workaround to avoid subtle "add_ffpairs" unification exception in Sledgehammer;
to reproduce the old bug, replace the command
by(rule new_Addr_SomeD)
on line 27 of Jinja/J/TypeSafe.thy with
by (metis new_Addr_SomeD)
signature XML_CONV =
sig
type 'a input = XML.tree -> 'a
type 'a output = 'a -> XML.tree
exception ParseException of string
val xml_of_typ: typ output
val typ_of_xml: typ input
val xml_of_term: term output
val term_of_xml : term input
val xml_of_mixfix: mixfix output
val mixfix_of_xml: mixfix input
val xml_of_proof: Proofterm.proof output
val xml_of_bool: bool output
val bool_of_xml: bool input
val xml_of_int: int output
val int_of_xml: int input
val xml_of_string: string output
val string_of_xml: string input
val xml_of_list: 'a output -> 'a list output
val list_of_xml: 'a input -> 'a list input
val xml_of_tuple : 'a output -> 'a list output
val tuple_of_xml: 'a input -> int -> 'a list input
val xml_of_option: 'a output -> 'a option output
val option_of_xml: 'a input -> 'a option input
val xml_of_pair: 'a output -> 'b output -> ('a * 'b) output
val pair_of_xml: 'a input -> 'b input -> ('a * 'b) input
val xml_of_triple: 'a output -> 'b output -> 'c output -> ('a * 'b * 'c) output
val triple_of_xml: 'a input -> 'b input -> 'c input -> ('a * 'b * 'c) input
val xml_of_unit: unit output
val unit_of_xml: unit input
val xml_of_quadruple: 'a output -> 'b output -> 'c output -> 'd output -> ('a * 'b * 'c * 'd) output
val quadruple_of_xml: 'a input -> 'b input -> 'c input -> 'd input -> ('a * 'b * 'c * 'd) input
val xml_of_quintuple: 'a output -> 'b output -> 'c output -> 'd output -> 'e output -> ('a * 'b * 'c * 'd * 'e) output
val quintuple_of_xml: 'a input -> 'b input -> 'c input -> 'd input -> 'e input -> ('a * 'b * 'c * 'd * 'e) input
val wrap : string -> 'a output -> 'a output
val unwrap : ('a -> 'b) -> 'a input -> 'b input
val wrap_empty : string output
val unwrap_empty : 'a -> 'a input
val name_of_wrap : XML.tree -> string
val write_to_file: 'a output -> string -> 'a -> unit
val read_from_file: 'a input -> string -> 'a
val serialize_to_file : 'a output -> string -> 'a -> unit
val deserialize_from_file : 'a input -> string -> 'a
end;
structure XMLConv : XML_CONV =
struct
type 'a input = XML.tree -> 'a
type 'a output = 'a -> XML.tree
exception ParseException of string
fun parse_err s = raise ParseException s
fun xml_of_class name = XML.Elem ("class", [("name", name)], []);
fun class_of_xml (XML.Elem ("class", [("name", name)], [])) = name
| class_of_xml _ = parse_err "class"
fun xml_of_typ (TVar ((s, i), S)) = XML.Elem ("TVar",
("name", s) :: (if i=0 then [] else [("index", string_of_int i)]),
map xml_of_class S)
| xml_of_typ (TFree (s, S)) =
XML.Elem ("TFree", [("name", s)], map xml_of_class S)
| xml_of_typ (Type (s, Ts)) =
XML.Elem ("Type", [("name", s)], map xml_of_typ Ts);
fun intofstr s i =
case Int.fromString i of
NONE => parse_err (s^", invalid index: "^i)
| SOME i => i
fun typ_of_xml (XML.Elem ("TVar", [("name", s)], cs)) = TVar ((s,0), map class_of_xml cs)
| typ_of_xml (XML.Elem ("TVar", [("name", s), ("index", i)], cs)) =
TVar ((s, intofstr "TVar" i), map class_of_xml cs)
| typ_of_xml (XML.Elem ("TFree", [("name", s)], cs)) = TFree (s, map class_of_xml cs)
| typ_of_xml (XML.Elem ("Type", [("name", s)], ts)) = Type (s, map typ_of_xml ts)
| typ_of_xml _ = parse_err "type"
fun xml_of_term (Bound i) =
XML.Elem ("Bound", [("index", string_of_int i)], [])
| xml_of_term (Free (s, T)) =
XML.Elem ("Free", [("name", s)], [xml_of_typ T])
| xml_of_term (Var ((s, i), T)) = XML.Elem ("Var",
("name", s) :: (if i=0 then [] else [("index", string_of_int i)]),
[xml_of_typ T])
| xml_of_term (Const (s, T)) =
XML.Elem ("Const", [("name", s)], [xml_of_typ T])
| xml_of_term (t $ u) =
XML.Elem ("App", [], [xml_of_term t, xml_of_term u])
| xml_of_term (Abs (s, T, t)) =
XML.Elem ("Abs", [("vname", s)], [xml_of_typ T, xml_of_term t]);
fun term_of_xml (XML.Elem ("Bound", [("index", i)], [])) = Bound (intofstr "Bound" i)
| term_of_xml (XML.Elem ("Free", [("name", s)], [T])) = Free (s, typ_of_xml T)
| term_of_xml (XML.Elem ("Var",[("name", s)], [T])) = Var ((s,0), typ_of_xml T)
| term_of_xml (XML.Elem ("Var",[("name", s), ("index", i)], [T])) = Var ((s,intofstr "Var" i), typ_of_xml T)
| term_of_xml (XML.Elem ("Const", [("name", s)], [T])) = Const (s, typ_of_xml T)
| term_of_xml (XML.Elem ("App", [], [t, u])) = (term_of_xml t) $ (term_of_xml u)
| term_of_xml (XML.Elem ("Abs", [("vname", s)], [T, t])) = Abs (s, typ_of_xml T, term_of_xml t)
| term_of_xml _ = parse_err "term"
fun xml_of_opttypes NONE = []
| xml_of_opttypes (SOME Ts) = [XML.Elem ("types", [], map xml_of_typ Ts)];
(* FIXME: the t argument of PThm and PAxm is actually redundant, since *)
(* it can be looked up in the theorem database. Thus, it could be *)
(* omitted from the xml representation. *)
fun xml_of_proof (PBound i) =
XML.Elem ("PBound", [("index", string_of_int i)], [])
| xml_of_proof (Abst (s, optT, prf)) =
XML.Elem ("Abst", [("vname", s)],
(case optT of NONE => [] | SOME T => [xml_of_typ T]) @
[xml_of_proof prf])
| xml_of_proof (AbsP (s, optt, prf)) =
XML.Elem ("AbsP", [("vname", s)],
(case optt of NONE => [] | SOME t => [xml_of_term t]) @
[xml_of_proof prf])
| xml_of_proof (prf % optt) =
XML.Elem ("Appt", [],
xml_of_proof prf ::
(case optt of NONE => [] | SOME t => [xml_of_term t]))
| xml_of_proof (prf %% prf') =
XML.Elem ("AppP", [], [xml_of_proof prf, xml_of_proof prf'])
| xml_of_proof (Hyp t) = XML.Elem ("Hyp", [], [xml_of_term t])
| xml_of_proof (PThm (_, ((s, t, optTs), _))) =
XML.Elem ("PThm", [("name", s)], xml_of_term t :: xml_of_opttypes optTs)
| xml_of_proof (PAxm (s, t, optTs)) =
XML.Elem ("PAxm", [("name", s)], xml_of_term t :: xml_of_opttypes optTs)
| xml_of_proof (Oracle (s, t, optTs)) =
XML.Elem ("Oracle", [("name", s)], xml_of_term t :: xml_of_opttypes optTs)
| xml_of_proof MinProof = XML.Elem ("MinProof", [], []);
fun xml_of_bool b = XML.Elem ("bool", [("value", if b then "true" else "false")], [])
fun xml_of_int i = XML.Elem ("int", [("value", string_of_int i)], [])
fun xml_of_string s = XML.Elem ("string", [("value", s)], [])
fun xml_of_unit () = XML.Elem ("unit", [], [])
fun xml_of_list output ls = XML.Elem ("list", [], map output ls)
fun xml_of_tuple output ls = XML.Elem ("tuple", [], map output ls)
fun xml_of_option output opt = XML.Elem ("option", [], case opt of NONE => [] | SOME x => [output x])
fun wrap s output x = XML.Elem (s, [], [output x])
fun wrap_empty s = XML.Elem (s, [], [])
fun xml_of_pair output1 output2 (x1, x2) = XML.Elem ("pair", [], [output1 x1, output2 x2])
fun xml_of_triple output1 output2 output3 (x1, x2, x3) = XML.Elem ("triple", [], [output1 x1, output2 x2, output3 x3])
fun xml_of_quadruple output1 output2 output3 output4 (x1, x2, x3, x4) =
XML.Elem ("quadruple", [], [output1 x1, output2 x2, output3 x3, output4 x4])
fun xml_of_quintuple output1 output2 output3 output4 output5 (x1, x2, x3, x4, x5) =
XML.Elem ("quintuple", [], [output1 x1, output2 x2, output3 x3, output4 x4, output5 x5])
fun bool_of_xml (XML.Elem ("bool", [("value", "true")], [])) = true
| bool_of_xml (XML.Elem ("bool", [("value", "false")], [])) = false
| bool_of_xml _ = parse_err "bool"
fun int_of_xml (XML.Elem ("int", [("value", i)], [])) = intofstr "int" i
| int_of_xml _ = parse_err "int"
fun unit_of_xml (XML.Elem ("unit", [], [])) = ()
| unit_of_xml _ = parse_err "unit"
fun list_of_xml input (XML.Elem ("list", [], ls)) = map input ls
| list_of_xml _ _ = parse_err "list"
fun tuple_of_xml input i (XML.Elem ("tuple", [], ls)) =
if i = length ls then map input ls else parse_err "tuple"
| tuple_of_xml _ _ _ = parse_err "tuple"
fun option_of_xml input (XML.Elem ("option", [], [])) = NONE
| option_of_xml input (XML.Elem ("option", [], [opt])) = SOME (input opt)
| option_of_xml _ _ = parse_err "option"
fun pair_of_xml input1 input2 (XML.Elem ("pair", [], [x1, x2])) = (input1 x1, input2 x2)
| pair_of_xml _ _ _ = parse_err "pair"
fun triple_of_xml input1 input2 input3 (XML.Elem ("triple", [], [x1, x2, x3])) = (input1 x1, input2 x2, input3 x3)
| triple_of_xml _ _ _ _ = parse_err "triple"
fun quadruple_of_xml input1 input2 input3 input4 (XML.Elem ("quadruple", [], [x1, x2, x3, x4])) =
(input1 x1, input2 x2, input3 x3, input4 x4)
| quadruple_of_xml _ _ _ _ _ = parse_err "quadruple"
fun quintuple_of_xml input1 input2 input3 input4 input5 (XML.Elem ("quintuple", [], [x1, x2, x3, x4, x5])) =
(input1 x1, input2 x2, input3 x3, input4 x4, input5 x5)
| quintuple_of_xml _ _ _ _ _ _ = parse_err "quintuple"
fun unwrap f input (XML.Elem (_, [], [x])) = f (input x)
| unwrap _ _ _ = parse_err "unwrap"
fun unwrap_empty x (XML.Elem (_, [], [])) = x
| unwrap_empty _ _ = parse_err "unwrap_unit"
fun name_of_wrap (XML.Elem (name, _, _)) = name
| name_of_wrap _ = parse_err "name_of_wrap"
fun string_of_xml (XML.Elem ("string", [("value", s)], [])) = s
| string_of_xml _ = parse_err "string"
fun xml_of_mixfix NoSyn = wrap_empty "nosyn"
| xml_of_mixfix Structure = wrap_empty "structure"
| xml_of_mixfix (Mixfix args) = wrap "mixfix" (xml_of_triple xml_of_string (xml_of_list xml_of_int) xml_of_int) args
| xml_of_mixfix (Delimfix s) = wrap "delimfix" xml_of_string s
| xml_of_mixfix (Infix args) = wrap "infix" (xml_of_pair xml_of_string xml_of_int) args
| xml_of_mixfix (Infixl args) = wrap "infixl" (xml_of_pair xml_of_string xml_of_int) args
| xml_of_mixfix (Infixr args) = wrap "infixr" (xml_of_pair xml_of_string xml_of_int) args
| xml_of_mixfix (Binder args) = wrap "binder" (xml_of_triple xml_of_string xml_of_int xml_of_int) args
fun mixfix_of_xml e =
(case name_of_wrap e of
"nosyn" => unwrap_empty NoSyn
| "structure" => unwrap_empty Structure
| "mixfix" => unwrap Mixfix (triple_of_xml string_of_xml (list_of_xml int_of_xml) int_of_xml)
| "delimfix" => unwrap Delimfix string_of_xml
| "infix" => unwrap Infix (pair_of_xml string_of_xml int_of_xml)
| "infixl" => unwrap Infixl (pair_of_xml string_of_xml int_of_xml)
| "infixr" => unwrap Infixr (pair_of_xml string_of_xml int_of_xml)
| "binder" => unwrap Binder (triple_of_xml string_of_xml int_of_xml int_of_xml)
| _ => parse_err "mixfix"
) e
fun to_file f output fname x = File.write (Path.explode fname) (f (output x))
fun from_file f input fname =
let
val _ = writeln "read_from_file enter"
val s = File.read (Path.explode fname)
val _ = writeln "done: read file"
val tree = timeit (fn () => f s)
val _ = writeln "done: tree"
val x = timeit (fn () => input tree)
val _ = writeln "done: input"
in
x
end
fun write_to_file x = to_file XML.string_of_tree x
fun read_from_file x = timeit (fn () => (writeln "read_from_file"; from_file XML.tree_of_string x))
fun serialize_to_file x = to_file XML.encoded_string_of_tree x
fun deserialize_from_file x = timeit (fn () => (writeln "deserialize_from_file"; from_file XML.tree_of_encoded_string x))
end;
structure XMLConvOutput =
struct
open XMLConv
val typ = xml_of_typ
val term = xml_of_term
val mixfix = xml_of_mixfix
val proof = xml_of_proof
val bool = xml_of_bool
val int = xml_of_int
val string = xml_of_string
val unit = xml_of_unit
val list = xml_of_list
val pair = xml_of_pair
val option = xml_of_option
val triple = xml_of_triple
val quadruple = xml_of_quadruple
val quintuple = xml_of_quintuple
end
structure XMLConvInput =
struct
open XMLConv
val typ = typ_of_xml
val term = term_of_xml
val mixfix = mixfix_of_xml
val bool = bool_of_xml
val int = int_of_xml
val string = string_of_xml
val unit = unit_of_xml
val list = list_of_xml
val pair = pair_of_xml
val option = option_of_xml
val triple = triple_of_xml
val quadruple = quadruple_of_xml
val quintuple = quintuple_of_xml
end