try
let ty' = unfold context ty in
if is_an_equality ty' then Some(t,ty') else None
try
let ty' = unfold context ty in
if is_an_equality ty' then Some(t,ty') else None
| (m, s, _, _, [],_)::orlist ->
(* complete success *)
Proved (m, s, orlist, tables, cache, maxm)
| (m, s, _, _, [],_)::orlist ->
(* complete success *)
Proved (m, s, orlist, tables, cache, maxm)
- | (m, s, size, don, (D (_,_,T))::todo, fl)::orlist ->
+ | (m, s, size, don, (D (_,_,T))::todo, fl)::orlist
+ when not flags.AutoTypes.do_types ->
(* skip since not Prop, don't even check if closed by side-effect *)
aux tables maxm flags cache ((m, s, size, don, todo, fl)::orlist)
| (m, s, size, don, (S(g, key, c,minsize) as op)::todo, fl)::orlist ->
(* skip since not Prop, don't even check if closed by side-effect *)
aux tables maxm flags cache ((m, s, size, don, todo, fl)::orlist)
| (m, s, size, don, (S(g, key, c,minsize) as op)::todo, fl)::orlist ->
(* timeout *)
debug_print (lazy ("FAIL: TIMEOUT"));
Gaveup (tables, cache, maxm)
(* timeout *)
debug_print (lazy ("FAIL: TIMEOUT"));
Gaveup (tables, cache, maxm)
- | (m, s, size, don, (D (gno,depth,P as g))::todo, fl)::orlist as status ->
+ | (m, s, size, don, (D (gno,depth,_ as g))::todo, fl)::orlist as status ->
let width = int "width" ((AutoTypes.default_flags()).AutoTypes.maxwidth) in
let size = int "size" ((AutoTypes.default_flags()).AutoTypes.maxsize) in
let gsize = int "gsize" ((AutoTypes.default_flags()).AutoTypes.maxgoalsizefactor) in
let width = int "width" ((AutoTypes.default_flags()).AutoTypes.maxwidth) in
let size = int "size" ((AutoTypes.default_flags()).AutoTypes.maxsize) in
let gsize = int "gsize" ((AutoTypes.default_flags()).AutoTypes.maxgoalsizefactor) in
AutoTypes.close_more = close_more;
AutoTypes.dont_cache_failures = false;
AutoTypes.maxgoalsizefactor = gsize;
AutoTypes.close_more = close_more;
AutoTypes.dont_cache_failures = false;
AutoTypes.maxgoalsizefactor = gsize;