diff options
Diffstat (limited to 'spartan/core')
-rw-r--r-- | spartan/core/Spartan.thy | 31 | ||||
-rw-r--r-- | spartan/core/cases.ML (renamed from spartan/core/lib/cases.ML) | 0 | ||||
-rw-r--r-- | spartan/core/congruence.ML (renamed from spartan/core/lib/congruence.ML) | 0 | ||||
-rw-r--r-- | spartan/core/elimination.ML (renamed from spartan/core/lib/elimination.ML) | 6 | ||||
-rw-r--r-- | spartan/core/eqsubst.ML (renamed from spartan/core/lib/eqsubst.ML) | 0 | ||||
-rw-r--r-- | spartan/core/equality.ML (renamed from spartan/core/lib/equality.ML) | 0 | ||||
-rw-r--r-- | spartan/core/focus.ML (renamed from spartan/core/lib/focus.ML) | 0 | ||||
-rw-r--r-- | spartan/core/goals.ML (renamed from spartan/core/lib/goals.ML) | 0 | ||||
-rw-r--r-- | spartan/core/implicits.ML (renamed from spartan/core/lib/implicits.ML) | 0 | ||||
-rw-r--r-- | spartan/core/lib.ML (renamed from spartan/core/lib/lib.ML) | 0 | ||||
-rw-r--r-- | spartan/core/lib/tactics.ML | 221 | ||||
-rw-r--r-- | spartan/core/lib/types.ML | 18 | ||||
-rw-r--r-- | spartan/core/ml/cases.ML | 42 | ||||
-rw-r--r-- | spartan/core/ml/congruence.ML | 82 | ||||
-rw-r--r-- | spartan/core/ml/elimination.ML | 46 | ||||
-rw-r--r-- | spartan/core/ml/eqsubst.ML | 434 | ||||
-rw-r--r-- | spartan/core/ml/equality.ML | 90 | ||||
-rw-r--r-- | spartan/core/ml/focus.ML | 125 | ||||
-rw-r--r-- | spartan/core/ml/goals.ML | 214 | ||||
-rw-r--r-- | spartan/core/ml/implicits.ML | 78 | ||||
-rw-r--r-- | spartan/core/ml/lib.ML | 145 | ||||
-rw-r--r-- | spartan/core/ml/rewrite.ML | 465 | ||||
-rw-r--r-- | spartan/core/ml/types.ML | 18 | ||||
-rw-r--r-- | spartan/core/rewrite.ML (renamed from spartan/core/lib/rewrite.ML) | 0 | ||||
-rw-r--r-- | spartan/core/tactics.ML (renamed from spartan/core/ml/tactics.ML) | 0 | ||||
-rw-r--r-- | spartan/core/types.ML | 29 |
26 files changed, 50 insertions, 1994 deletions
diff --git a/spartan/core/Spartan.thy b/spartan/core/Spartan.thy index 55eb657..0a5fe4c 100644 --- a/spartan/core/Spartan.thy +++ b/spartan/core/Spartan.thy @@ -69,10 +69,13 @@ axiomatization app :: \<open>o \<Rightarrow> o \<Rightarrow> o\<close> ("(1_ `_)" [120, 121] 120) syntax - "_Pi" :: \<open>idt \<Rightarrow> o \<Rightarrow> o \<Rightarrow> o\<close> ("(2\<Prod>_: _./ _)" 30) - "_lam" :: \<open>pttrns \<Rightarrow> o \<Rightarrow> o \<Rightarrow> o\<close> ("(2\<lambda>_: _./ _)" 30) - "_lam2" :: \<open>pttrns \<Rightarrow> o \<Rightarrow> o \<Rightarrow> o\<close> + "_Pi" :: \<open>idts \<Rightarrow> o \<Rightarrow> o \<Rightarrow> o\<close> ("(2\<Prod>_: _./ _)" 30) + "_Pi2" :: \<open>idts \<Rightarrow> o \<Rightarrow> o \<Rightarrow> o\<close> + "_lam" :: \<open>idts \<Rightarrow> o \<Rightarrow> o \<Rightarrow> o\<close> ("(2\<lambda>_: _./ _)" 30) + "_lam2" :: \<open>idts \<Rightarrow> o \<Rightarrow> o \<Rightarrow> o\<close> translations + "\<Prod>x xs: A. B" \<rightharpoonup> "CONST Pi A (\<lambda>x. _Pi2 xs A B)" + "_Pi2 x A B" \<rightharpoonup> "\<Prod>x: A. B" "\<Prod>x: A. B" \<rightleftharpoons> "CONST Pi A (\<lambda>x. B)" "\<lambda>x xs: A. b" \<rightharpoonup> "CONST lam A (\<lambda>x. _lam2 xs A b)" "_lam2 x A b" \<rightharpoonup> "\<lambda>x: A. b" @@ -151,23 +154,23 @@ section \<open>Proof commands\<close> named_theorems typechk -ML_file \<open>lib/lib.ML\<close> -ML_file \<open>lib/goals.ML\<close> -ML_file \<open>lib/focus.ML\<close> -ML_file \<open>lib/types.ML\<close> +ML_file \<open>lib.ML\<close> +ML_file \<open>goals.ML\<close> +ML_file \<open>focus.ML\<close> +ML_file \<open>types.ML\<close> section \<open>Congruence automation\<close> consts "rhs" :: \<open>'a\<close> ("..") -ML_file \<open>lib/congruence.ML\<close> +ML_file \<open>congruence.ML\<close> section \<open>Methods\<close> -ML_file \<open>lib/elimination.ML\<close> \<comment> \<open>elimination rules\<close> -ML_file \<open>lib/cases.ML\<close> \<comment> \<open>case reasoning rules\<close> +ML_file \<open>elimination.ML\<close> \<comment> \<open>elimination rules\<close> +ML_file \<open>cases.ML\<close> \<comment> \<open>case reasoning rules\<close> named_theorems intros and comps lemmas @@ -177,7 +180,7 @@ lemmas [comps] = beta Sig_comp and [cong] = Pi_cong lam_cong Sig_cong -ML_file \<open>lib/tactics.ML\<close> +ML_file \<open>tactics.ML\<close> method_setup assumptions = \<open>Scan.succeed (fn ctxt => SIMPLE_METHOD ( @@ -238,7 +241,7 @@ ML_file \<open>~~/src/Tools/misc_legacy.ML\<close> ML_file \<open>~~/src/Tools/IsaPlanner/isand.ML\<close> ML_file \<open>~~/src/Tools/IsaPlanner/rw_inst.ML\<close> ML_file \<open>~~/src/Tools/IsaPlanner/zipper.ML\<close> -ML_file \<open>lib/eqsubst.ML\<close> +ML_file \<open>eqsubst.ML\<close> \<comment> \<open>\<open>rewrite\<close> method\<close> consts rewrite_HOLE :: "'a::{}" ("\<hole>") @@ -265,7 +268,7 @@ lemma imp_cong_eq: done ML_file \<open>~~/src/HOL/Library/cconv.ML\<close> -ML_file \<open>lib/rewrite.ML\<close> +ML_file \<open>rewrite.ML\<close> \<comment> \<open>\<open>reduce\<close> computes terms via judgmental equalities\<close> setup \<open>map_theory_simpset (fn ctxt => ctxt addSolver (mk_solver "" typechk_tac))\<close> @@ -284,7 +287,7 @@ consts iarg :: \<open>'a\<close> ("?") hole :: \<open>'b\<close> ("{}") -ML_file \<open>lib/implicits.ML\<close> +ML_file \<open>implicits.ML\<close> attribute_setup implicit = \<open>Scan.succeed Implicits.implicit_defs_attr\<close> diff --git a/spartan/core/lib/cases.ML b/spartan/core/cases.ML index 560a9f1..560a9f1 100644 --- a/spartan/core/lib/cases.ML +++ b/spartan/core/cases.ML diff --git a/spartan/core/lib/congruence.ML b/spartan/core/congruence.ML index d9f4ffa..d9f4ffa 100644 --- a/spartan/core/lib/congruence.ML +++ b/spartan/core/congruence.ML diff --git a/spartan/core/lib/elimination.ML b/spartan/core/elimination.ML index 617f83e..11b3af9 100644 --- a/spartan/core/lib/elimination.ML +++ b/spartan/core/elimination.ML @@ -6,6 +6,7 @@ Type elimination setup. structure Elim: sig +val Rules: Proof.context -> (thm * indexname list) Termtab.table val rules: Proof.context -> (thm * indexname list) list val lookup_rule: Proof.context -> Termtab.key -> (thm * indexname list) option val register_rule: term list -> thm -> Context.generic -> Context.generic @@ -25,8 +26,9 @@ structure Rules = Generic_Data ( val merge = Termtab.merge (eq_fst Thm.eq_thm_prop) ) -fun rules ctxt = map (op #2) (Termtab.dest (Rules.get (Context.Proof ctxt))) -fun lookup_rule ctxt = Termtab.lookup (Rules.get (Context.Proof ctxt)) +val Rules = Rules.get o Context.Proof +fun rules ctxt = map (op #2) (Termtab.dest (Rules ctxt)) +fun lookup_rule ctxt = Termtab.lookup (Rules ctxt) fun register_rule tms rl = let val hd = Term.head_of (Lib.type_of_typing (Thm.major_prem_of rl)) in Rules.map (Termtab.update (hd, (rl, map (#1 o dest_Var) tms))) end diff --git a/spartan/core/lib/eqsubst.ML b/spartan/core/eqsubst.ML index ea6f098..ea6f098 100644 --- a/spartan/core/lib/eqsubst.ML +++ b/spartan/core/eqsubst.ML diff --git a/spartan/core/lib/equality.ML b/spartan/core/equality.ML index 023147b..023147b 100644 --- a/spartan/core/lib/equality.ML +++ b/spartan/core/equality.ML diff --git a/spartan/core/lib/focus.ML b/spartan/core/focus.ML index 1d8de78..1d8de78 100644 --- a/spartan/core/lib/focus.ML +++ b/spartan/core/focus.ML diff --git a/spartan/core/lib/goals.ML b/spartan/core/goals.ML index 9f394f0..9f394f0 100644 --- a/spartan/core/lib/goals.ML +++ b/spartan/core/goals.ML diff --git a/spartan/core/lib/implicits.ML b/spartan/core/implicits.ML index 4d73c8d..4d73c8d 100644 --- a/spartan/core/lib/implicits.ML +++ b/spartan/core/implicits.ML diff --git a/spartan/core/lib/lib.ML b/spartan/core/lib.ML index 615f601..615f601 100644 --- a/spartan/core/lib/lib.ML +++ b/spartan/core/lib.ML diff --git a/spartan/core/lib/tactics.ML b/spartan/core/lib/tactics.ML deleted file mode 100644 index 172ae90..0000000 --- a/spartan/core/lib/tactics.ML +++ /dev/null @@ -1,221 +0,0 @@ -(* Title: tactics.ML - Author: Joshua Chen - -General tactics for dependent type theory. -*) - -structure Tactics: -sig - -val assumptions_tac: Proof.context -> int -> tactic -val known_tac: Proof.context -> int -> tactic -val typechk_tac: Proof.context -> int -> tactic -val auto_typechk: bool Config.T -val SIDE_CONDS: (int -> tactic) -> Proof.context -> int -> tactic -val rule_tac: thm list -> Proof.context -> int -> tactic -val dest_tac: int option -> thm list -> Proof.context -> int -> tactic -val intro_tac: Proof.context -> int -> tactic -val intros_tac: Proof.context -> int -> tactic -val elim_context_tac: term list -> Proof.context -> int -> context_tactic -val cases_tac: term -> Proof.context -> int -> tactic - -end = struct - -(*An assumption tactic that only solves typing goals with rigid terms and - judgmental equalities without schematic variables*) -fun assumptions_tac ctxt = SUBGOAL (fn (goal, i) => - let - val concl = Logic.strip_assums_concl goal - in - if - Lib.is_typing concl andalso Lib.is_rigid (Lib.term_of_typing concl) - orelse not ((exists_subterm is_Var) concl) - then assume_tac ctxt i - else no_tac - end) - -(*Solves typing goals with rigid term by resolving with context facts and - simplifier premises, or arbitrary goals by *non-unifying* assumption*) -fun known_tac ctxt = SUBGOAL (fn (goal, i) => - let - val concl = Logic.strip_assums_concl goal - in - ((if Lib.is_typing concl andalso Lib.is_rigid (Lib.term_of_typing concl) - then - let val ths = map fst (Facts.props (Proof_Context.facts_of ctxt)) - in resolve_tac ctxt (ths @ Simplifier.prems_of ctxt) end - else K no_tac) - ORELSE' assumptions_tac ctxt) i - end) - -(*Typechecking: try to solve goals of the form "a: A" where a is rigid*) -fun typechk_tac ctxt = - let - val tac = SUBGOAL (fn (goal, i) => - if Lib.rigid_typing_concl goal - then - let val net = Tactic.build_net - ((Named_Theorems.get ctxt \<^named_theorems>\<open>typechk\<close>) - @(Named_Theorems.get ctxt \<^named_theorems>\<open>intros\<close>) - @(map #1 (Elim.rules ctxt))) - in (resolve_from_net_tac ctxt net) i end - else no_tac) - in - REPEAT_ALL_NEW (known_tac ctxt ORELSE' tac) - end - -(*Many methods try to automatically discharge side conditions by typechecking. - Switch this flag off to discharge by non-unifying assumption instead.*) -val auto_typechk = Attrib.setup_config_bool \<^binding>\<open>auto_typechk\<close> (K true) - -fun side_cond_tac ctxt = CHANGED o REPEAT o - (if Config.get ctxt auto_typechk then typechk_tac ctxt else known_tac ctxt) - -(*Combinator runs tactic and tries to discharge all new typing side conditions*) -fun SIDE_CONDS tac ctxt = tac THEN_ALL_NEW (TRY o side_cond_tac ctxt) - -local -fun mk_rules _ ths [] = ths - | mk_rules n ths ths' = - let val ths'' = foldr1 (op @) - (map (fn th => [rotate_prems n (th RS @{thm PiE})] handle THM _ => []) ths') - in - mk_rules n (ths @ ths') ths'' - end -in - -(*Resolves with given rules, discharging as many side conditions as possible*) -fun rule_tac ths ctxt = resolve_tac ctxt (mk_rules 0 [] ths) - -(*Attempts destruct-resolution with the n-th premise of the given rules*) -fun dest_tac opt_n ths ctxt = dresolve_tac ctxt - (mk_rules (case opt_n of NONE => 0 | SOME 0 => 0 | SOME n => n-1) [] ths) - -end - -(*Applies some introduction rule*) -fun intro_tac ctxt = SUBGOAL (fn (_, i) => SIDE_CONDS - (resolve_tac ctxt (Named_Theorems.get ctxt \<^named_theorems>\<open>intros\<close>)) ctxt i) - -fun intros_tac ctxt = SUBGOAL (fn (_, i) => - (CHANGED o REPEAT o CHANGED o intro_tac ctxt) i) - -(* Induction/elimination *) - -(*Pushes a context/goal premise typing t:T into a \<Prod>-type*) -fun internalize_fact_tac t = - Subgoal.FOCUS_PARAMS (fn {context = ctxt, concl = raw_concl, ...} => - let - val concl = Logic.strip_assums_concl (Thm.term_of raw_concl) - val C = Lib.type_of_typing concl - val B = Thm.cterm_of ctxt (Lib.lambda_var t C) - val a = Thm.cterm_of ctxt t - (*The resolvent is PiE[where ?B=B and ?a=a]*) - val resolvent = - Drule.infer_instantiate' ctxt [NONE, NONE, SOME B, SOME a] @{thm PiE} - in - HEADGOAL (resolve_tac ctxt [resolvent]) - (*known_tac infers the correct type T inferred by unification*) - THEN SOMEGOAL (known_tac ctxt) - end) - -(*Premises that have already been pushed into the \<Prod>-type*) -structure Inserts = Proof_Data ( - type T = term Item_Net.T - val init = K (Item_Net.init Term.aconv_untyped single) -) - -local - -fun elim_core_tac tms types ctxt = SUBGOAL (K ( - let - val rule_insts = map ((Elim.lookup_rule ctxt) o Term.head_of) types - val rules = flat (map - (fn rule_inst => case rule_inst of - NONE => [] - | SOME (rl, idxnames) => [Drule.infer_instantiate ctxt - (idxnames ~~ map (Thm.cterm_of ctxt) tms) rl]) - rule_insts) - in - HEADGOAL (resolve_tac ctxt rules) - THEN RANGE (replicate (length tms) (typechk_tac ctxt)) 1 - end handle Option => no_tac)) - -in - -fun elim_context_tac tms ctxt = case tms of - [] => CONTEXT_SUBGOAL (K (Context_Tactic.CONTEXT_TACTIC (HEADGOAL ( - SIDE_CONDS (eresolve_tac ctxt (map #1 (Elim.rules ctxt))) ctxt)))) - | major::_ => CONTEXT_SUBGOAL (fn (goal, _) => - let - val facts = Proof_Context.facts_of ctxt - val prems = Logic.strip_assums_hyp goal - val template = Lib.typing_of_term major - val types = - map (Thm.prop_of o #1) (Facts.could_unify facts template) - @ filter (fn prem => Term.could_unify (template, prem)) prems - |> map Lib.type_of_typing - in case types of - [] => Context_Tactic.CONTEXT_TACTIC no_tac - | _ => - let - val inserts = map (Thm.prop_of o fst) (Facts.props facts) @ prems - |> filter Lib.is_typing - |> map Lib.dest_typing - |> filter_out (fn (t, _) => - Term.aconv (t, major) orelse Item_Net.member (Inserts.get ctxt) t) - |> map (fn (t, T) => ((t, T), Lib.subterm_count_distinct tms T)) - |> filter (fn (_, i) => i > 0) - (*`t1: T1` comes before `t2: T2` if T1 contains t2 as subterm. - If they are incomparable, then order by decreasing - `subterm_count [p, x, y] T`*) - |> sort (fn (((t1, _), i), ((_, T2), j)) => - Lib.cond_order (Lib.subterm_order T2 t1) (int_ord (j, i))) - |> map (#1 o #1) - val record_inserts = Inserts.map (fold Item_Net.update inserts) - val tac = - (*Push premises having a subterm in `tms` into a \<Prod>*) - fold (fn t => fn tac => - tac THEN HEADGOAL (internalize_fact_tac t ctxt)) - inserts all_tac - (*Apply elimination rule*) - THEN (HEADGOAL ( - elim_core_tac tms types ctxt - (*Pull pushed premises back out*) - THEN_ALL_NEW (SUBGOAL (fn (_, i) => - REPEAT_DETERM_N (length inserts) - (resolve_tac ctxt @{thms PiI} i))) - )) - (*Side conditions*) - THEN ALLGOALS (TRY o side_cond_tac ctxt) - in - fn (ctxt, st) => Context_Tactic.TACTIC_CONTEXT - (record_inserts ctxt) (tac st) - end - end) - -fun cases_tac tm ctxt = SUBGOAL (fn (goal, i) => - let - val facts = Proof_Context.facts_of ctxt - val prems = Logic.strip_assums_hyp goal - val template = Lib.typing_of_term tm - val types = - map (Thm.prop_of o #1) (Facts.could_unify facts template) - @ filter (fn prem => Term.could_unify (template, prem)) prems - |> map Lib.type_of_typing - val res = (case types of - [typ] => Drule.infer_instantiate' ctxt [SOME (Thm.cterm_of ctxt tm)] - (the (Case.lookup_rule ctxt (Term.head_of typ))) - | [] => raise Option - | _ => raise error (Syntax.string_of_term ctxt tm ^ "not uniquely typed")) - handle Option => error ("no case rule known for " - ^ (Syntax.string_of_term ctxt tm)) - in - SIDE_CONDS (resolve_tac ctxt [res]) ctxt i - end) - -end - -end - -open Tactics diff --git a/spartan/core/lib/types.ML b/spartan/core/lib/types.ML deleted file mode 100644 index b0792fe..0000000 --- a/spartan/core/lib/types.ML +++ /dev/null @@ -1,18 +0,0 @@ -structure Types -= struct - -structure Data = Generic_Data ( - type T = thm Item_Net.T - val empty = Item_Net.init Thm.eq_thm - (single o Lib.term_of_typing o Thm.prop_of) - val extend = I - val merge = Item_Net.merge -) - -fun put_type typing = Context.proof_map (Data.map (Item_Net.update typing)) -fun put_types typings = foldr1 (op o) (map put_type typings) - -fun get_types ctxt tm = Item_Net.retrieve (Data.get (Context.Proof ctxt)) tm - - -end diff --git a/spartan/core/ml/cases.ML b/spartan/core/ml/cases.ML deleted file mode 100644 index 560a9f1..0000000 --- a/spartan/core/ml/cases.ML +++ /dev/null @@ -1,42 +0,0 @@ -(* Title: cases.ML - Author: Joshua Chen - -Case reasoning. -*) - -structure Case: sig - -val rules: Proof.context -> thm list -val lookup_rule: Proof.context -> Termtab.key -> thm option -val register_rule: thm -> Context.generic -> Context.generic - -end = struct - -(* Context data *) - -(*Stores elimination rules together with a list of the indexnames of the - variables each rule eliminates. Keyed by head of the type being eliminated.*) -structure Rules = Generic_Data ( - type T = thm Termtab.table - val empty = Termtab.empty - val extend = I - val merge = Termtab.merge Thm.eq_thm_prop -) - -val rules = map #2 o Termtab.dest o Rules.get o Context.Proof -fun lookup_rule ctxt = Termtab.lookup (Rules.get (Context.Proof ctxt)) -fun register_rule rl = - let val hd = Term.head_of (Lib.type_of_typing (Thm.major_prem_of rl)) - in Rules.map (Termtab.update (hd, rl)) end - - -(* [cases] attribute *) -val _ = Theory.setup ( - Attrib.setup \<^binding>\<open>cases\<close> - (Scan.succeed (Thm.declaration_attribute register_rule)) - "" - #> Global_Theory.add_thms_dynamic (\<^binding>\<open>cases\<close>, rules o Context.proof_of) -) - - -end diff --git a/spartan/core/ml/congruence.ML b/spartan/core/ml/congruence.ML deleted file mode 100644 index d9f4ffa..0000000 --- a/spartan/core/ml/congruence.ML +++ /dev/null @@ -1,82 +0,0 @@ -structure Congruence = struct - -(* Congruence context data *) - -structure RHS = Generic_Data ( - type T = (term * indexname) Termtab.table - val empty = Termtab.empty - val extend = I - val merge = Termtab.merge (Term.aconv o apply2 #1) -) - -fun register_rhs t var = - let - val key = Term.head_of t - val idxname = #1 (dest_Var var) - in - RHS.map (Termtab.update (key, (t, idxname))) - end - -fun lookup_congruence ctxt t = - Termtab.lookup (RHS.get (Context.Proof ctxt)) (Term.head_of t) - - -(* Congruence declarations *) - -local val Frees_to_Vars = - map_aterms (fn tm => - case tm of - Free (name, T) => Var (("*!"^name, 0), T) (*Hacky naming!*) - | _ => tm) -in - -(*Declare the "right-hand side" of types that are congruences. - Does not handle bound variables, so no dependent RHS in declarations!*) -val _ = Outer_Syntax.local_theory \<^command_keyword>\<open>congruence\<close> - "declare right hand side of congruence" - (Parse.term -- (\<^keyword>\<open>rhs\<close> |-- Parse.term) >> - (fn (t_str, rhs_str) => fn lthy => - let - val (t, rhs) = apply2 (Frees_to_Vars o Syntax.read_term lthy) - (t_str, rhs_str) - in lthy |> - Local_Theory.background_theory ( - Context.theory_map (register_rhs t rhs)) - end)) - -end - - -(* Calculational reasoning: ".." setup *) - -fun last_rhs ctxt = map_aterms (fn t => - case t of - Const (\<^const_name>\<open>rhs\<close>, _) => - let - val this_name = Name_Space.full_name (Proof_Context.naming_of ctxt) - (Binding.name Auto_Bind.thisN) - val this = #thms (the (Proof_Context.lookup_fact ctxt this_name)) - handle Option => [] - val rhs = - (case map Thm.prop_of this of - [prop] => - (let - val typ = Lib.type_of_typing (Logic.strip_assums_concl prop) - val (cong_pttrn, varname) = the (lookup_congruence ctxt typ) - val unif_res = Pattern.unify (Context.Proof ctxt) - (cong_pttrn, typ) Envir.init - val rhs = #2 (the - (Vartab.lookup (Envir.term_env unif_res) varname)) - in - rhs - end handle Option => - error (".. can't match right-hand side of congruence")) - | _ => Term.dummy) - in rhs end - | _ => t) - -val _ = Context.>> - (Syntax_Phases.term_check 5 "" (fn ctxt => map (last_rhs ctxt))) - - -end diff --git a/spartan/core/ml/elimination.ML b/spartan/core/ml/elimination.ML deleted file mode 100644 index 617f83e..0000000 --- a/spartan/core/ml/elimination.ML +++ /dev/null @@ -1,46 +0,0 @@ -(* Title: elimination.ML - Author: Joshua Chen - -Type elimination setup. -*) - -structure Elim: sig - -val rules: Proof.context -> (thm * indexname list) list -val lookup_rule: Proof.context -> Termtab.key -> (thm * indexname list) option -val register_rule: term list -> thm -> Context.generic -> Context.generic - -end = struct - -(** Context data **) - -(* Elimination rule data *) - -(*Stores elimination rules together with a list of the indexnames of the - variables each rule eliminates. Keyed by head of the type being eliminated.*) -structure Rules = Generic_Data ( - type T = (thm * indexname list) Termtab.table - val empty = Termtab.empty - val extend = I - val merge = Termtab.merge (eq_fst Thm.eq_thm_prop) -) - -fun rules ctxt = map (op #2) (Termtab.dest (Rules.get (Context.Proof ctxt))) -fun lookup_rule ctxt = Termtab.lookup (Rules.get (Context.Proof ctxt)) -fun register_rule tms rl = - let val hd = Term.head_of (Lib.type_of_typing (Thm.major_prem_of rl)) - in Rules.map (Termtab.update (hd, (rl, map (#1 o dest_Var) tms))) end - - -(* [elims] attribute *) -val _ = Theory.setup ( - Attrib.setup \<^binding>\<open>elims\<close> - (Scan.repeat Args.term_pattern >> - (Thm.declaration_attribute o register_rule)) - "" - #> Global_Theory.add_thms_dynamic (\<^binding>\<open>elims\<close>, - fn context => (map #1 (rules (Context.proof_of context)))) -) - - -end diff --git a/spartan/core/ml/eqsubst.ML b/spartan/core/ml/eqsubst.ML deleted file mode 100644 index ea6f098..0000000 --- a/spartan/core/ml/eqsubst.ML +++ /dev/null @@ -1,434 +0,0 @@ -(* Title: eqsubst.ML - Author: Lucas Dixon, University of Edinburgh - Modified: Joshua Chen, University of Innsbruck - -Perform a substitution using an equation. - -This code is slightly modified from the original at Tools/eqsubst..ML, -to incorporate auto-typechecking for type theory. -*) - -signature EQSUBST = -sig - type match = - ((indexname * (sort * typ)) list (* type instantiations *) - * (indexname * (typ * term)) list) (* term instantiations *) - * (string * typ) list (* fake named type abs env *) - * (string * typ) list (* type abs env *) - * term (* outer term *) - - type searchinfo = - Proof.context - * int (* maxidx *) - * Zipper.T (* focusterm to search under *) - - datatype 'a skipseq = SkipMore of int | SkipSeq of 'a Seq.seq Seq.seq - - val skip_first_asm_occs_search: ('a -> 'b -> 'c Seq.seq Seq.seq) -> 'a -> int -> 'b -> 'c skipseq - val skip_first_occs_search: int -> ('a -> 'b -> 'c Seq.seq Seq.seq) -> 'a -> 'b -> 'c Seq.seq - val skipto_skipseq: int -> 'a Seq.seq Seq.seq -> 'a skipseq - - (* tactics *) - val eqsubst_asm_tac: Proof.context -> int list -> thm list -> int -> tactic - val eqsubst_asm_tac': Proof.context -> - (searchinfo -> int -> term -> match skipseq) -> int -> thm -> int -> tactic - val eqsubst_tac: Proof.context -> - int list -> (* list of occurrences to rewrite, use [0] for any *) - thm list -> int -> tactic - val eqsubst_tac': Proof.context -> - (searchinfo -> term -> match Seq.seq) (* search function *) - -> thm (* equation theorem to rewrite with *) - -> int (* subgoal number in goal theorem *) - -> thm (* goal theorem *) - -> thm Seq.seq (* rewritten goal theorem *) - - (* search for substitutions *) - val valid_match_start: Zipper.T -> bool - val search_lr_all: Zipper.T -> Zipper.T Seq.seq - val search_lr_valid: (Zipper.T -> bool) -> Zipper.T -> Zipper.T Seq.seq - val searchf_lr_unify_all: searchinfo -> term -> match Seq.seq Seq.seq - val searchf_lr_unify_valid: searchinfo -> term -> match Seq.seq Seq.seq - val searchf_bt_unify_valid: searchinfo -> term -> match Seq.seq Seq.seq -end; - -structure EqSubst: EQSUBST = -struct - -(* changes object "=" to meta "==" which prepares a given rewrite rule *) -fun prep_meta_eq ctxt = - Simplifier.mksimps ctxt #> map Drule.zero_var_indexes; - -(* make free vars into schematic vars with index zero *) -fun unfix_frees frees = - fold (K (Thm.forall_elim_var 0)) frees o Drule.forall_intr_list frees; - - -type match = - ((indexname * (sort * typ)) list (* type instantiations *) - * (indexname * (typ * term)) list) (* term instantiations *) - * (string * typ) list (* fake named type abs env *) - * (string * typ) list (* type abs env *) - * term; (* outer term *) - -type searchinfo = - Proof.context - * int (* maxidx *) - * Zipper.T; (* focusterm to search under *) - - -(* skipping non-empty sub-sequences but when we reach the end - of the seq, remembering how much we have left to skip. *) -datatype 'a skipseq = - SkipMore of int | - SkipSeq of 'a Seq.seq Seq.seq; - -(* given a seqseq, skip the first m non-empty seq's, note deficit *) -fun skipto_skipseq m s = - let - fun skip_occs n sq = - (case Seq.pull sq of - NONE => SkipMore n - | SOME (h, t) => - (case Seq.pull h of - NONE => skip_occs n t - | SOME _ => if n <= 1 then SkipSeq (Seq.cons h t) else skip_occs (n - 1) t)) - in skip_occs m s end; - -(* note: outerterm is the taget with the match replaced by a bound - variable : ie: "P lhs" beocmes "%x. P x" - insts is the types of instantiations of vars in lhs - and typinsts is the type instantiations of types in the lhs - Note: Final rule is the rule lifted into the ontext of the - taget thm. *) -fun mk_foo_match mkuptermfunc Ts t = - let - val ty = Term.type_of t - val bigtype = rev (map snd Ts) ---> ty - fun mk_foo 0 t = t - | mk_foo i t = mk_foo (i - 1) (t $ (Bound (i - 1))) - val num_of_bnds = length Ts - (* foo_term = "fooabs y0 ... yn" where y's are local bounds *) - val foo_term = mk_foo num_of_bnds (Bound num_of_bnds) - in Abs ("fooabs", bigtype, mkuptermfunc foo_term) end; - -(* T is outer bound vars, n is number of locally bound vars *) -(* THINK: is order of Ts correct...? or reversed? *) -fun mk_fake_bound_name n = ":b_" ^ n; -fun fakefree_badbounds Ts t = - let val (FakeTs, Ts, newnames) = - fold_rev (fn (n, ty) => fn (FakeTs, Ts, usednames) => - let - val newname = singleton (Name.variant_list usednames) n - in - ((mk_fake_bound_name newname, ty) :: FakeTs, - (newname, ty) :: Ts, - newname :: usednames) - end) Ts ([], [], []) - in (FakeTs, Ts, Term.subst_bounds (map Free FakeTs, t)) end; - -(* before matching we need to fake the bound vars that are missing an - abstraction. In this function we additionally construct the - abstraction environment, and an outer context term (with the focus - abstracted out) for use in rewriting with RW_Inst.rw *) -fun prep_zipper_match z = - let - val t = Zipper.trm z - val c = Zipper.ctxt z - val Ts = Zipper.C.nty_ctxt c - val (FakeTs', Ts', t') = fakefree_badbounds Ts t - val absterm = mk_foo_match (Zipper.C.apply c) Ts' t' - in - (t', (FakeTs', Ts', absterm)) - end; - -(* Unification with exception handled *) -(* given context, max var index, pat, tgt; returns Seq of instantiations *) -fun clean_unify ctxt ix (a as (pat, tgt)) = - let - (* type info will be re-derived, maybe this can be cached - for efficiency? *) - val pat_ty = Term.type_of pat; - val tgt_ty = Term.type_of tgt; - (* FIXME is it OK to ignore the type instantiation info? - or should I be using it? *) - val typs_unify = - SOME (Sign.typ_unify (Proof_Context.theory_of ctxt) (pat_ty, tgt_ty) (Vartab.empty, ix)) - handle Type.TUNIFY => NONE; - in - (case typs_unify of - SOME (typinsttab, ix2) => - let - (* FIXME is it right to throw away the flexes? - or should I be using them somehow? *) - fun mk_insts env = - (Vartab.dest (Envir.type_env env), - Vartab.dest (Envir.term_env env)); - val initenv = - Envir.Envir {maxidx = ix2, tenv = Vartab.empty, tyenv = typinsttab}; - val useq = Unify.smash_unifiers (Context.Proof ctxt) [a] initenv - handle ListPair.UnequalLengths => Seq.empty - | Term.TERM _ => Seq.empty; - fun clean_unify' useq () = - (case (Seq.pull useq) of - NONE => NONE - | SOME (h, t) => SOME (mk_insts h, Seq.make (clean_unify' t))) - handle ListPair.UnequalLengths => NONE - | Term.TERM _ => NONE; - in - (Seq.make (clean_unify' useq)) - end - | NONE => Seq.empty) - end; - -(* Unification for zippers *) -(* Note: Ts is a modified version of the original names of the outer - bound variables. New names have been introduced to make sure they are - unique w.r.t all names in the term and each other. usednames' is - oldnames + new names. *) -fun clean_unify_z ctxt maxidx pat z = - let val (t, (FakeTs, Ts, absterm)) = prep_zipper_match z in - Seq.map (fn insts => (insts, FakeTs, Ts, absterm)) - (clean_unify ctxt maxidx (t, pat)) - end; - - -fun bot_left_leaf_of (l $ _) = bot_left_leaf_of l - | bot_left_leaf_of (Abs (_, _, t)) = bot_left_leaf_of t - | bot_left_leaf_of x = x; - -(* Avoid considering replacing terms which have a var at the head as - they always succeed trivially, and uninterestingly. *) -fun valid_match_start z = - (case bot_left_leaf_of (Zipper.trm z) of - Var _ => false - | _ => true); - -(* search from top, left to right, then down *) -val search_lr_all = ZipperSearch.all_bl_ur; - -(* search from top, left to right, then down *) -fun search_lr_valid validf = - let - fun sf_valid_td_lr z = - let val here = if validf z then [Zipper.Here z] else [] in - (case Zipper.trm z of - _ $ _ => - [Zipper.LookIn (Zipper.move_down_left z)] @ here @ - [Zipper.LookIn (Zipper.move_down_right z)] - | Abs _ => here @ [Zipper.LookIn (Zipper.move_down_abs z)] - | _ => here) - end; - in Zipper.lzy_search sf_valid_td_lr end; - -(* search from bottom to top, left to right *) -fun search_bt_valid validf = - let - fun sf_valid_td_lr z = - let val here = if validf z then [Zipper.Here z] else [] in - (case Zipper.trm z of - _ $ _ => - [Zipper.LookIn (Zipper.move_down_left z), - Zipper.LookIn (Zipper.move_down_right z)] @ here - | Abs _ => [Zipper.LookIn (Zipper.move_down_abs z)] @ here - | _ => here) - end; - in Zipper.lzy_search sf_valid_td_lr end; - -fun searchf_unify_gen f (ctxt, maxidx, z) lhs = - Seq.map (clean_unify_z ctxt maxidx lhs) (Zipper.limit_apply f z); - -(* search all unifications *) -val searchf_lr_unify_all = searchf_unify_gen search_lr_all; - -(* search only for 'valid' unifiers (non abs subterms and non vars) *) -val searchf_lr_unify_valid = searchf_unify_gen (search_lr_valid valid_match_start); - -val searchf_bt_unify_valid = searchf_unify_gen (search_bt_valid valid_match_start); - -(* apply a substitution in the conclusion of the theorem *) -(* cfvs are certified free var placeholders for goal params *) -(* conclthm is a theorem of for just the conclusion *) -(* m is instantiation/match information *) -(* rule is the equation for substitution *) -fun apply_subst_in_concl ctxt i st (cfvs, conclthm) rule m = - RW_Inst.rw ctxt m rule conclthm - |> unfix_frees cfvs - |> Conv.fconv_rule Drule.beta_eta_conversion - |> (fn r => resolve_tac ctxt [r] i st); - -(* substitute within the conclusion of goal i of gth, using a meta -equation rule. Note that we assume rule has var indicies zero'd *) -fun prep_concl_subst ctxt i gth = - let - val th = Thm.incr_indexes 1 gth; - val tgt_term = Thm.prop_of th; - - val (fixedbody, fvs) = IsaND.fix_alls_term ctxt i tgt_term; - val cfvs = rev (map (Thm.cterm_of ctxt) fvs); - - val conclterm = Logic.strip_imp_concl fixedbody; - val conclthm = Thm.trivial (Thm.cterm_of ctxt conclterm); - val maxidx = Thm.maxidx_of th; - val ft = - (Zipper.move_down_right (* ==> *) - o Zipper.move_down_left (* Trueprop *) - o Zipper.mktop - o Thm.prop_of) conclthm - in - ((cfvs, conclthm), (ctxt, maxidx, ft)) - end; - -(* substitute using an object or meta level equality *) -fun eqsubst_tac' ctxt searchf instepthm i st = - let - val (cvfsconclthm, searchinfo) = prep_concl_subst ctxt i st; - val stepthms = Seq.of_list (prep_meta_eq ctxt instepthm); - fun rewrite_with_thm r = - let val (lhs,_) = Logic.dest_equals (Thm.concl_of r) in - searchf searchinfo lhs - |> Seq.maps (apply_subst_in_concl ctxt i st cvfsconclthm r) - end; - in stepthms |> Seq.maps rewrite_with_thm end; - - -(* General substitution of multiple occurrences using one of - the given theorems *) - -fun skip_first_occs_search occ srchf sinfo lhs = - (case skipto_skipseq occ (srchf sinfo lhs) of - SkipMore _ => Seq.empty - | SkipSeq ss => Seq.flat ss); - -(* The "occs" argument is a list of integers indicating which occurrence -w.r.t. the search order, to rewrite. Backtracking will also find later -occurrences, but all earlier ones are skipped. Thus you can use [0] to -just find all rewrites. *) - -fun eqsubst_tac ctxt occs thms i st = - let val nprems = Thm.nprems_of st in - if nprems < i then Seq.empty else - let - val thmseq = Seq.of_list thms; - fun apply_occ occ st = - thmseq |> Seq.maps (fn r => - eqsubst_tac' ctxt - (skip_first_occs_search occ searchf_lr_unify_valid) r - (i + (Thm.nprems_of st - nprems)) st); - val sorted_occs = Library.sort (rev_order o int_ord) occs; - in - Seq.maps distinct_subgoals_tac (Seq.EVERY (map apply_occ sorted_occs) st) - end - end; - - -(* apply a substitution inside assumption j, keeps asm in the same place *) -fun apply_subst_in_asm ctxt i st rule ((cfvs, j, _, pth),m) = - let - val st2 = Thm.rotate_rule (j - 1) i st; (* put premice first *) - val preelimrule = - RW_Inst.rw ctxt m rule pth - |> (Seq.hd o prune_params_tac ctxt) - |> Thm.permute_prems 0 ~1 (* put old asm first *) - |> unfix_frees cfvs (* unfix any global params *) - |> Conv.fconv_rule Drule.beta_eta_conversion; (* normal form *) - in - (* ~j because new asm starts at back, thus we subtract 1 *) - Seq.map (Thm.rotate_rule (~ j) (Thm.nprems_of rule + i)) - (dresolve_tac ctxt [preelimrule] i st2) - end; - - -(* prepare to substitute within the j'th premise of subgoal i of gth, -using a meta-level equation. Note that we assume rule has var indicies -zero'd. Note that we also assume that premt is the j'th premice of -subgoal i of gth. Note the repetition of work done for each -assumption, i.e. this can be made more efficient for search over -multiple assumptions. *) -fun prep_subst_in_asm ctxt i gth j = - let - val th = Thm.incr_indexes 1 gth; - val tgt_term = Thm.prop_of th; - - val (fixedbody, fvs) = IsaND.fix_alls_term ctxt i tgt_term; - val cfvs = rev (map (Thm.cterm_of ctxt) fvs); - - val asmt = nth (Logic.strip_imp_prems fixedbody) (j - 1); - val asm_nprems = length (Logic.strip_imp_prems asmt); - - val pth = Thm.trivial ((Thm.cterm_of ctxt) asmt); - val maxidx = Thm.maxidx_of th; - - val ft = - (Zipper.move_down_right (* trueprop *) - o Zipper.mktop - o Thm.prop_of) pth - in ((cfvs, j, asm_nprems, pth), (ctxt, maxidx, ft)) end; - -(* prepare subst in every possible assumption *) -fun prep_subst_in_asms ctxt i gth = - map (prep_subst_in_asm ctxt i gth) - ((fn l => Library.upto (1, length l)) - (Logic.prems_of_goal (Thm.prop_of gth) i)); - - -(* substitute in an assumption using an object or meta level equality *) -fun eqsubst_asm_tac' ctxt searchf skipocc instepthm i st = - let - val asmpreps = prep_subst_in_asms ctxt i st; - val stepthms = Seq.of_list (prep_meta_eq ctxt instepthm); - fun rewrite_with_thm r = - let - val (lhs,_) = Logic.dest_equals (Thm.concl_of r); - fun occ_search occ [] = Seq.empty - | occ_search occ ((asminfo, searchinfo)::moreasms) = - (case searchf searchinfo occ lhs of - SkipMore i => occ_search i moreasms - | SkipSeq ss => - Seq.append (Seq.map (Library.pair asminfo) (Seq.flat ss)) - (occ_search 1 moreasms)) (* find later substs also *) - in - occ_search skipocc asmpreps |> Seq.maps (apply_subst_in_asm ctxt i st r) - end; - in stepthms |> Seq.maps rewrite_with_thm end; - - -fun skip_first_asm_occs_search searchf sinfo occ lhs = - skipto_skipseq occ (searchf sinfo lhs); - -fun eqsubst_asm_tac ctxt occs thms i st = - let val nprems = Thm.nprems_of st in - if nprems < i then Seq.empty - else - let - val thmseq = Seq.of_list thms; - fun apply_occ occ st = - thmseq |> Seq.maps (fn r => - eqsubst_asm_tac' ctxt - (skip_first_asm_occs_search searchf_lr_unify_valid) occ r - (i + (Thm.nprems_of st - nprems)) st); - val sorted_occs = Library.sort (rev_order o int_ord) occs; - in - Seq.maps distinct_subgoals_tac (Seq.EVERY (map apply_occ sorted_occs) st) - end - end; - -(* combination method that takes a flag (true indicates that subst - should be done to an assumption, false = apply to the conclusion of - the goal) as well as the theorems to use *) -val _ = - Theory.setup - (Method.setup \<^binding>\<open>sub\<close> - (Scan.lift (Args.mode "asm" -- Scan.optional (Args.parens (Scan.repeat Parse.nat)) [0]) -- - Attrib.thms >> (fn ((asm, occs), inthms) => fn ctxt => - SIMPLE_METHOD' ((if asm then eqsubst_asm_tac else eqsubst_tac) ctxt occs inthms))) - "single-step substitution" - #> - (Method.setup \<^binding>\<open>subst\<close> - (Scan.lift (Args.mode "asm" -- Scan.optional (Args.parens (Scan.repeat Parse.nat)) [0]) -- - Attrib.thms >> (fn ((asm, occs), inthms) => fn ctxt => - SIMPLE_METHOD' (SIDE_CONDS - ((if asm then eqsubst_asm_tac else eqsubst_tac) ctxt occs inthms) - ctxt))) - "single-step substitution with auto-typechecking")) - -end; diff --git a/spartan/core/ml/equality.ML b/spartan/core/ml/equality.ML deleted file mode 100644 index 023147b..0000000 --- a/spartan/core/ml/equality.ML +++ /dev/null @@ -1,90 +0,0 @@ -(* Title: equality.ML - Author: Joshua Chen - -Equality reasoning with identity types. -*) - -structure Equality: -sig - -val dest_Id: term -> term * term * term - -val push_hyp_tac: term * term -> Proof.context -> int -> tactic -val induction_tac: term -> term -> term -> term -> Proof.context -> tactic -val equality_context_tac: Facts.ref -> Proof.context -> context_tactic - -end = struct - -fun dest_Id tm = case tm of - Const (\<^const_name>\<open>Id\<close>, _) $ A $ x $ y => (A, x, y) - | _ => error "dest_Id" - -(*Context assumptions that have already been pushed into the type family*) -structure Inserts = Proof_Data ( - type T = term Item_Net.T - val init = K (Item_Net.init Term.aconv_untyped single) -) - -fun push_hyp_tac (t, _) = - Subgoal.FOCUS_PARAMS (fn {context = ctxt, concl, ...} => - let - val (_, C) = Lib.dest_typing (Thm.term_of concl) - val B = Thm.cterm_of ctxt (Lib.lambda_var t C) - val a = Thm.cterm_of ctxt t - (*The resolvent is PiE[where ?B=B and ?a=a]*) - val resolvent = - Drule.infer_instantiate' ctxt [NONE, NONE, SOME B, SOME a] @{thm PiE} - in - HEADGOAL (resolve_tac ctxt [resolvent]) - THEN SOMEGOAL (known_tac ctxt) - end) - -fun induction_tac p A x y ctxt = - let - val [p, A, x, y] = map (Thm.cterm_of ctxt) [p, A, x, y] - in - HEADGOAL (resolve_tac ctxt - [Drule.infer_instantiate' ctxt [SOME p, SOME A, SOME x, SOME y] @{thm IdE}]) - end - -val side_conds_tac = TRY oo typechk_tac - -fun equality_context_tac fact ctxt = - let - val eq_th = Proof_Context.get_fact_single ctxt fact - val (p, (A, x, y)) = (Lib.dest_typing ##> dest_Id) (Thm.prop_of eq_th) - - val hyps = - Facts.props (Proof_Context.facts_of ctxt) - |> filter (fn (th, _) => Lib.is_typing (Thm.prop_of th)) - |> map (Lib.dest_typing o Thm.prop_of o fst) - |> filter_out (fn (t, _) => - Term.aconv (t, p) orelse Item_Net.member (Inserts.get ctxt) t) - |> map (fn (t, T) => ((t, T), Lib.subterm_count_distinct [p, x, y] T)) - |> filter (fn (_, i) => i > 0) - (*`t1: T1` comes before `t2: T2` if T1 contains t2 as subterm. - If they are incomparable, then order by decreasing - `subterm_count [p, x, y] T`*) - |> sort (fn (((t1, _), i), ((_, T2), j)) => - Lib.cond_order (Lib.subterm_order T2 t1) (int_ord (j, i))) - |> map #1 - - val record_inserts = - Inserts.map (fold (fn (t, _) => fn net => Item_Net.update t net) hyps) - - val tac = - fold (fn hyp => fn tac => tac THEN HEADGOAL (push_hyp_tac hyp ctxt)) - hyps all_tac - THEN ( - induction_tac p A x y ctxt - THEN RANGE (replicate 3 (typechk_tac ctxt) @ [side_conds_tac ctxt]) 1 - ) - THEN ( - REPEAT_DETERM_N (length hyps) (SOMEGOAL (resolve_tac ctxt @{thms PiI})) - THEN ALLGOALS (side_conds_tac ctxt) - ) - in - fn (ctxt, st) => Context_Tactic.TACTIC_CONTEXT (record_inserts ctxt) (tac st) - end - -end diff --git a/spartan/core/ml/focus.ML b/spartan/core/ml/focus.ML deleted file mode 100644 index 1d8de78..0000000 --- a/spartan/core/ml/focus.ML +++ /dev/null @@ -1,125 +0,0 @@ -(* Title: focus.ML - Author: Makarius Wenzel, Joshua Chen - -A modified version of the Isar `subgoal` command -that keeps schematic variables in the goal state. - -Modified from code originally written by Makarius Wenzel. -*) - -local - -fun param_bindings ctxt (param_suffix, raw_param_specs) st = - let - val _ = if Thm.no_prems st then error "No subgoals!" else () - val subgoal = #1 (Logic.dest_implies (Thm.prop_of st)) - val subgoal_params = - map (apfst (Name.internal o Name.clean)) (Term.strip_all_vars subgoal) - |> Term.variant_frees subgoal |> map #1 - - val n = length subgoal_params - val m = length raw_param_specs - val _ = - m <= n orelse - error ("Excessive subgoal parameter specification" ^ - Position.here_list (map snd (drop n raw_param_specs))) - - val param_specs = - raw_param_specs |> map - (fn (NONE, _) => NONE - | (SOME x, pos) => - let - val b = #1 (#1 (Proof_Context.cert_var (Binding.make (x, pos), NONE, NoSyn) ctxt)) - val _ = Variable.check_name b - in SOME b end) - |> param_suffix ? append (replicate (n - m) NONE) - - fun bindings (SOME x :: xs) (_ :: ys) = x :: bindings xs ys - | bindings (NONE :: xs) (y :: ys) = Binding.name y :: bindings xs ys - | bindings _ ys = map Binding.name ys - in bindings param_specs subgoal_params end - -fun gen_schematic_subgoal prep_atts raw_result_binding raw_prems_binding param_specs state = - let - val _ = Proof.assert_backward state - - val state1 = state - |> Proof.map_context (Proof_Context.set_mode Proof_Context.mode_schematic) - |> Proof.refine_insert [] - - val {context = ctxt, facts = facts, goal = st} = Proof.raw_goal state1 - - val result_binding = apsnd (map (prep_atts ctxt)) raw_result_binding - val (prems_binding, do_prems) = - (case raw_prems_binding of - SOME (b, raw_atts) => ((b, map (prep_atts ctxt) raw_atts), true) - | NONE => (Binding.empty_atts, false)) - - val (subgoal_focus, _) = - (if do_prems then Subgoal.focus_prems else Subgoal.focus_params) ctxt - 1 (SOME (param_bindings ctxt param_specs st)) st - - fun after_qed (ctxt'', [[result]]) = - Proof.end_block #> (fn state' => - let - val ctxt' = Proof.context_of state' - val results' = - Proof_Context.export ctxt'' ctxt' (Conjunction.elim_conjunctions result) - in - state' - |> Proof.refine_primitive (fn _ => fn _ => - Subgoal.retrofit ctxt'' ctxt' (#params subgoal_focus) (#asms subgoal_focus) 1 - (Goal.protect 0 result) st - |> Seq.hd) - |> Proof.map_context - (#2 o Proof_Context.note_thmss "" [(result_binding, [(results', [])])]) - end) - #> Proof.reset_facts - #> Proof.enter_backward - in - state1 - |> Proof.enter_forward - |> Proof.using_facts [] - |> Proof.begin_block - |> Proof.map_context (fn _ => - #context subgoal_focus - |> Proof_Context.note_thmss "" [(prems_binding, [(#prems subgoal_focus, [])])] |> #2) - |> Proof.internal_goal (K (K ())) (Proof_Context.get_mode ctxt) true "subgoal" - NONE after_qed [] [] [(Binding.empty_atts, [(Thm.term_of (#concl subgoal_focus), [])])] |> #2 - |> Proof.using_facts facts - |> pair subgoal_focus - end - -val opt_fact_binding = - Scan.optional (Parse.binding -- Parse.opt_attribs || Parse.attribs >> pair Binding.empty) - Binding.empty_atts - -val for_params = - Scan.optional - (\<^keyword>\<open>vars\<close> |-- - Parse.!!! ((Scan.option Parse.dots >> is_some) -- - (Scan.repeat1 (Parse.maybe_position Parse.name_position)))) - (false, []) - -val schematic_subgoal_cmd = gen_schematic_subgoal Attrib.attribute_cmd - -val parser = - opt_fact_binding - -- (Scan.option (\<^keyword>\<open>prems\<close> |-- Parse.!!! opt_fact_binding)) - -- for_params >> (fn ((a, b), c) => - Toplevel.proofs (Seq.make_results o Seq.single o #2 o schematic_subgoal_cmd a b c)) - -in - -(** Outer syntax commands **) - -val _ = Outer_Syntax.command \<^command_keyword>\<open>focus\<close> - "focus on first subgoal within backward refinement, without instantiating schematic vars" - parser - -val _ = Outer_Syntax.command \<^command_keyword>\<open>\<guillemotright>\<close> "focus bullet" parser -val _ = Outer_Syntax.command \<^command_keyword>\<open>\<^item>\<close> "focus bullet" parser -val _ = Outer_Syntax.command \<^command_keyword>\<open>\<^enum>\<close> "focus bullet" parser -val _ = Outer_Syntax.command \<^command_keyword>\<open>~\<close> "focus bullet" parser - -end diff --git a/spartan/core/ml/goals.ML b/spartan/core/ml/goals.ML deleted file mode 100644 index 9f394f0..0000000 --- a/spartan/core/ml/goals.ML +++ /dev/null @@ -1,214 +0,0 @@ -(* Title: goals.ML - Author: Makarius Wenzel, Joshua Chen - -Goal statements and proof term export. - -Modified from code originally written by Makarius Wenzel. -*) - -local - -val long_keyword = - Parse_Spec.includes >> K "" || - Parse_Spec.long_statement_keyword - -val long_statement = - Scan.optional - (Parse_Spec.opt_thm_name ":" --| Scan.ahead long_keyword) - Binding.empty_atts -- - Scan.optional Parse_Spec.includes [] -- Parse_Spec.long_statement - >> (fn ((binding, includes), (elems, concl)) => - (true, binding, includes, elems, concl)) - -val short_statement = - Parse_Spec.statement -- Parse_Spec.if_statement -- Parse.for_fixes - >> (fn ((shows, assumes), fixes) => - (false, Binding.empty_atts, [], - [Element.Fixes fixes, Element.Assumes assumes], - Element.Shows shows)) - -fun prep_statement prep_att prep_stmt raw_elems raw_stmt ctxt = - let - val (stmt, elems_ctxt) = prep_stmt raw_elems raw_stmt ctxt - val prems = Assumption.local_prems_of elems_ctxt ctxt - val stmt_ctxt = fold (fold (Proof_Context.augment o fst) o snd) - stmt elems_ctxt - in - case raw_stmt of - Element.Shows _ => - let val stmt' = Attrib.map_specs (map prep_att) stmt - in (([], prems, stmt', NONE), stmt_ctxt) end - | Element.Obtains raw_obtains => - let - val asms_ctxt = stmt_ctxt - |> fold (fn ((name, _), asm) => - snd o Proof_Context.add_assms Assumption.assume_export - [((name, [Context_Rules.intro_query NONE]), asm)]) stmt - val that = Assumption.local_prems_of asms_ctxt stmt_ctxt - val ([(_, that')], that_ctxt) = asms_ctxt - |> Proof_Context.set_stmt true - |> Proof_Context.note_thmss "" - [((Binding.name Auto_Bind.thatN, []), [(that, [])])] - ||> Proof_Context.restore_stmt asms_ctxt - - val stmt' = [ - (Binding.empty_atts, - [(#2 (#1 (Obtain.obtain_thesis ctxt)), [])]) - ] - in - ((Obtain.obtains_attribs raw_obtains, prems, stmt', SOME that'), - that_ctxt) - end - end - -fun define_proof_term name (local_name, [th]) lthy = - let - fun make_name_binding suffix local_name = - let val base_local_name = Long_Name.base_name local_name - in - Binding.qualified_name - ((case base_local_name of - "" => name - | _ => base_local_name) - ^(case suffix of - SOME "prf" => "_prf" - | SOME "def" => "_def" - | _ => "")) - end - - val (prems, concl) = - (Logic.strip_assums_hyp (Thm.prop_of th), - Logic.strip_assums_concl (Thm.prop_of th)) - in - if not (Lib.is_typing concl) then - ([], lthy) - else let - val prems_vars = distinct Term.aconv (flat - (map (Lib.collect_subterms is_Var) prems)) - - val concl_vars = Lib.collect_subterms is_Var - (Lib.term_of_typing concl) - - val params = inter Term.aconv concl_vars prems_vars - - val prf_tm = - fold_rev lambda params (Lib.term_of_typing concl) - - val ((_, (_, raw_def)), lthy') = Local_Theory.define - ((make_name_binding NONE local_name, Mixfix.NoSyn), - ((make_name_binding (SOME "prf") local_name, []), prf_tm)) lthy - - val def = - fold - (fn th1 => fn th2 => Thm.combination th2 th1) - (map (Thm.reflexive o Thm.cterm_of lthy) params) - raw_def - - val ((_, def'), lthy'') = Local_Theory.note - ((make_name_binding (SOME "def") local_name, []), [def]) - lthy' - in - (def', lthy'') - end - end - | define_proof_term _ _ _ = error - ("Unimplemented: handling proof terms of multiple facts in" - ^" single result") - -fun gen_schematic_theorem - bundle_includes prep_att prep_stmt - gen_prf long kind before_qed after_qed (name, raw_atts) - raw_includes raw_elems raw_concl int lthy = - let - val _ = Local_Theory.assert lthy; - - val elems = raw_elems |> map (Element.map_ctxt_attrib (prep_att lthy)) - val ((more_atts, prems, stmt, facts), goal_ctxt) = lthy - |> bundle_includes raw_includes - |> prep_statement (prep_att lthy) prep_stmt elems raw_concl - val atts = more_atts @ map (prep_att lthy) raw_atts - val pos = Position.thread_data () - - val prems_name = if long then Auto_Bind.assmsN else Auto_Bind.thatN - - fun after_qed' results goal_ctxt' = - let - val results' = burrow - (map (Goal.norm_result lthy) o Proof_Context.export goal_ctxt' lthy) - results - - val ((res, lthy'), substmts) = - if forall (Binding.is_empty_atts o fst) stmt - then ((map (pair "") results', lthy), false) - else - (Local_Theory.notes_kind kind - (map2 (fn (b, _) => fn ths => (b, [(ths, [])])) stmt results') - lthy, - true) - - val (res', lthy'') = - if gen_prf - then - let - val (prf_tm_defs, lthy'') = - fold - (fn result => fn (defs, lthy) => - apfst (fn new_defs => defs @ new_defs) - (define_proof_term (Binding.name_of name) result lthy)) - res ([], lthy') - - val res_folded = - map (apsnd (map (Local_Defs.fold lthy'' prf_tm_defs))) res - in - Local_Theory.notes_kind kind - [((name, @{attributes [typechk]} @ atts), - [(maps #2 res_folded, [])])] - lthy'' - end - else - Local_Theory.notes_kind kind - [((name, atts), [(maps #2 res, [])])] - lthy' - - val _ = Proof_Display.print_results int pos lthy'' - ((kind, Binding.name_of name), map (fn (_, ths) => ("", ths)) res') - - val _ = - if substmts then map - (fn (name, ths) => Proof_Display.print_results int pos lthy'' - (("and", name), [("", ths)])) - res - else [] - in - after_qed results' lthy'' - end - in - goal_ctxt - |> not (null prems) ? - (Proof_Context.note_thmss "" [((Binding.name prems_name, []), [(prems, [])])] #> snd) - |> Proof.theorem before_qed after_qed' (map snd stmt) - |> (case facts of NONE => I | SOME ths => Proof.refine_insert ths) - end - -val schematic_theorem_cmd = - gen_schematic_theorem - Bundle.includes_cmd - Attrib.check_src - Expression.read_statement - -fun theorem spec descr = - Outer_Syntax.local_theory_to_proof' spec ("state " ^ descr) - (Scan.option (Args.parens (Args.$$$ "derive")) - -- (long_statement || short_statement) >> - (fn (opt_derive, (long, binding, includes, elems, concl)) => - schematic_theorem_cmd - (case opt_derive of SOME "derive" => true | _ => false) - long descr NONE (K I) binding includes elems concl)) -in - -val _ = theorem \<^command_keyword>\<open>Theorem\<close> "Theorem" -val _ = theorem \<^command_keyword>\<open>Lemma\<close> "Lemma" -val _ = theorem \<^command_keyword>\<open>Corollary\<close> "Corollary" -val _ = theorem \<^command_keyword>\<open>Proposition\<close> "Proposition" - -end diff --git a/spartan/core/ml/implicits.ML b/spartan/core/ml/implicits.ML deleted file mode 100644 index 4d73c8d..0000000 --- a/spartan/core/ml/implicits.ML +++ /dev/null @@ -1,78 +0,0 @@ -structure Implicits : -sig - -val implicit_defs: Proof.context -> (term * term) Symtab.table -val implicit_defs_attr: attribute -val make_holes: Proof.context -> term -> term - -end = struct - -structure Defs = Generic_Data ( - type T = (term * term) Symtab.table - val empty = Symtab.empty - val extend = I - val merge = Symtab.merge (Term.aconv o apply2 #1) -) - -val implicit_defs = Defs.get o Context.Proof - -val implicit_defs_attr = Thm.declaration_attribute (fn th => - let - val (t, def) = Lib.dest_eq (Thm.prop_of th) - val (head, args) = Term.strip_comb t - val def' = fold_rev lambda args def - in - Defs.map (Symtab.update (Term.term_name head, (head, def'))) - end) - -fun make_holes ctxt = - let - fun iarg_to_hole (Const (\<^const_name>\<open>iarg\<close>, T)) = - Const (\<^const_name>\<open>hole\<close>, T) - | iarg_to_hole t = t - - fun expand head args = - let - fun betapplys (head', args') = - Term.betapplys (map_aterms iarg_to_hole head', args') - in - case head of - Abs (x, T, t) => - list_comb (Abs (x, T, Lib.traverse_term expand t), args) - | _ => - case Symtab.lookup (implicit_defs ctxt) (Term.term_name head) of - SOME (t, def) => betapplys - (Envir.expand_atom - (Term.fastype_of head) - (Term.fastype_of t, def), - args) - | NONE => list_comb (head, args) - end - - fun holes_to_vars t = - let - val count = Lib.subterm_count (Const (\<^const_name>\<open>hole\<close>, dummyT)) - - fun subst (Const (\<^const_name>\<open>hole\<close>, T)) (Var (idx, _)::_) Ts = - let - val bounds = map Bound (0 upto (length Ts - 1)) - val T' = foldr1 (op -->) (Ts @ [T]) - in - foldl1 (op $) (Var (idx, T')::bounds) - end - | subst (Abs (x, T, t)) vs Ts = Abs (x, T, subst t vs (T::Ts)) - | subst (t $ u) vs Ts = - let val n = count t - in subst t (take n vs) Ts $ subst u (drop n vs) Ts end - | subst t _ _ = t - - val vars = map (fn n => Var ((n, 0), dummyT)) - (Name.invent (Variable.names_of ctxt) "*" (count t)) - in - subst t vars [] - end - in - Lib.traverse_term expand #> holes_to_vars - end - -end diff --git a/spartan/core/ml/lib.ML b/spartan/core/ml/lib.ML deleted file mode 100644 index 615f601..0000000 --- a/spartan/core/ml/lib.ML +++ /dev/null @@ -1,145 +0,0 @@ -structure Lib : -sig - -(*Lists*) -val max: ('a * 'a -> bool) -> 'a list -> 'a -val maxint: int list -> int - -(*Terms*) -val is_rigid: term -> bool -val dest_eq: term -> term * term -val mk_Var: string -> int -> typ -> term -val lambda_var: term -> term -> term - -val is_typing: term -> bool -val dest_typing: term -> term * term -val term_of_typing: term -> term -val type_of_typing: term -> term -val mk_Pi: term -> term -> term -> term - -val typing_of_term: term -> term - -(*Goals*) -val rigid_typing_concl: term -> bool - -(*Subterms*) -val has_subterm: term list -> term -> bool -val subterm_count: term -> term -> int -val subterm_count_distinct: term list -> term -> int -val traverse_term: (term -> term list -> term) -> term -> term -val collect_subterms: (term -> bool) -> term -> term list - -(*Orderings*) -val subterm_order: term -> term -> order -val cond_order: order -> order -> order - -end = struct - - -(** Lists **) - -fun max gt (x::xs) = fold (fn a => fn b => if gt (a, b) then a else b) xs x - | max _ [] = error "max of empty list" - -val maxint = max (op >) - - -(** Terms **) - -(* Meta *) - -val is_rigid = not o is_Var o head_of - -fun dest_eq (Const (\<^const_name>\<open>Pure.eq\<close>, _) $ t $ def) = (t, def) - | dest_eq _ = error "dest_eq" - -fun mk_Var name idx T = Var ((name, idx), T) - -fun lambda_var x tm = - let - fun var_args (Var (idx, T)) = Var (idx, \<^typ>\<open>o\<close> --> T) $ x - | var_args t = t - in - tm |> map_aterms var_args - |> lambda x - end - -(* Object *) - -fun is_typing (Const (\<^const_name>\<open>has_type\<close>, _) $ _ $ _) = true - | is_typing _ = false - -fun dest_typing (Const (\<^const_name>\<open>has_type\<close>, _) $ t $ T) = (t, T) - | dest_typing _ = error "dest_typing" - -val term_of_typing = #1 o dest_typing -val type_of_typing = #2 o dest_typing - -fun mk_Pi v typ body = Const (\<^const_name>\<open>Pi\<close>, dummyT) $ typ $ lambda v body - -fun typing_of_term tm = \<^const>\<open>has_type\<close> $ tm $ Var (("*?", 0), \<^typ>\<open>o\<close>) -(*The above is a bit hacky; basically we need to guarantee that the schematic - var is fresh*) - - -(** Goals **) - -fun rigid_typing_concl goal = - let val concl = Logic.strip_assums_concl goal - in is_typing concl andalso is_rigid (term_of_typing concl) end - - -(** Subterms **) - -fun has_subterm tms = - Term.exists_subterm - (foldl1 (op orf) (map (fn t => fn s => Term.aconv_untyped (s, t)) tms)) - -fun subterm_count s t = - let - fun count (t1 $ t2) i = i + count t1 0 + count t2 0 - | count (Abs (_, _, t)) i = i + count t 0 - | count t i = if Term.aconv_untyped (s, t) then i + 1 else i - in - count t 0 - end - -(*Number of distinct subterms in `tms` that appear in `tm`*) -fun subterm_count_distinct tms tm = - length (filter I (map (fn t => has_subterm [t] tm) tms)) - -(* - "Folds" a function f over the term structure of t by traversing t from child - nodes upwards through parents. At each node n in the term syntax tree, f is - additionally passed a list of the results of f at all children of n. -*) -fun traverse_term f t = - let - fun map_aux (Abs (x, T, t)) = Abs (x, T, map_aux t) - | map_aux t = - let - val (head, args) = Term.strip_comb t - val args' = map map_aux args - in - f head args' - end - in - map_aux t - end - -fun collect_subterms f (t $ u) = collect_subterms f t @ collect_subterms f u - | collect_subterms f (Abs (_, _, t)) = collect_subterms f t - | collect_subterms f t = if f t then [t] else [] - - -(** Orderings **) - -fun subterm_order t1 t2 = - if has_subterm [t1] t2 then LESS - else if has_subterm [t2] t1 then GREATER - else EQUAL - -fun cond_order o1 o2 = case o1 of EQUAL => o2 | _ => o1 - - -end diff --git a/spartan/core/ml/rewrite.ML b/spartan/core/ml/rewrite.ML deleted file mode 100644 index f9c5d8e..0000000 --- a/spartan/core/ml/rewrite.ML +++ /dev/null @@ -1,465 +0,0 @@ -(* Title: rewrite.ML - Author: Christoph Traut, Lars Noschinski, TU Muenchen - Modified: Joshua Chen, University of Innsbruck - -This is a rewrite method that supports subterm-selection based on patterns. - -The patterns accepted by rewrite are of the following form: - <atom> ::= <term> | "concl" | "asm" | "for" "(" <names> ")" - <pattern> ::= (in <atom> | at <atom>) [<pattern>] - <args> ::= [<pattern>] ("to" <term>) <thms> - -This syntax was clearly inspired by Gonthier's and Tassi's language of -patterns but has diverged significantly during its development. - -We also allow introduction of identifiers for bound variables, -which can then be used to match arbitrary subterms inside abstractions. - -This code is slightly modified from the original at HOL/Library/rewrite.ML, -to incorporate auto-typechecking for type theory. -*) - -infix 1 then_pconv; -infix 0 else_pconv; - -signature REWRITE = -sig - type patconv = Proof.context -> Type.tyenv * (string * term) list -> cconv - val then_pconv: patconv * patconv -> patconv - val else_pconv: patconv * patconv -> patconv - val abs_pconv: patconv -> string option * typ -> patconv (*XXX*) - val fun_pconv: patconv -> patconv - val arg_pconv: patconv -> patconv - val imp_pconv: patconv -> patconv - val params_pconv: patconv -> patconv - val forall_pconv: patconv -> string option * typ option -> patconv - val all_pconv: patconv - val for_pconv: patconv -> (string option * typ option) list -> patconv - val concl_pconv: patconv -> patconv - val asm_pconv: patconv -> patconv - val asms_pconv: patconv -> patconv - val judgment_pconv: patconv -> patconv - val in_pconv: patconv -> patconv - val match_pconv: patconv -> term * (string option * typ) list -> patconv - val rewrs_pconv: term option -> thm list -> patconv - - datatype ('a, 'b) pattern = At | In | Term of 'a | Concl | Asm | For of 'b list - - val mk_hole: int -> typ -> term - - val rewrite_conv: Proof.context - -> (term * (string * typ) list, string * typ option) pattern list * term option - -> thm list - -> conv -end - -structure Rewrite : REWRITE = -struct - -datatype ('a, 'b) pattern = At | In | Term of 'a | Concl | Asm | For of 'b list - -exception NO_TO_MATCH - -val holeN = Name.internal "_hole" - -fun prep_meta_eq ctxt = Simplifier.mksimps ctxt #> map Drule.zero_var_indexes - - -(* holes *) - -fun mk_hole i T = Var ((holeN, i), T) - -fun is_hole (Var ((name, _), _)) = (name = holeN) - | is_hole _ = false - -fun is_hole_const (Const (\<^const_name>\<open>rewrite_HOLE\<close>, _)) = true - | is_hole_const _ = false - -val hole_syntax = - let - (* Modified variant of Term.replace_hole *) - fun replace_hole Ts (Const (\<^const_name>\<open>rewrite_HOLE\<close>, T)) i = - (list_comb (mk_hole i (Ts ---> T), map_range Bound (length Ts)), i + 1) - | replace_hole Ts (Abs (x, T, t)) i = - let val (t', i') = replace_hole (T :: Ts) t i - in (Abs (x, T, t'), i') end - | replace_hole Ts (t $ u) i = - let - val (t', i') = replace_hole Ts t i - val (u', i'') = replace_hole Ts u i' - in (t' $ u', i'') end - | replace_hole _ a i = (a, i) - fun prep_holes ts = #1 (fold_map (replace_hole []) ts 1) - in - Context.proof_map (Syntax_Phases.term_check 101 "hole_expansion" (K prep_holes)) - #> Proof_Context.set_mode Proof_Context.mode_pattern - end - - -(* pattern conversions *) - -type patconv = Proof.context -> Type.tyenv * (string * term) list -> cterm -> thm - -fun (cv1 then_pconv cv2) ctxt tytenv ct = (cv1 ctxt tytenv then_conv cv2 ctxt tytenv) ct - -fun (cv1 else_pconv cv2) ctxt tytenv ct = (cv1 ctxt tytenv else_conv cv2 ctxt tytenv) ct - -fun raw_abs_pconv cv ctxt tytenv ct = - case Thm.term_of ct of - Abs _ => CConv.abs_cconv (fn (x, ctxt') => cv x ctxt' tytenv) ctxt ct - | t => raise TERM ("raw_abs_pconv", [t]) - -fun raw_fun_pconv cv ctxt tytenv ct = - case Thm.term_of ct of - _ $ _ => CConv.fun_cconv (cv ctxt tytenv) ct - | t => raise TERM ("raw_fun_pconv", [t]) - -fun raw_arg_pconv cv ctxt tytenv ct = - case Thm.term_of ct of - _ $ _ => CConv.arg_cconv (cv ctxt tytenv) ct - | t => raise TERM ("raw_arg_pconv", [t]) - -fun abs_pconv cv (s,T) ctxt (tyenv, ts) ct = - let val u = Thm.term_of ct - in - case try (fastype_of #> dest_funT) u of - NONE => raise TERM ("abs_pconv: no function type", [u]) - | SOME (U, _) => - let - val tyenv' = - if T = dummyT then tyenv - else Sign.typ_match (Proof_Context.theory_of ctxt) (T, U) tyenv - val eta_expand_cconv = - case u of - Abs _=> Thm.reflexive - | _ => CConv.rewr_cconv @{thm eta_expand} - fun add_ident NONE _ l = l - | add_ident (SOME name) ct l = (name, Thm.term_of ct) :: l - val abs_cv = CConv.abs_cconv (fn (ct, ctxt) => cv ctxt (tyenv', add_ident s ct ts)) ctxt - in (eta_expand_cconv then_conv abs_cv) ct end - handle Pattern.MATCH => raise TYPE ("abs_pconv: types don't match", [T,U], [u]) - end - -fun fun_pconv cv ctxt tytenv ct = - case Thm.term_of ct of - _ $ _ => CConv.fun_cconv (cv ctxt tytenv) ct - | Abs (_, T, _ $ Bound 0) => abs_pconv (fun_pconv cv) (NONE, T) ctxt tytenv ct - | t => raise TERM ("fun_pconv", [t]) - -local - -fun arg_pconv_gen cv0 cv ctxt tytenv ct = - case Thm.term_of ct of - _ $ _ => cv0 (cv ctxt tytenv) ct - | Abs (_, T, _ $ Bound 0) => abs_pconv (arg_pconv_gen cv0 cv) (NONE, T) ctxt tytenv ct - | t => raise TERM ("arg_pconv_gen", [t]) - -in - -fun arg_pconv ctxt = arg_pconv_gen CConv.arg_cconv ctxt -fun imp_pconv ctxt = arg_pconv_gen (CConv.concl_cconv 1) ctxt - -end - -(* Move to B in !!x_1 ... x_n. B. Do not eta-expand *) -fun params_pconv cv ctxt tytenv ct = - let val pconv = - case Thm.term_of ct of - Const (\<^const_name>\<open>Pure.all\<close>, _) $ Abs _ => (raw_arg_pconv o raw_abs_pconv) (fn _ => params_pconv cv) - | Const (\<^const_name>\<open>Pure.all\<close>, _) => raw_arg_pconv (params_pconv cv) - | _ => cv - in pconv ctxt tytenv ct end - -fun forall_pconv cv ident ctxt tytenv ct = - case Thm.term_of ct of - Const (\<^const_name>\<open>Pure.all\<close>, T) $ _ => - let - val def_U = T |> dest_funT |> fst |> dest_funT |> fst - val ident' = apsnd (the_default (def_U)) ident - in arg_pconv (abs_pconv cv ident') ctxt tytenv ct end - | t => raise TERM ("forall_pconv", [t]) - -fun all_pconv _ _ = Thm.reflexive - -fun for_pconv cv idents ctxt tytenv ct = - let - fun f rev_idents (Const (\<^const_name>\<open>Pure.all\<close>, _) $ t) = - let val (rev_idents', cv') = f rev_idents (case t of Abs (_,_,u) => u | _ => t) - in - case rev_idents' of - [] => ([], forall_pconv cv' (NONE, NONE)) - | (x :: xs) => (xs, forall_pconv cv' x) - end - | f rev_idents _ = (rev_idents, cv) - in - case f (rev idents) (Thm.term_of ct) of - ([], cv') => cv' ctxt tytenv ct - | _ => raise CTERM ("for_pconv", [ct]) - end - -fun concl_pconv cv ctxt tytenv ct = - case Thm.term_of ct of - (Const (\<^const_name>\<open>Pure.imp\<close>, _) $ _) $ _ => imp_pconv (concl_pconv cv) ctxt tytenv ct - | _ => cv ctxt tytenv ct - -fun asm_pconv cv ctxt tytenv ct = - case Thm.term_of ct of - (Const (\<^const_name>\<open>Pure.imp\<close>, _) $ _) $ _ => CConv.with_prems_cconv ~1 (cv ctxt tytenv) ct - | t => raise TERM ("asm_pconv", [t]) - -fun asms_pconv cv ctxt tytenv ct = - case Thm.term_of ct of - (Const (\<^const_name>\<open>Pure.imp\<close>, _) $ _) $ _ => - ((CConv.with_prems_cconv ~1 oo cv) else_pconv imp_pconv (asms_pconv cv)) ctxt tytenv ct - | t => raise TERM ("asms_pconv", [t]) - -fun judgment_pconv cv ctxt tytenv ct = - if Object_Logic.is_judgment ctxt (Thm.term_of ct) - then arg_pconv cv ctxt tytenv ct - else cv ctxt tytenv ct - -fun in_pconv cv ctxt tytenv ct = - (cv else_pconv - raw_fun_pconv (in_pconv cv) else_pconv - raw_arg_pconv (in_pconv cv) else_pconv - raw_abs_pconv (fn _ => in_pconv cv)) - ctxt tytenv ct - -fun replace_idents idents t = - let - fun subst ((n1, s)::ss) (t as Free (n2, _)) = if n1 = n2 then s else subst ss t - | subst _ t = t - in Term.map_aterms (subst idents) t end - -fun match_pconv cv (t,fixes) ctxt (tyenv, env_ts) ct = - let - val t' = replace_idents env_ts t - val thy = Proof_Context.theory_of ctxt - val u = Thm.term_of ct - - fun descend_hole fixes (Abs (_, _, t)) = - (case descend_hole fixes t of - NONE => NONE - | SOME (fix :: fixes', pos) => SOME (fixes', abs_pconv pos fix) - | SOME ([], _) => raise Match (* less fixes than abstractions on path to hole *)) - | descend_hole fixes (t as l $ r) = - let val (f, _) = strip_comb t - in - if is_hole f - then SOME (fixes, cv) - else - (case descend_hole fixes l of - SOME (fixes', pos) => SOME (fixes', fun_pconv pos) - | NONE => - (case descend_hole fixes r of - SOME (fixes', pos) => SOME (fixes', arg_pconv pos) - | NONE => NONE)) - end - | descend_hole fixes t = - if is_hole t then SOME (fixes, cv) else NONE - - val to_hole = descend_hole (rev fixes) #> the_default ([], cv) #> snd - in - case try (Pattern.match thy (apply2 Logic.mk_term (t',u))) (tyenv, Vartab.empty) of - NONE => raise TERM ("match_pconv: Does not match pattern", [t, t',u]) - | SOME (tyenv', _) => to_hole t ctxt (tyenv', env_ts) ct - end - -fun rewrs_pconv to thms ctxt (tyenv, env_ts) = - let - fun instantiate_normalize_env ctxt env thm = - let - val prop = Thm.prop_of thm - val norm_type = Envir.norm_type o Envir.type_env - val insts = Term.add_vars prop [] - |> map (fn x as (s, T) => - ((s, norm_type env T), Thm.cterm_of ctxt (Envir.norm_term env (Var x)))) - val tyinsts = Term.add_tvars prop [] - |> map (fn x => (x, Thm.ctyp_of ctxt (norm_type env (TVar x)))) - in Drule.instantiate_normalize (tyinsts, insts) thm end - - fun unify_with_rhs context to env thm = - let - val (_, rhs) = thm |> Thm.concl_of |> Logic.dest_equals - val env' = Pattern.unify context (Logic.mk_term to, Logic.mk_term rhs) env - handle Pattern.Unif => raise NO_TO_MATCH - in env' end - - fun inst_thm_to _ (NONE, _) thm = thm - | inst_thm_to (ctxt : Proof.context) (SOME to, env) thm = - instantiate_normalize_env ctxt (unify_with_rhs (Context.Proof ctxt) to env thm) thm - - fun inst_thm ctxt idents (to, tyenv) thm = - let - (* Replace any identifiers with their corresponding bound variables. *) - val maxidx = Term.maxidx_typs (map (snd o snd) (Vartab.dest tyenv)) 0 - val env = Envir.Envir {maxidx = maxidx, tenv = Vartab.empty, tyenv = tyenv} - val maxidx = Envir.maxidx_of env |> fold Term.maxidx_term (the_list to) - val thm' = Thm.incr_indexes (maxidx + 1) thm - in SOME (inst_thm_to ctxt (Option.map (replace_idents idents) to, env) thm') end - handle NO_TO_MATCH => NONE - - in CConv.rewrs_cconv (map_filter (inst_thm ctxt env_ts (to, tyenv)) thms) end - -fun rewrite_conv ctxt (pattern, to) thms ct = - let - fun apply_pat At = judgment_pconv - | apply_pat In = in_pconv - | apply_pat Asm = params_pconv o asms_pconv - | apply_pat Concl = params_pconv o concl_pconv - | apply_pat (For idents) = (fn cv => for_pconv cv (map (apfst SOME) idents)) - | apply_pat (Term x) = (fn cv => match_pconv cv (apsnd (map (apfst SOME)) x)) - - val cv = fold_rev apply_pat pattern - - fun distinct_prems th = - case Seq.pull (distinct_subgoals_tac th) of - NONE => th - | SOME (th', _) => th' - - val rewrite = rewrs_pconv to (maps (prep_meta_eq ctxt) thms) - in cv rewrite ctxt (Vartab.empty, []) ct |> distinct_prems end - -fun rewrite_export_tac ctxt (pat, pat_ctxt) thms = - let - val export = case pat_ctxt of - NONE => I - | SOME inner => singleton (Proof_Context.export inner ctxt) - in CCONVERSION (export o rewrite_conv ctxt pat thms) end - -val _ = - Theory.setup - let - fun mk_fix s = (Binding.name s, NONE, NoSyn) - - val raw_pattern : (string, binding * string option * mixfix) pattern list parser = - let - val sep = (Args.$$$ "at" >> K At) || (Args.$$$ "in" >> K In) - val atom = (Args.$$$ "asm" >> K Asm) || - (Args.$$$ "concl" >> K Concl) || - (Args.$$$ "for" |-- Args.parens (Scan.optional Parse.vars []) >> For) || - (Parse.term >> Term) - val sep_atom = sep -- atom >> (fn (s,a) => [s,a]) - - fun append_default [] = [Concl, In] - | append_default (ps as Term _ :: _) = Concl :: In :: ps - | append_default [For x, In] = [For x, Concl, In] - | append_default (For x :: (ps as In :: Term _:: _)) = For x :: Concl :: ps - | append_default ps = ps - - in Scan.repeats sep_atom >> (rev #> append_default) end - - fun context_lift (scan : 'a parser) f = fn (context : Context.generic, toks) => - let - val (r, toks') = scan toks - val (r', context') = Context.map_proof_result (fn ctxt => f ctxt r) context - in (r', (context', toks' : Token.T list)) end - - fun read_fixes fixes ctxt = - let fun read_typ (b, rawT, mx) = (b, Option.map (Syntax.read_typ ctxt) rawT, mx) - in Proof_Context.add_fixes (map read_typ fixes) ctxt end - - fun prep_pats ctxt (ps : (string, binding * string option * mixfix) pattern list) = - let - fun add_constrs ctxt n (Abs (x, T, t)) = - let - val (x', ctxt') = yield_singleton Proof_Context.add_fixes (mk_fix x) ctxt - in - (case add_constrs ctxt' (n+1) t of - NONE => NONE - | SOME ((ctxt'', n', xs), t') => - let - val U = Type_Infer.mk_param n [] - val u = Type.constraint (U --> dummyT) (Abs (x, T, t')) - in SOME ((ctxt'', n', (x', U) :: xs), u) end) - end - | add_constrs ctxt n (l $ r) = - (case add_constrs ctxt n l of - SOME (c, l') => SOME (c, l' $ r) - | NONE => - (case add_constrs ctxt n r of - SOME (c, r') => SOME (c, l $ r') - | NONE => NONE)) - | add_constrs ctxt n t = - if is_hole_const t then SOME ((ctxt, n, []), t) else NONE - - fun prep (Term s) (n, ctxt) = - let - val t = Syntax.parse_term ctxt s - val ((ctxt', n', bs), t') = - the_default ((ctxt, n, []), t) (add_constrs ctxt (n+1) t) - in (Term (t', bs), (n', ctxt')) end - | prep (For ss) (n, ctxt) = - let val (ns, ctxt') = read_fixes ss ctxt - in (For ns, (n, ctxt')) end - | prep At (n,ctxt) = (At, (n, ctxt)) - | prep In (n,ctxt) = (In, (n, ctxt)) - | prep Concl (n,ctxt) = (Concl, (n, ctxt)) - | prep Asm (n,ctxt) = (Asm, (n, ctxt)) - - val (xs, (_, ctxt')) = fold_map prep ps (0, ctxt) - - in (xs, ctxt') end - - fun prep_args ctxt (((raw_pats, raw_to), raw_ths)) = - let - - fun check_terms ctxt ps to = - let - fun safe_chop (0: int) xs = ([], xs) - | safe_chop n (x :: xs) = chop (n - 1) xs |>> cons x - | safe_chop _ _ = raise Match - - fun reinsert_pat _ (Term (_, cs)) (t :: ts) = - let val (cs', ts') = safe_chop (length cs) ts - in (Term (t, map dest_Free cs'), ts') end - | reinsert_pat _ (Term _) [] = raise Match - | reinsert_pat ctxt (For ss) ts = - let val fixes = map (fn s => (s, Variable.default_type ctxt s)) ss - in (For fixes, ts) end - | reinsert_pat _ At ts = (At, ts) - | reinsert_pat _ In ts = (In, ts) - | reinsert_pat _ Concl ts = (Concl, ts) - | reinsert_pat _ Asm ts = (Asm, ts) - - fun free_constr (s,T) = Type.constraint T (Free (s, dummyT)) - fun mk_free_constrs (Term (t, cs)) = t :: map free_constr cs - | mk_free_constrs _ = [] - - val ts = maps mk_free_constrs ps @ the_list to - |> Syntax.check_terms (hole_syntax ctxt) - val ctxt' = fold Variable.declare_term ts ctxt - val (ps', (to', ts')) = fold_map (reinsert_pat ctxt') ps ts - ||> (fn xs => case to of NONE => (NONE, xs) | SOME _ => (SOME (hd xs), tl xs)) - val _ = case ts' of (_ :: _) => raise Match | [] => () - in ((ps', to'), ctxt') end - - val (pats, ctxt') = prep_pats ctxt raw_pats - - val ths = Attrib.eval_thms ctxt' raw_ths - val to = Option.map (Syntax.parse_term ctxt') raw_to - - val ((pats', to'), ctxt'') = check_terms ctxt' pats to - - in ((pats', ths, (to', ctxt)), ctxt'') end - - val to_parser = Scan.option ((Args.$$$ "to") |-- Parse.term) - - val subst_parser = - let val scan = raw_pattern -- to_parser -- Parse.thms1 - in context_lift scan prep_args end - in - Method.setup \<^binding>\<open>rewr\<close> (subst_parser >> - (fn (pattern, inthms, (to, pat_ctxt)) => fn orig_ctxt => - SIMPLE_METHOD' - (rewrite_export_tac orig_ctxt ((pattern, to), SOME pat_ctxt) inthms))) - "single-step rewriting, allowing subterm selection via patterns" - #> - (Method.setup \<^binding>\<open>rewrite\<close> (subst_parser >> - (fn (pattern, inthms, (to, pat_ctxt)) => fn orig_ctxt => - SIMPLE_METHOD' (SIDE_CONDS - (rewrite_export_tac orig_ctxt ((pattern, to), SOME pat_ctxt) inthms) - orig_ctxt))) - "single-step rewriting with auto-typechecking") - end -end diff --git a/spartan/core/ml/types.ML b/spartan/core/ml/types.ML deleted file mode 100644 index b0792fe..0000000 --- a/spartan/core/ml/types.ML +++ /dev/null @@ -1,18 +0,0 @@ -structure Types -= struct - -structure Data = Generic_Data ( - type T = thm Item_Net.T - val empty = Item_Net.init Thm.eq_thm - (single o Lib.term_of_typing o Thm.prop_of) - val extend = I - val merge = Item_Net.merge -) - -fun put_type typing = Context.proof_map (Data.map (Item_Net.update typing)) -fun put_types typings = foldr1 (op o) (map put_type typings) - -fun get_types ctxt tm = Item_Net.retrieve (Data.get (Context.Proof ctxt)) tm - - -end diff --git a/spartan/core/lib/rewrite.ML b/spartan/core/rewrite.ML index f9c5d8e..f9c5d8e 100644 --- a/spartan/core/lib/rewrite.ML +++ b/spartan/core/rewrite.ML diff --git a/spartan/core/ml/tactics.ML b/spartan/core/tactics.ML index 0c71665..0c71665 100644 --- a/spartan/core/ml/tactics.ML +++ b/spartan/core/tactics.ML diff --git a/spartan/core/types.ML b/spartan/core/types.ML new file mode 100644 index 0000000..1eaf60b --- /dev/null +++ b/spartan/core/types.ML @@ -0,0 +1,29 @@ +(* Title: types.ML + Author: Joshua Chen + +Type information storage. +*) + +structure Types: sig + +val Data: Proof.context -> thm Item_Net.T +val types: Proof.context -> term -> thm list +val put_type: thm -> Proof.context -> Proof.context +val put_types: thm list -> Proof.context -> Proof.context + +end = struct + +structure Data = Generic_Data ( + type T = thm Item_Net.T + val empty = Item_Net.init Thm.eq_thm + (single o Lib.term_of_typing o Thm.prop_of) + val extend = I + val merge = Item_Net.merge +) + +val Data = Data.get o Context.Proof +fun types ctxt tm = Item_Net.retrieve (Data ctxt) tm +fun put_type typing = Context.proof_map (Data.map (Item_Net.update typing)) +fun put_types typings = foldr1 (op o) (map put_type typings) + +end |