.map (variant_term bs) t |
|
2022 |
| variant_proof bs (prf1 %% prf2) = variant_proof bs prf1 %% variant_proof bs prf2 |
|
2023 |
| variant_proof bs (Hyp t) = Hyp (variant_term bs t) |
|
2024 |
| variant_proof _ prf = prf; |
|
2025 |
||
70540
04ef5ee3dd4d
more careful treatment of standard_vars: rename apart from existing frees and avoid approximative Name.declared, proper application of unvarifyT within terms of proof;
wenzelm
parents:
70538
diff
changeset
|
2026 |
val used_frees_type = fold_atyps (fn TFree (a, _) => Name.declare a | _ => I); |
04ef5ee3dd4d
more careful treatment of standard_vars: rename apart from existing frees and avoid approximative Name.declared, proper application of unvarifyT within terms of proof;
wenzelm
parents:
70538
diff
changeset
|
2027 |
fun used_frees_term t = fold_types used_frees_type t #> Term.declare_term_frees t; |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2028 |
val used_frees_proof = fold_proof_terms_types used_frees_term used_frees_type; |
70540
04ef5ee3dd4d
more careful treatment of standard_vars: rename apart from existing frees and avoid approximative Name.declared, proper application of unvarifyT within terms of proof;
wenzelm
parents:
70538
diff
changeset
|
2029 |
|
04ef5ee3dd4d
more careful treatment of standard_vars: rename apart from existing frees and avoid approximative Name.declared, proper application of unvarifyT within terms of proof;
wenzelm
parents:
70538
diff
changeset
|
2030 |
val unvarifyT = Term.map_atyps (fn TVar ((a, _), S) => TFree (a, S) | T => T); |
04ef5ee3dd4d
more careful treatment of standard_vars: rename apart from existing frees and avoid approximative Name.declared, proper application of unvarifyT within terms of proof;
wenzelm
parents:
70538
diff
changeset
|
2031 |
val unvarify = Term.map_aterms (fn Var ((x, _), T) => Free (x, T) | t => t) #> map_types unvarifyT; |
70541
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2032 |
val unvarify_proof = map_proof_terms unvarify unvarifyT; |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2033 |
|
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2034 |
fun hidden_types prop proof = |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2035 |
let |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2036 |
val visible = (fold_types o fold_atyps) (insert (op =)) prop []; |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2037 |
val add_hiddenT = fold_atyps (fn T => not (member (op =) visible T) ? insert (op =) T); |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2038 |
in rev (fold_proof_terms_types (fold_types add_hiddenT) add_hiddenT proof []) end; |
70541
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2039 |
|
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2040 |
fun standard_hidden_types term proof = |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2041 |
let |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2042 |
val hidden = hidden_types term proof; |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2043 |
val idx = Term.maxidx_term term (maxidx_proof proof ~1) + 1; |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2044 |
fun smash T = if member (op =) hidden T then TVar (("'", idx), Type.sort_of_atyp T) else T; |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2045 |
val smashT = map_atyps smash; |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2046 |
in map_proof_terms (map_types smashT) smashT proof end; |
70540
04ef5ee3dd4d
more careful treatment of standard_vars: rename apart from existing frees and avoid approximative Name.declared, proper application of unvarifyT within terms of proof;
wenzelm
parents:
70538
diff
changeset
|
2047 |
|
70898
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2048 |
fun standard_hidden_terms term proof = |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2049 |
let |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2050 |
fun add_not excl x = |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2051 |
((is_Free x orelse is_Var x) andalso not (member (op =) excl x)) ? insert (op =) x; |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2052 |
val visible = fold_aterms (add_not []) term []; |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2053 |
val hidden = fold_proof_terms (fold_aterms (add_not visible)) proof []; |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2054 |
val dummy_term = Term.map_aterms (fn x => |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2055 |
if member (op =) hidden x then Term.dummy_pattern (Term.fastype_of x) else x); |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2056 |
in proof |> not (null hidden) ? map_proof_terms dummy_term I end; |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2057 |
|
70529 | 2058 |
in |
2059 |
||
70541
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2060 |
fun standard_vars used (term, opt_proof) = |
70529 | 2061 |
let |
70898
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2062 |
val proofs = opt_proof |
c13d9d3ee128
turn hidden terms into dummy, e.g. relevant for boundary cases of reconstruct_proof;
wenzelm
parents:
70895
diff
changeset
|
2063 |
|> Option.map (standard_hidden_types term #> standard_hidden_terms term) |> the_list; |
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2064 |
val proof_terms = rev (fold (fold_proof_terms_types cons (cons o Logic.mk_type)) proofs []); |
70541
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2065 |
val used_frees = used |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2066 |
|> used_frees_term term |
70540
04ef5ee3dd4d
more careful treatment of standard_vars: rename apart from existing frees and avoid approximative Name.declared, proper application of unvarifyT within terms of proof;
wenzelm
parents:
70538
diff
changeset
|
2067 |
|> fold used_frees_proof proofs; |
70541
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2068 |
val inst = Term_Subst.zero_var_indexes_inst used_frees (term :: proof_terms); |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2069 |
val term' = term |> Term_Subst.instantiate inst |> unvarify |> variant_term []; |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2070 |
val proofs' = proofs |> map (instantiate inst #> unvarify_proof #> variant_proof []); |
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2071 |
in (term', try hd proofs') end; |
70529 | 2072 |
|
70541
f3fbc7f3559d
more careful treatment of hidden type variable names: smash before zero_var_indexes to get standard enumeration;
wenzelm
parents:
70540
diff
changeset
|
2073 |
fun standard_vars_term used t = #1 (standard_vars used (t, NONE)); |
70529 | 2074 |
|
70843
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2075 |
val add_standard_vars_term = fold_aterms |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2076 |
(fn Free (x, T) => |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2077 |
(fn env => |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2078 |
(case AList.lookup (op =) env x of |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2079 |
NONE => (x, T) :: env |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2080 |
| SOME T' => |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2081 |
if T = T' then env |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2082 |
else raise TYPE ("standard_vars_env: type conflict for variable " ^ quote x, [T, T'], []))) |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2083 |
| _ => I); |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2084 |
|
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2085 |
val add_standard_vars = fold_proof_terms add_standard_vars_term; |
cc987440d776
more compact XML: separate environment for free variables;
wenzelm
parents:
70839
diff
changeset
|
2086 |
|
70529 | 2087 |
end; |
2088 |
||
2089 |
||
2090 |
(* PThm nodes *) |
|
2091 |
||
70604 | 2092 |
fun export_enabled () = Options.default_bool "export_proofs"; |
70983 | 2093 |
fun export_standard_enabled () = Options.default_bool "export_standard_proofs"; |
70604 | 2094 |
|
70984 | 2095 |
fun export_proof_boxes_required thy = |
2096 |
Context.theory_name thy = Context.PureN orelse |
|
2097 |
(export_enabled () andalso not (export_standard_enabled ())); |
|
2098 |
||
2099 |
fun export_proof_boxes proofs = |
|
70909 | 2100 |
let |
2101 |
fun export_boxes (AbsP (_, _, prf)) = export_boxes prf |
|
2102 |
| export_boxes (Abst (_, _, prf)) = export_boxes prf |
|
2103 |
| export_boxes (prf1 %% prf2) = export_boxes prf1 #> export_boxes prf2 |
|
2104 |
| export_boxes (prf % _) = export_boxes prf |
|
70982
71d1971d67ad
make double-sure that internal proof boxes are exported, e.g. in Pure;
wenzelm
parents:
70980
diff
changeset
|
2105 |
| export_boxes (PThm ({serial = i, ...}, thm_body)) = |
70909 | 2106 |
(fn boxes => |
2107 |
if Inttab.defined boxes i then boxes |
|
2108 |
else |
|
2109 |
let |
|
70982
71d1971d67ad
make double-sure that internal proof boxes are exported, e.g. in Pure;
wenzelm
parents:
70980
diff
changeset
|
2110 |
val prf' = thm_body_proof_raw thm_body; |
71d1971d67ad
make double-sure that internal proof boxes are exported, e.g. in Pure;
wenzelm
parents:
70980
diff
changeset
|
2111 |
val export = thm_body_export_proof thm_body; |
71d1971d67ad
make double-sure that internal proof boxes are exported, e.g. in Pure;
wenzelm
parents:
70980
diff
changeset
|
2112 |
val boxes' = boxes |> not (Lazy.is_finished export) ? Inttab.update (i, export); |
71d1971d67ad
make double-sure that internal proof boxes are exported, e.g. in Pure;
wenzelm
parents:
70980
diff
changeset
|
2113 |
in export_boxes prf' boxes' end) |
70909 | 2114 |
| export_boxes _ = I; |
70984 | 2115 |
val boxes = (proofs, Inttab.empty) |-> fold export_boxes |> Inttab.dest; |
70909 | 2116 |
in List.app (Lazy.force o #2) boxes end; |
2117 |
||
70416 | 2118 |
local |
2119 |
||
70458 | 2120 |
fun unconstrainT_proof algebra classrel_proof arity_proof (ucontext: Logic.unconstrain_context) = |
70436 | 2121 |
let |
2122 |
fun hyp_map hyp = |
|
2123 |
(case AList.lookup (op =) (#constraints ucontext) hyp of |
|
2124 |
SOME t => Hyp t |
|
70458 | 2125 |
| NONE => raise Fail "unconstrainT_proof: missing constraint"); |
70436 | 2126 |
|
2127 |
val typ = Term_Subst.map_atypsT_same (Type.strip_sorts o #atyp_map ucontext); |
|
2128 |
fun ofclass (ty, c) = |
|
2129 |
let val ty' = Term.map_atyps (#atyp_map ucontext) ty; |
|
70823 | 2130 |
in the_single (of_sort_proof algebra classrel_proof arity_proof hyp_map (ty', [c])) end; |
70436 | 2131 |
in |
2132 |
Same.commit (map_proof_same (Term_Subst.map_types_same typ) typ ofclass) |
|
2133 |
#> fold_rev (implies_intr_proof o snd) (#constraints ucontext) |
|
2134 |
end; |
|
2135 |
||
70877 | 2136 |
fun export_proof thy i prop prf0 = |
70451
550a5a822edb
clarified export: retain proof boxes as local definitions -- more scalable;
wenzelm
parents:
70449
diff
changeset
|
2137 |
let |
70877 | 2138 |
val prf = prf0 |
2139 |
|> reconstruct_proof thy prop |
|
2140 |
|> apply_preproc thy; |
|
2141 |
val (prop', SOME prf') = (prop, SOME prf) |> standard_vars Name.context; |
|
70881 | 2142 |
val args = [] |> add_standard_vars_term prop' |> add_standard_vars prf' |> rev; |
2143 |
val typargs = [] |> Term.add_tfrees prop' |> fold_proof_terms Term.add_tfrees prf' |> rev; |
|
2144 |
||
2145 |
val consts = Sign.consts_of thy; |
|
70916
4c15217d6266
clarified signature: name of standard_proof is authentic, otherwise empty;
wenzelm
parents:
70915
diff
changeset
|
2146 |
val xml = (typargs, (args, (prop', no_thm_names prf'))) |> |
70881 | 2147 |
let |
2148 |
open XML.Encode Term_XML.Encode; |
|
2149 |
val encode_vars = list (pair string typ); |
|
2150 |
val encode_term = encode_standard_term consts; |
|
2151 |
val encode_proof = encode_standard_proof consts; |
|
2152 |
in pair (list (pair string sort)) (pair encode_vars (pair encode_term encode_proof)) end; |
|
70500
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2153 |
val chunks = Buffer.chunks (YXML.buffer_body xml Buffer.empty); |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2154 |
in |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2155 |
chunks |> Export.export_params |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2156 |
{theory = thy, |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2157 |
binding = Path.binding0 (Path.make ["proofs", string_of_int i]), |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2158 |
executable = false, |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2159 |
compress = true, |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2160 |
strict = false} |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2161 |
end; |
5d540dbbe5ba
export each PThm node separately: slightly more scalable;
wenzelm
parents:
70497
diff
changeset
|
2162 |
|
70877 | 2163 |
fun export thy i prop prf = |
70848 | 2164 |
if export_enabled () then |
2165 |
let |
|
70984 | 2166 |
val _ = export_proof_boxes [prf]; |
70848 | 2167 |
val _ = export_proof thy i prop prf; |
2168 |
in () end |
|
2169 |
else (); |
|
70416 | 2170 |
|
2171 |
fun prune proof = |
|
2172 |
if Options.default_bool "prune_proofs" then MinProof |
|
70448
bf28f0179914
more robust export, based on reconstruct_proof / expand_proof;
wenzelm
parents:
70447
diff
changeset
|
2173 |
else proof; |
70416 | 2174 |
|
70458 | 2175 |
fun prepare_thm_proof unconstrain thy classrel_proof arity_proof |
70494 | 2176 |
(name, pos) shyps hyps concl promises body = |
11519 | 2177 |
let |
70422 | 2178 |
val named = name <> ""; |
2179 |
||
32810
f3466a5645fa
back to simple fold_body_thms and fulfill_proof/thm_proof (reverting a900d3cd47cc) -- the cycle check is implicit in the future computation of join_proofs;
wenzelm
parents:
32785
diff
changeset
|
2180 |
val prop = Logic.list_implies (hyps, concl); |
70416 | 2181 |
val args = prop_args prop; |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
2182 |
|
70436 | 2183 |
val (ucontext, prop1) = Logic.unconstrainT shyps prop; |
36882
f33760bb8ca0
conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp;
wenzelm
parents:
36880
diff
changeset
|
2184 |
|
70416 | 2185 |
val PBody {oracles = oracles0, thms = thms0, proof = prf} = body; |
37251
72c7e636067b
normalize and postprocess proof body in a separate future, taking care of platforms without multithreading (greately improves parallelization in general without the overhead of promised proofs, cf. usedir -q 0);
wenzelm
parents:
37236
diff
changeset
|
2186 |
val body0 = |
70416 | 2187 |
Future.value |
2188 |
(PBody {oracles = oracles0, thms = thms0, |
|
2189 |
proof = if proofs_enabled () then fold_rev implies_intr_proof hyps prf else MinProof}); |
|
70400
65bbef66e2ec
clarified treatment of unnamed PThm nodes (from close_derivation): retain full proof, publish when named;
wenzelm
parents:
70399
diff
changeset
|
2190 |
|
70878
69050518d4f3
skip (somewhat pointless) shrink_proof more uniformly;
wenzelm
parents:
70877
diff
changeset
|
2191 |
fun publish i = map_proof_of (rew_proof thy #> tap (export thy i prop1) #> prune); |
69050518d4f3
skip (somewhat pointless) shrink_proof more uniformly;
wenzelm
parents:
70877
diff
changeset
|
2192 |
val open_proof = not named ? rew_proof thy; |
70422 | 2193 |
|
70396 | 2194 |
fun new_prf () = |
2195 |
let |
|
70577
ed651a58afe4
back to uniform serial (reverting 913b4afb6ac2): this allows to treat derivation id like name space entity id;
wenzelm
parents:
70573
diff
changeset
|
2196 |
val i = serial (); |
70458 | 2197 |
val unconstrainT = |
2198 |
unconstrainT_proof (Sign.classes_of thy) classrel_proof arity_proof ucontext; |
|
2199 |
val postproc = map_proof_of unconstrainT #> named ? publish i; |
|
70396 | 2200 |
in (i, fulfill_proof_future thy promises postproc body0) end; |
70395
af88c05696bd
clarified postproc: apply shrink_proof last, e.g. relevant for export of full proof term;
wenzelm
parents:
70394
diff
changeset
|
2201 |
|
36880
49d3cc859a12
avoid redundant rebinding of name/prop -- probably introduced accidentally in 80bb72a0f577;
wenzelm
parents:
36879
diff
changeset
|
2202 |
val (i, body') = |
41699 | 2203 |
(*non-deterministic, depends on unknown promises*) |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
2204 |
(case strip_combt (fst (strip_combP prf)) of |
70577
ed651a58afe4
back to uniform serial (reverting 913b4afb6ac2): this allows to treat derivation id like name space entity id;
wenzelm
parents:
70573
diff
changeset
|
2205 |
(PThm ({serial = ser, name = a, prop = prop', types = NONE, ...}, thm_body'), args') => |
70493 | 2206 |
if (a = "" orelse a = name) andalso prop' = prop1 andalso args' = args then |
70551
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2207 |
let |
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2208 |
val Thm_Body {body = body', ...} = thm_body'; |
70577
ed651a58afe4
back to uniform serial (reverting 913b4afb6ac2): this allows to treat derivation id like name space entity id;
wenzelm
parents:
70573
diff
changeset
|
2209 |
val i = if a = "" andalso named then serial () else ser; |
ed651a58afe4
back to uniform serial (reverting 913b4afb6ac2): this allows to treat derivation id like name space entity id;
wenzelm
parents:
70573
diff
changeset
|
2210 |
in (i, body' |> ser <> i ? Future.map (publish i)) end |
28803
d90258bbb18f
reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial);
wenzelm
parents:
28329
diff
changeset
|
2211 |
else new_prf () |
28815 | 2212 |
| _ => new_prf ()); |
70416 | 2213 |
|
70502
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
2214 |
val export_proof = |
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
2215 |
if named orelse not (export_enabled ()) then no_export_proof |
70889
62b3acc801ec
more robust: avoid looping Lazy.force due to misinterpreted interrupt;
wenzelm
parents:
70888
diff
changeset
|
2216 |
else |
62b3acc801ec
more robust: avoid looping Lazy.force due to misinterpreted interrupt;
wenzelm
parents:
70888
diff
changeset
|
2217 |
Lazy.lazy (fn () => |
62b3acc801ec
more robust: avoid looping Lazy.force due to misinterpreted interrupt;
wenzelm
parents:
70888
diff
changeset
|
2218 |
join_proof body' |> open_proof |> export_proof thy i prop1 handle exn => |
62b3acc801ec
more robust: avoid looping Lazy.force due to misinterpreted interrupt;
wenzelm
parents:
70888
diff
changeset
|
2219 |
if Exn.is_interrupt exn then |
62b3acc801ec
more robust: avoid looping Lazy.force due to misinterpreted interrupt;
wenzelm
parents:
70888
diff
changeset
|
2220 |
raise Fail ("Interrupt: potential resource problems while exporting proof " ^ |
62b3acc801ec
more robust: avoid looping Lazy.force due to misinterpreted interrupt;
wenzelm
parents:
70888
diff
changeset
|
2221 |
string_of_int i) |
62b3acc801ec
more robust: avoid looping Lazy.force due to misinterpreted interrupt;
wenzelm
parents:
70888
diff
changeset
|
2222 |
else Exn.reraise exn); |
70502
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
2223 |
|
70595
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
2224 |
val theory_name = Context.theory_long_name thy; |
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
2225 |
val thm = (i, make_thm_node theory_name name prop1 body'); |
70423 | 2226 |
|
70595
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
2227 |
val header = thm_header i ([pos, Position.thread_data ()]) theory_name name prop1 NONE; |
70502
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
2228 |
val thm_body = Thm_Body {export_proof = export_proof, open_proof = open_proof, body = body'}; |
b053c9ed0b0a
more careful export of unnamed proof boxes: avoid duplicates via memoing;
wenzelm
parents:
70501
diff
changeset
|
2229 |
val head = PThm (header, thm_body); |
70423 | 2230 |
val proof = |
70439 | 2231 |
if unconstrain then |
2232 |
proof_combt' (head, (map o Option.map o Term.map_types) (#map_atyps ucontext) args) |
|
2233 |
else |
|
2234 |
proof_combP (proof_combt' (head, args), |
|
2235 |
map OfClass (#outer_constraints ucontext) @ map Hyp hyps); |
|
70590 | 2236 |
in (thm, proof) end; |
36883
4ed0d72def50
added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp;
wenzelm
parents:
36882
diff
changeset
|
2237 |
|
70422 | 2238 |
in |
2239 |
||
70887 | 2240 |
fun thm_proof thy = prepare_thm_proof false thy; |
36883
4ed0d72def50
added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp;
wenzelm
parents:
36882
diff
changeset
|
2241 |
|
70458 | 2242 |
fun unconstrain_thm_proof thy classrel_proof arity_proof shyps concl promises body = |
70494 | 2243 |
prepare_thm_proof true thy classrel_proof arity_proof ("", Position.none) |
2244 |
shyps [] concl promises body; |
|
36883
4ed0d72def50
added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp;
wenzelm
parents:
36882
diff
changeset
|
2245 |
|
70422 | 2246 |
end; |
2247 |
||
11519 | 2248 |
|
70892
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2249 |
(* PThm identity *) |
70416 | 2250 |
|
70551
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2251 |
fun get_identity shyps hyps prop prf = |
70436 | 2252 |
let val (_, prop) = Logic.unconstrainT shyps (Logic.list_implies (hyps, prop)) in |
70493 | 2253 |
(case fst (strip_combt (fst (strip_combP prf))) of |
70551
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2254 |
PThm ({serial, theory_name, name, prop = prop', ...}, _) => |
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2255 |
if prop = prop' |
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2256 |
then SOME {serial = serial, theory_name = theory_name, name = name} else NONE |
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2257 |
| _ => NONE) |
36877
7699f7fafde7
added Proofterm.get_name variants according to krauss/schropp;
wenzelm
parents:
36742
diff
changeset
|
2258 |
end; |
7699f7fafde7
added Proofterm.get_name variants according to krauss/schropp;
wenzelm
parents:
36742
diff
changeset
|
2259 |
|
70554 | 2260 |
fun get_approximative_name shyps hyps prop prf = |
70551
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2261 |
Option.map #name (get_identity shyps hyps prop prf) |> the_default ""; |
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2262 |
|
70554 | 2263 |
|
70892
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2264 |
(* thm_id *) |
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2265 |
|
70577
ed651a58afe4
back to uniform serial (reverting 913b4afb6ac2): this allows to treat derivation id like name space entity id;
wenzelm
parents:
70573
diff
changeset
|
2266 |
type thm_id = {serial: serial, theory_name: string}; |
70554 | 2267 |
|
70892
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2268 |
fun make_thm_id (serial, theory_name) : thm_id = |
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2269 |
{serial = serial, theory_name = theory_name}; |
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2270 |
|
70915
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
2271 |
fun thm_header_id ({serial, theory_name, ...}: thm_header) = |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
2272 |
make_thm_id (serial, theory_name); |
bd4d37edfee4
clarified expand_proof/expand_name: allow more detailed control via thm_header;
wenzelm
parents:
70909
diff
changeset
|
2273 |
|
70595
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
2274 |
fun thm_id (serial, thm_node) : thm_id = |
70892
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2275 |
make_thm_id (serial, thm_node_theory_name thm_node); |
70595
2ae7e33c950f
clarified thm_id vs. thm_node/thm: retain theory_name;
wenzelm
parents:
70593
diff
changeset
|
2276 |
|
70554 | 2277 |
fun get_id shyps hyps prop prf : thm_id option = |
70551
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2278 |
(case get_identity shyps hyps prop prf of |
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2279 |
NONE => NONE |
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2280 |
| SOME {name = "", ...} => NONE |
70892
aadb5c23af24
clarified proof_boxes (requires prune_proofs=false);
wenzelm
parents:
70889
diff
changeset
|
2281 |
| SOME {serial, theory_name, ...} => SOME (make_thm_id (serial, theory_name))); |
70551
9e87e978be5e
clarified identity of PThm nodes: do not reuse old id after renaming -- enforce uniqueness of substructures;
wenzelm
parents:
70541
diff
changeset
|
2282 |
|
70979 | 2283 |
fun this_id NONE _ = false |
2284 |
| this_id (SOME (thm_id: thm_id)) (thm_id': thm_id) = #serial thm_id = #serial thm_id'; |
|
2285 |
||
70976
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2286 |
|
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2287 |
(* proof boxes: intermediate PThm nodes *) |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2288 |
|
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2289 |
fun proof_boxes {included, excluded} proofs = |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2290 |
let |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2291 |
fun boxes_of (Abst (_, _, prf)) = boxes_of prf |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2292 |
| boxes_of (AbsP (_, _, prf)) = boxes_of prf |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2293 |
| boxes_of (prf % _) = boxes_of prf |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2294 |
| boxes_of (prf1 %% prf2) = boxes_of prf1 #> boxes_of prf2 |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2295 |
| boxes_of (PThm (header as {serial = i, ...}, thm_body)) = |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2296 |
(fn boxes => |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2297 |
let val thm_id = thm_header_id header in |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2298 |
if Inttab.defined boxes i orelse (excluded thm_id andalso not (included thm_id)) |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2299 |
then boxes |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2300 |
else |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2301 |
let |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2302 |
val prf' = thm_body_proof_open thm_body; |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2303 |
val boxes' = Inttab.update (i, (header, prf')) boxes; |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2304 |
in boxes_of prf' boxes' end |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2305 |
end) |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2306 |
| boxes_of MinProof = raise MIN_PROOF () |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2307 |
| boxes_of _ = I; |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2308 |
in Inttab.fold_rev (cons o #2) (fold boxes_of proofs Inttab.empty) [] end; |
d86798eddc14
more accurate proof_boxes -- from actual proof body;
wenzelm
parents:
70948
diff
changeset
|
2309 |
|
11519 | 2310 |
end; |
2311 |
||
70578 | 2312 |
structure Basic_Proofterm = |
2313 |
struct |
|
2314 |
datatype proof = datatype Proofterm.proof |
|
2315 |
datatype proof_body = datatype Proofterm.proof_body |
|
2316 |
val op %> = Proofterm.%> |
|
2317 |
end; |
|
2318 |
||
32094
89b9210c7506
prefer simultaneous join -- for improved scheduling;
wenzelm
parents:
32057
diff
changeset
|
2319 |
open Basic_Proofterm; |