diff options
Diffstat (limited to 'lib/stdlib/src/sofs.erl')
-rw-r--r-- | lib/stdlib/src/sofs.erl | 360 |
1 files changed, 164 insertions, 196 deletions
diff --git a/lib/stdlib/src/sofs.erl b/lib/stdlib/src/sofs.erl index bcd1fc11e2..cc50e1b52c 100644 --- a/lib/stdlib/src/sofs.erl +++ b/lib/stdlib/src/sofs.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2001-2014. All Rights Reserved. +%% Copyright Ericsson AB 2001-2017. All Rights Reserved. %% %% Licensed under the Apache License, Version 2.0 (the "License"); %% you may not use this file except in compliance with the License. @@ -76,7 +76,7 @@ %% %% See also "Naive Set Theory" by Paul R. Halmos. %% -%% By convention, erlang:error/2 is called from exported functions. +%% By convention, erlang:error/1 is called from exported functions. -define(TAG, 'Set'). -define(ORDTAG, 'OrdSet'). @@ -87,12 +87,6 @@ -define(LIST(S), (S)#?TAG.data). -define(TYPE(S), (S)#?TAG.type). -%%-define(SET(L, T), -%% case is_type(T) of -%% true -> #?TAG{data = L, type = T}; -%% false -> erlang:error(badtype, [T]) -%% end -%% ). -define(SET(L, T), #?TAG{data = L, type = T}). -define(IS_SET(S), is_record(S, ?TAG)). -define(IS_UNTYPED_SET(S), ?TYPE(S) =:= ?ANYTYPE). @@ -154,11 +148,8 @@ from_term(T) -> _ when is_list(T) -> [?ANYTYPE]; _ -> ?ANYTYPE end, - case catch setify(T, Type) of - {'EXIT', _} -> - erlang:error(badarg, [T]); - Set -> - Set + try setify(T, Type) + catch _:_ -> erlang:error(badarg) end. -spec(from_term(Term, Type) -> AnySet when @@ -168,14 +159,11 @@ from_term(T) -> from_term(L, T) -> case is_type(T) of true -> - case catch setify(L, T) of - {'EXIT', _} -> - erlang:error(badarg, [L, T]); - Set -> - Set + try setify(L, T) + catch _:_ -> erlang:error(badarg) end; false -> - erlang:error(badarg, [L, T]) + erlang:error(badarg) end. -spec(from_external(ExternalSet, Type) -> AnySet when @@ -208,33 +196,26 @@ is_type(_T) -> Set :: a_set(), Terms :: [term()]). set(L) -> - case catch usort(L) of - {'EXIT', _} -> - erlang:error(badarg, [L]); - SL -> - ?SET(SL, ?ATOM_TYPE) + try usort(L) of + SL -> ?SET(SL, ?ATOM_TYPE) + catch _:_ -> erlang:error(badarg) end. -spec(set(Terms, Type) -> Set when Set :: a_set(), Terms :: [term()], Type :: type()). -set(L, ?SET_OF(Type) = T) when ?IS_ATOM_TYPE(Type), Type =/= ?ANYTYPE -> - case catch usort(L) of - {'EXIT', _} -> - erlang:error(badarg, [L, T]); - SL -> - ?SET(SL, Type) +set(L, ?SET_OF(Type)) when ?IS_ATOM_TYPE(Type), Type =/= ?ANYTYPE -> + try usort(L) of + SL -> ?SET(SL, Type) + catch _:_ -> erlang:error(badarg) end; set(L, ?SET_OF(_) = T) -> - case catch setify(L, T) of - {'EXIT', _} -> - erlang:error(badarg, [L, T]); - Set -> - Set + try setify(L, T) + catch _:_ -> erlang:error(badarg) end; -set(L, T) -> - erlang:error(badarg, [L, T]). +set(_, _) -> + erlang:error(badarg). -spec(from_sets(ListOfSets) -> Set when Set :: a_set(), @@ -245,19 +226,19 @@ set(L, T) -> from_sets(Ss) when is_list(Ss) -> case set_of_sets(Ss, [], ?ANYTYPE) of {error, Error} -> - erlang:error(Error, [Ss]); + erlang:error(Error); Set -> Set end; from_sets(Tuple) when is_tuple(Tuple) -> case ordset_of_sets(tuple_to_list(Tuple), [], []) of error -> - erlang:error(badarg, [Tuple]); + erlang:error(badarg); Set -> Set end; -from_sets(T) -> - erlang:error(badarg, [T]). +from_sets(_) -> + erlang:error(badarg). -spec(relation(Tuples) -> Relation when Relation :: relation(), @@ -265,14 +246,11 @@ from_sets(T) -> relation([]) -> ?SET([], ?BINREL(?ATOM_TYPE, ?ATOM_TYPE)); relation(Ts = [T | _]) when is_tuple(T) -> - case catch rel(Ts, tuple_size(T)) of - {'EXIT', _} -> - erlang:error(badarg, [Ts]); - Set -> - Set + try rel(Ts, tuple_size(T)) + catch _:_ -> erlang:error(badarg) end; -relation(E) -> - erlang:error(badarg, [E]). +relation(_) -> + erlang:error(badarg). -spec(relation(Tuples, Type) -> Relation when N :: integer(), @@ -280,24 +258,20 @@ relation(E) -> Relation :: relation(), Tuples :: [tuple()]). relation(Ts, TS) -> - case catch rel(Ts, TS) of - {'EXIT', _} -> - erlang:error(badarg, [Ts, TS]); - Set -> - Set + try rel(Ts, TS) + catch _:_ -> erlang:error(badarg) end. -spec(a_function(Tuples) -> Function when Function :: a_function(), Tuples :: [tuple()]). a_function(Ts) -> - case catch func(Ts, ?BINREL(?ATOM_TYPE, ?ATOM_TYPE)) of - {'EXIT', _} -> - erlang:error(badarg, [Ts]); + try func(Ts, ?BINREL(?ATOM_TYPE, ?ATOM_TYPE)) of Bad when is_atom(Bad) -> - erlang:error(Bad, [Ts]); - Set -> - Set + erlang:error(Bad); + Set -> + Set + catch _:_ -> erlang:error(badarg) end. -spec(a_function(Tuples, Type) -> Function when @@ -305,26 +279,24 @@ a_function(Ts) -> Tuples :: [tuple()], Type :: type()). a_function(Ts, T) -> - case catch a_func(Ts, T) of - {'EXIT', _} -> - erlang:error(badarg, [Ts, T]); + try a_func(Ts, T) of Bad when is_atom(Bad) -> - erlang:error(Bad, [Ts, T]); + erlang:error(Bad); Set -> Set + catch _:_ -> erlang:error(badarg) end. -spec(family(Tuples) -> Family when Family :: family(), Tuples :: [tuple()]). family(Ts) -> - case catch fam2(Ts, ?FAMILY(?ATOM_TYPE, ?ATOM_TYPE)) of - {'EXIT', _} -> - erlang:error(badarg, [Ts]); + try fam2(Ts, ?FAMILY(?ATOM_TYPE, ?ATOM_TYPE)) of Bad when is_atom(Bad) -> - erlang:error(Bad, [Ts]); + erlang:error(Bad); Set -> Set + catch _:_ -> erlang:error(badarg) end. -spec(family(Tuples, Type) -> Family when @@ -332,13 +304,12 @@ family(Ts) -> Tuples :: [tuple()], Type :: type()). family(Ts, T) -> - case catch fam(Ts, T) of - {'EXIT', _} -> - erlang:error(badarg, [Ts, T]); + try fam(Ts, T) of Bad when is_atom(Bad) -> - erlang:error(Bad, [Ts, T]); + erlang:error(Bad); Set -> Set + catch _:_ -> erlang:error(badarg) end. %%% @@ -373,7 +344,7 @@ to_sets(S) when ?IS_SET(S) -> to_sets(S) when ?IS_ORDSET(S), is_tuple(?ORDTYPE(S)) -> tuple_of_sets(tuple_to_list(?ORDDATA(S)), tuple_to_list(?ORDTYPE(S)), []); to_sets(S) when ?IS_ORDSET(S) -> - erlang:error(badarg, [S]). + erlang:error(badarg). -spec(no_elements(ASet) -> NoElements when ASet :: a_set() | ordset(), @@ -383,7 +354,7 @@ no_elements(S) when ?IS_SET(S) -> no_elements(S) when ?IS_ORDSET(S), is_tuple(?ORDTYPE(S)) -> tuple_size(?ORDDATA(S)); no_elements(S) when ?IS_ORDSET(S) -> - erlang:error(badarg, [S]). + erlang:error(badarg). -spec(specification(Fun, Set1) -> Set2 when Fun :: spec_fun(), @@ -401,7 +372,7 @@ specification(Fun, S) when ?IS_SET(S) -> SL when is_list(SL) -> ?SET(SL, Type); Bad -> - erlang:error(Bad, [Fun, S]) + erlang:error(Bad) end. -spec(union(Set1, Set2) -> Set3 when @@ -410,7 +381,7 @@ specification(Fun, S) when ?IS_SET(S) -> Set3 :: a_set()). union(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> case unify_types(?TYPE(S1), ?TYPE(S2)) of - [] -> erlang:error(type_mismatch, [S1, S2]); + [] -> erlang:error(type_mismatch); Type -> ?SET(umerge(?LIST(S1), ?LIST(S2)), Type) end. @@ -420,7 +391,7 @@ union(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> Set3 :: a_set()). intersection(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> case unify_types(?TYPE(S1), ?TYPE(S2)) of - [] -> erlang:error(type_mismatch, [S1, S2]); + [] -> erlang:error(type_mismatch); Type -> ?SET(intersection(?LIST(S1), ?LIST(S2), []), Type) end. @@ -430,7 +401,7 @@ intersection(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> Set3 :: a_set()). difference(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> case unify_types(?TYPE(S1), ?TYPE(S2)) of - [] -> erlang:error(type_mismatch, [S1, S2]); + [] -> erlang:error(type_mismatch); Type -> ?SET(difference(?LIST(S1), ?LIST(S2), []), Type) end. @@ -440,7 +411,7 @@ difference(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> Set3 :: a_set()). symdiff(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> case unify_types(?TYPE(S1), ?TYPE(S2)) of - [] -> erlang:error(type_mismatch, [S1, S2]); + [] -> erlang:error(type_mismatch); Type -> ?SET(symdiff(?LIST(S1), ?LIST(S2), []), Type) end. @@ -452,7 +423,7 @@ symdiff(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> Set5 :: a_set()). symmetric_partition(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> case unify_types(?TYPE(S1), ?TYPE(S2)) of - [] -> erlang:error(type_mismatch, [S1, S2]); + [] -> erlang:error(type_mismatch); Type -> sympart(?LIST(S1), ?LIST(S2), [], [], [], Type) end. @@ -477,11 +448,9 @@ product({S1, S2}) -> product(S1, S2); product(T) when is_tuple(T) -> Ss = tuple_to_list(T), - case catch sets_to_list(Ss) of - {'EXIT', _} -> - erlang:error(badarg, [T]); + try sets_to_list(Ss) of [] -> - erlang:error(badarg, [T]); + erlang:error(badarg); L -> Type = types(Ss, []), case member([], L) of @@ -490,6 +459,7 @@ product(T) when is_tuple(T) -> false -> ?SET(reverse(prod(L, [], [])), Type) end + catch _:_ -> erlang:error(badarg) end. -spec(constant_function(Set, AnySet) -> Function when @@ -502,10 +472,10 @@ constant_function(S, E) when ?IS_SET(S) -> {Type, true} -> NType = ?BINREL(Type, type(E)), ?SET(constant_function(?LIST(S), to_external(E), []), NType); - _ -> erlang:error(badarg, [S, E]) + _ -> erlang:error(badarg) end; -constant_function(S, E) when ?IS_ORDSET(S) -> - erlang:error(badarg, [S, E]). +constant_function(S, _) when ?IS_ORDSET(S) -> + erlang:error(badarg). -spec(is_equal(AnySet1, AnySet2) -> Bool when AnySet1 :: anyset(), @@ -514,17 +484,17 @@ constant_function(S, E) when ?IS_ORDSET(S) -> is_equal(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> case match_types(?TYPE(S1), ?TYPE(S2)) of true -> ?LIST(S1) == ?LIST(S2); - false -> erlang:error(type_mismatch, [S1, S2]) + false -> erlang:error(type_mismatch) end; is_equal(S1, S2) when ?IS_ORDSET(S1), ?IS_ORDSET(S2) -> case match_types(?ORDTYPE(S1), ?ORDTYPE(S2)) of true -> ?ORDDATA(S1) == ?ORDDATA(S2); - false -> erlang:error(type_mismatch, [S1, S2]) + false -> erlang:error(type_mismatch) end; is_equal(S1, S2) when ?IS_SET(S1), ?IS_ORDSET(S2) -> - erlang:error(type_mismatch, [S1, S2]); + erlang:error(type_mismatch); is_equal(S1, S2) when ?IS_ORDSET(S1), ?IS_SET(S2) -> - erlang:error(type_mismatch, [S1, S2]). + erlang:error(type_mismatch). -spec(is_subset(Set1, Set2) -> Bool when Bool :: boolean(), @@ -533,7 +503,7 @@ is_equal(S1, S2) when ?IS_ORDSET(S1), ?IS_SET(S2) -> is_subset(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> case match_types(?TYPE(S1), ?TYPE(S2)) of true -> subset(?LIST(S1), ?LIST(S2)); - false -> erlang:error(type_mismatch, [S1, S2]) + false -> erlang:error(type_mismatch) end. -spec(is_sofs_set(Term) -> Bool when @@ -573,7 +543,7 @@ is_disjoint(S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> [] -> true; [A | As] -> disjoint(?LIST(S2), A, As) end; - false -> erlang:error(type_mismatch, [S1, S2]) + false -> erlang:error(type_mismatch) end. %%% @@ -587,7 +557,7 @@ union(Sets) when ?IS_SET(Sets) -> case ?TYPE(Sets) of ?SET_OF(Type) -> ?SET(lunion(?LIST(Sets)), Type); ?ANYTYPE -> Sets; - _ -> erlang:error(badarg, [Sets]) + _ -> erlang:error(badarg) end. -spec(intersection(SetOfSets) -> Set when @@ -595,12 +565,12 @@ union(Sets) when ?IS_SET(Sets) -> SetOfSets :: set_of_sets()). intersection(Sets) when ?IS_SET(Sets) -> case ?LIST(Sets) of - [] -> erlang:error(badarg, [Sets]); + [] -> erlang:error(badarg); [L | Ls] -> case ?TYPE(Sets) of ?SET_OF(Type) -> ?SET(lintersection(Ls, L), Type); - _ -> erlang:error(badarg, [Sets]) + _ -> erlang:error(badarg) end end. @@ -614,13 +584,16 @@ canonical_relation(Sets) when ?IS_SET(Sets) -> ?SET_OF(Type) -> ?SET(can_rel(?LIST(Sets), []), ?BINREL(Type, ST)); ?ANYTYPE -> Sets; - _ -> erlang:error(badarg, [Sets]) + _ -> erlang:error(badarg) end. %%% %%% Functions on binary relations only. %%% +-spec(rel2fam(BinRel) -> Family when + Family :: family(), + BinRel :: binary_relation()). rel2fam(R) -> relation_to_family(R). @@ -633,7 +606,7 @@ relation_to_family(R) when ?IS_SET(R) -> ?BINREL(DT, RT) -> ?SET(rel2family(?LIST(R)), ?FAMILY(DT, RT)); ?ANYTYPE -> R; - _Else -> erlang:error(badarg, [R]) + _Else -> erlang:error(badarg) end. -spec(domain(BinRel) -> Set when @@ -643,7 +616,7 @@ domain(R) when ?IS_SET(R) -> case ?TYPE(R) of ?BINREL(DT, _) -> ?SET(dom(?LIST(R)), DT); ?ANYTYPE -> R; - _Else -> erlang:error(badarg, [R]) + _Else -> erlang:error(badarg) end. -spec(range(BinRel) -> Set when @@ -653,7 +626,7 @@ range(R) when ?IS_SET(R) -> case ?TYPE(R) of ?BINREL(_, RT) -> ?SET(ran(?LIST(R), []), RT); ?ANYTYPE -> R; - _ -> erlang:error(badarg, [R]) + _ -> erlang:error(badarg) end. -spec(field(BinRel) -> Set when @@ -676,7 +649,7 @@ relative_product(RT) when is_tuple(RT) -> relative_product(RL) when is_list(RL) -> case relprod_n(RL, foo, false, false) of {error, Reason} -> - erlang:error(Reason, [RL]); + erlang:error(Reason); Reply -> Reply end. @@ -700,11 +673,11 @@ relative_product(RL, R) when is_list(RL), ?IS_SET(R) -> EmptyR = case ?TYPE(R) of ?BINREL(_, _) -> ?LIST(R) =:= []; ?ANYTYPE -> true; - _ -> erlang:error(badarg, [RL, R]) + _ -> erlang:error(badarg) end, case relprod_n(RL, R, EmptyR, true) of {error, Reason} -> - erlang:error(Reason, [RL, R]); + erlang:error(Reason); Reply -> Reply end. @@ -717,18 +690,18 @@ relative_product1(R1, R2) when ?IS_SET(R1), ?IS_SET(R2) -> {DTR1, RTR1} = case ?TYPE(R1) of ?BINREL(_, _) = R1T -> R1T; ?ANYTYPE -> {?ANYTYPE, ?ANYTYPE}; - _ -> erlang:error(badarg, [R1, R2]) + _ -> erlang:error(badarg) end, {DTR2, RTR2} = case ?TYPE(R2) of ?BINREL(_, _) = R2T -> R2T; ?ANYTYPE -> {?ANYTYPE, ?ANYTYPE}; - _ -> erlang:error(badarg, [R1, R2]) + _ -> erlang:error(badarg) end, case match_types(DTR1, DTR2) of true when DTR1 =:= ?ANYTYPE -> R1; true when DTR2 =:= ?ANYTYPE -> R2; true -> ?SET(relprod(?LIST(R1), ?LIST(R2)), ?BINREL(RTR1, RTR2)); - false -> erlang:error(type_mismatch, [R1, R2]) + false -> erlang:error(type_mismatch) end. -spec(converse(BinRel1) -> BinRel2 when @@ -738,7 +711,7 @@ converse(R) when ?IS_SET(R) -> case ?TYPE(R) of ?BINREL(DT, RT) -> ?SET(converse(?LIST(R), []), ?BINREL(RT, DT)); ?ANYTYPE -> R; - _ -> erlang:error(badarg, [R]) + _ -> erlang:error(badarg) end. -spec(image(BinRel, Set1) -> Set2 when @@ -752,10 +725,10 @@ image(R, S) when ?IS_SET(R), ?IS_SET(S) -> true -> ?SET(usort(restrict(?LIST(S), ?LIST(R))), RT); false -> - erlang:error(type_mismatch, [R, S]) + erlang:error(type_mismatch) end; ?ANYTYPE -> R; - _ -> erlang:error(badarg, [R, S]) + _ -> erlang:error(badarg) end. -spec(inverse_image(BinRel, Set1) -> Set2 when @@ -770,10 +743,10 @@ inverse_image(R, S) when ?IS_SET(R), ?IS_SET(S) -> NL = restrict(?LIST(S), converse(?LIST(R), [])), ?SET(usort(NL), DT); false -> - erlang:error(type_mismatch, [R, S]) + erlang:error(type_mismatch) end; ?ANYTYPE -> R; - _ -> erlang:error(badarg, [R, S]) + _ -> erlang:error(badarg) end. -spec(strict_relation(BinRel1) -> BinRel2 when @@ -784,7 +757,7 @@ strict_relation(R) when ?IS_SET(R) -> Type = ?BINREL(_, _) -> ?SET(strict(?LIST(R), []), Type); ?ANYTYPE -> R; - _ -> erlang:error(badarg, [R]) + _ -> erlang:error(badarg) end. -spec(weak_relation(BinRel1) -> BinRel2 when @@ -795,12 +768,12 @@ weak_relation(R) when ?IS_SET(R) -> ?BINREL(DT, RT) -> case unify_types(DT, RT) of [] -> - erlang:error(badarg, [R]); + erlang:error(badarg); Type -> ?SET(weak(?LIST(R)), ?BINREL(Type, Type)) end; ?ANYTYPE -> R; - _ -> erlang:error(badarg, [R]) + _ -> erlang:error(badarg) end. -spec(extension(BinRel1, Set, AnySet) -> BinRel2 when @@ -813,7 +786,7 @@ extension(R, S, E) when ?IS_SET(R), ?IS_SET(S) -> {T=?BINREL(DT, RT), ST, true} -> case match_types(DT, ST) and match_types(RT, type(E)) of false -> - erlang:error(type_mismatch, [R, S, E]); + erlang:error(type_mismatch); true -> RL = ?LIST(R), case extc([], ?LIST(S), to_external(E), RL) of @@ -833,7 +806,7 @@ extension(R, S, E) when ?IS_SET(R), ?IS_SET(S) -> ?SET([], ?BINREL(ST, ET)) end; {_, _, true} -> - erlang:error(badarg, [R, S, E]) + erlang:error(badarg) end. -spec(is_a_function(BinRel) -> Bool when @@ -847,7 +820,7 @@ is_a_function(R) when ?IS_SET(R) -> [{V,_} | Es] -> is_a_func(Es, V) end; ?ANYTYPE -> true; - _ -> erlang:error(badarg, [R]) + _ -> erlang:error(badarg) end. -spec(restriction(BinRel1, Set) -> BinRel2 when @@ -876,12 +849,12 @@ composite(Fn1, Fn2) when ?IS_SET(Fn1), ?IS_SET(Fn2) -> ?BINREL(DTF1, RTF1) = case ?TYPE(Fn1)of ?BINREL(_, _) = F1T -> F1T; ?ANYTYPE -> {?ANYTYPE, ?ANYTYPE}; - _ -> erlang:error(badarg, [Fn1, Fn2]) + _ -> erlang:error(badarg) end, ?BINREL(DTF2, RTF2) = case ?TYPE(Fn2) of ?BINREL(_, _) = F2T -> F2T; ?ANYTYPE -> {?ANYTYPE, ?ANYTYPE}; - _ -> erlang:error(badarg, [Fn1, Fn2]) + _ -> erlang:error(badarg) end, case match_types(RTF1, DTF2) of true when DTF1 =:= ?ANYTYPE -> Fn1; @@ -891,9 +864,9 @@ composite(Fn1, Fn2) when ?IS_SET(Fn1), ?IS_SET(Fn2) -> SL when is_list(SL) -> ?SET(sort(SL), ?BINREL(DTF1, RTF2)); Bad -> - erlang:error(Bad, [Fn1, Fn2]) + erlang:error(Bad) end; - false -> erlang:error(type_mismatch, [Fn1, Fn2]) + false -> erlang:error(type_mismatch) end. -spec(inverse(Function1) -> Function2 when @@ -906,10 +879,10 @@ inverse(Fn) when ?IS_SET(Fn) -> SL when is_list(SL) -> ?SET(SL, ?BINREL(RT, DT)); Bad -> - erlang:error(Bad, [Fn]) + erlang:error(Bad) end; ?ANYTYPE -> Fn; - _ -> erlang:error(badarg, [Fn]) + _ -> erlang:error(badarg) end. %%% @@ -929,7 +902,7 @@ restriction(I, R, S) when is_integer(I), ?IS_SET(R), ?IS_SET(S) -> empty -> R; error -> - erlang:error(badarg, [I, R, S]); + erlang:error(badarg); Sort -> RL = ?LIST(R), case {match_types(?REL_TYPE(I, RT), ST), ?LIST(S)} of @@ -942,7 +915,7 @@ restriction(I, R, S) when is_integer(I), ?IS_SET(R), ?IS_SET(S) -> {true, [E | Es]} -> ?SET(sort(restrict_n(I, keysort(I, RL), E, Es, [])), RT); {false, _SL} -> - erlang:error(type_mismatch, [I, R, S]) + erlang:error(type_mismatch) end end; restriction(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> @@ -960,28 +933,27 @@ restriction(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> NL = sort(restrict(?LIST(S2), converse(NSL, []))), ?SET(NL, Type1); false -> - erlang:error(type_mismatch, [SetFun, S1, S2]) + erlang:error(type_mismatch) end; Bad -> - erlang:error(Bad, [SetFun, S1, S2]) + erlang:error(Bad) end; _ when Type1 =:= ?ANYTYPE -> S1; _XFun when ?IS_SET_OF(Type1) -> - erlang:error(badarg, [SetFun, S1, S2]); + erlang:error(badarg); XFun -> FunT = XFun(Type1), - case catch check_fun(Type1, XFun, FunT) of - {'EXIT', _} -> - erlang:error(badarg, [SetFun, S1, S2]); + try check_fun(Type1, XFun, FunT) of Sort -> case match_types(FunT, Type2) of true -> R1 = inverse_substitution(SL1, XFun, Sort), ?SET(sort(Sort, restrict(?LIST(S2), R1)), Type1); false -> - erlang:error(type_mismatch, [SetFun, S1, S2]) + erlang:error(type_mismatch) end + catch _:_ -> erlang:error(badarg) end end. @@ -997,7 +969,7 @@ drestriction(I, R, S) when is_integer(I), ?IS_SET(R), ?IS_SET(S) -> empty -> R; error -> - erlang:error(badarg, [I, R, S]); + erlang:error(badarg); Sort -> RL = ?LIST(R), case {match_types(?REL_TYPE(I, RT), ST), ?LIST(S)} of @@ -1010,7 +982,7 @@ drestriction(I, R, S) when is_integer(I), ?IS_SET(R), ?IS_SET(S) -> {true, [E | Es]} -> ?SET(diff_restrict_n(I, keysort(I, RL), E, Es, []), RT); {false, _SL} -> - erlang:error(type_mismatch, [I, R, S]) + erlang:error(type_mismatch) end end; drestriction(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> @@ -1029,20 +1001,18 @@ drestriction(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> NL = sort(diff_restrict(SL2, converse(NSL, []))), ?SET(NL, Type1); false -> - erlang:error(type_mismatch, [SetFun, S1, S2]) + erlang:error(type_mismatch) end; Bad -> - erlang:error(Bad, [SetFun, S1, S2]) + erlang:error(Bad) end; _ when Type1 =:= ?ANYTYPE -> S1; _XFun when ?IS_SET_OF(Type1) -> - erlang:error(badarg, [SetFun, S1, S2]); + erlang:error(badarg); XFun -> FunT = XFun(Type1), - case catch check_fun(Type1, XFun, FunT) of - {'EXIT', _} -> - erlang:error(badarg, [SetFun, S1, S2]); + try check_fun(Type1, XFun, FunT) of Sort -> case match_types(FunT, Type2) of true -> @@ -1050,8 +1020,9 @@ drestriction(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> SL2 = ?LIST(S2), ?SET(sort(Sort, diff_restrict(SL2, R1)), Type1); false -> - erlang:error(type_mismatch, [SetFun, S1, S2]) + erlang:error(type_mismatch) end + catch _:_ -> erlang:error(badarg) end end. @@ -1065,7 +1036,7 @@ projection(I, Set) when is_integer(I), ?IS_SET(Set) -> empty -> Set; error -> - erlang:error(badarg, [I, Set]); + erlang:error(badarg); _ when I =:= 1 -> ?SET(projection1(?LIST(Set)), ?REL_TYPE(I, Type)); _ -> @@ -1084,7 +1055,7 @@ substitution(I, Set) when is_integer(I), ?IS_SET(Set) -> empty -> Set; error -> - erlang:error(badarg, [I, Set]); + erlang:error(badarg); _Sort -> NType = ?REL_TYPE(I, Type), NSL = substitute_element(?LIST(Set), I, []), @@ -1099,22 +1070,21 @@ substitution(SetFun, Set) when ?IS_SET(Set) -> {SL, NewType} -> ?SET(reverse(SL), ?BINREL(Type, NewType)); Bad -> - erlang:error(Bad, [SetFun, Set]) + erlang:error(Bad) end; false -> empty_set(); _ when Type =:= ?ANYTYPE -> empty_set(); _XFun when ?IS_SET_OF(Type) -> - erlang:error(badarg, [SetFun, Set]); + erlang:error(badarg); XFun -> FunT = XFun(Type), - case catch check_fun(Type, XFun, FunT) of - {'EXIT', _} -> - erlang:error(badarg, [SetFun, Set]); + try check_fun(Type, XFun, FunT) of _Sort -> SL = substitute(L, XFun, []), ?SET(SL, ?BINREL(Type, FunT)) + catch _:_ -> erlang:error(badarg) end end. @@ -1136,7 +1106,7 @@ partition(I, Set) when is_integer(I), ?IS_SET(Set) -> empty -> Set; error -> - erlang:error(badarg, [I, Set]); + erlang:error(badarg); false -> % I =:= 1 ?SET(partition_n(I, ?LIST(Set)), ?SET_OF(Type)); true -> @@ -1158,7 +1128,7 @@ partition(I, R, S) when is_integer(I), ?IS_SET(R), ?IS_SET(S) -> empty -> {R, R}; error -> - erlang:error(badarg, [I, R, S]); + erlang:error(badarg); Sort -> RL = ?LIST(R), case {match_types(?REL_TYPE(I, RT), ST), ?LIST(S)} of @@ -1173,7 +1143,7 @@ partition(I, R, S) when is_integer(I), ?IS_SET(R), ?IS_SET(S) -> [L1 | L2] = partition3_n(I, keysort(I,RL), E, Es, [], []), {?SET(L1, RT), ?SET(L2, RT)}; {false, _SL} -> - erlang:error(type_mismatch, [I, R, S]) + erlang:error(type_mismatch) end end; partition(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> @@ -1192,20 +1162,18 @@ partition(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> [L1 | L2] = partition3(?LIST(S2), R1), {?SET(sort(L1), Type1), ?SET(sort(L2), Type1)}; false -> - erlang:error(type_mismatch, [SetFun, S1, S2]) + erlang:error(type_mismatch) end; Bad -> - erlang:error(Bad, [SetFun, S1, S2]) + erlang:error(Bad) end; _ when Type1 =:= ?ANYTYPE -> {S1, S1}; _XFun when ?IS_SET_OF(Type1) -> - erlang:error(badarg, [SetFun, S1, S2]); + erlang:error(badarg); XFun -> FunT = XFun(Type1), - case catch check_fun(Type1, XFun, FunT) of - {'EXIT', _} -> - erlang:error(badarg, [SetFun, S1, S2]); + try check_fun(Type1, XFun, FunT) of Sort -> case match_types(FunT, Type2) of true -> @@ -1213,8 +1181,9 @@ partition(SetFun, S1, S2) when ?IS_SET(S1), ?IS_SET(S2) -> [L1 | L2] = partition3(?LIST(S2), R1), {?SET(sort(L1), Type1), ?SET(sort(L2), Type1)}; false -> - erlang:error(type_mismatch, [SetFun, S1, S2]) + erlang:error(type_mismatch) end + catch _:_ -> erlang:error(badarg) end end. @@ -1231,7 +1200,7 @@ multiple_relative_product(T, R) when is_tuple(T), ?IS_SET(R) -> MProd = mul_relprod(tuple_to_list(T), 1, R), relative_product(MProd); false -> - erlang:error(badarg, [T, R]) + erlang:error(badarg) end. -spec(join(Relation1, I, Relation2, J) -> Relation3 when @@ -1243,8 +1212,7 @@ multiple_relative_product(T, R) when is_tuple(T), ?IS_SET(R) -> join(R1, I1, R2, I2) when ?IS_SET(R1), ?IS_SET(R2), is_integer(I1), is_integer(I2) -> case test_rel(R1, I1, lte) and test_rel(R2, I2, lte) of - false -> - erlang:error(badarg, [R1, I1, R2, I2]); + false -> erlang:error(badarg); true when ?TYPE(R1) =:= ?ANYTYPE -> R1; true when ?TYPE(R2) =:= ?ANYTYPE -> R2; true -> @@ -1291,7 +1259,7 @@ family_to_relation(F) when ?IS_SET(F) -> ?FAMILY(DT, RT) -> ?SET(family2rel(?LIST(F), []), ?BINREL(DT, RT)); ?ANYTYPE -> F; - _ -> erlang:error(badarg, [F]) + _ -> erlang:error(badarg) end. -spec(family_specification(Fun, Family1) -> Family2 when @@ -1311,10 +1279,10 @@ family_specification(Fun, F) when ?IS_SET(F) -> SL when is_list(SL) -> ?SET(SL, FType); Bad -> - erlang:error(Bad, [Fun, F]) + erlang:error(Bad) end; ?ANYTYPE -> F; - _ -> erlang:error(badarg, [Fun, F]) + _ -> erlang:error(badarg) end. -spec(union_of_family(Family) -> Set when @@ -1325,7 +1293,7 @@ union_of_family(F) when ?IS_SET(F) -> ?FAMILY(_DT, Type) -> ?SET(un_of_fam(?LIST(F), []), Type); ?ANYTYPE -> F; - _ -> erlang:error(badarg, [F]) + _ -> erlang:error(badarg) end. -spec(intersection_of_family(Family) -> Set when @@ -1338,9 +1306,9 @@ intersection_of_family(F) when ?IS_SET(F) -> FU when is_list(FU) -> ?SET(FU, Type); Bad -> - erlang:error(Bad, [F]) + erlang:error(Bad) end; - _ -> erlang:error(badarg, [F]) + _ -> erlang:error(badarg) end. -spec(family_union(Family1) -> Family2 when @@ -1351,7 +1319,7 @@ family_union(F) when ?IS_SET(F) -> ?FAMILY(DT, ?SET_OF(Type)) -> ?SET(fam_un(?LIST(F), []), ?FAMILY(DT, Type)); ?ANYTYPE -> F; - _ -> erlang:error(badarg, [F]) + _ -> erlang:error(badarg) end. -spec(family_intersection(Family1) -> Family2 when @@ -1364,10 +1332,10 @@ family_intersection(F) when ?IS_SET(F) -> FU when is_list(FU) -> ?SET(FU, ?FAMILY(DT, Type)); Bad -> - erlang:error(Bad, [F]) + erlang:error(Bad) end; ?ANYTYPE -> F; - _ -> erlang:error(badarg, [F]) + _ -> erlang:error(badarg) end. -spec(family_domain(Family1) -> Family2 when @@ -1379,7 +1347,7 @@ family_domain(F) when ?IS_SET(F) -> ?SET(fam_dom(?LIST(F), []), ?FAMILY(FDT, DT)); ?ANYTYPE -> F; ?FAMILY(_, ?ANYTYPE) -> F; - _ -> erlang:error(badarg, [F]) + _ -> erlang:error(badarg) end. -spec(family_range(Family1) -> Family2 when @@ -1391,7 +1359,7 @@ family_range(F) when ?IS_SET(F) -> ?SET(fam_ran(?LIST(F), []), ?FAMILY(DT, RT)); ?ANYTYPE -> F; ?FAMILY(_, ?ANYTYPE) -> F; - _ -> erlang:error(badarg, [F]) + _ -> erlang:error(badarg) end. -spec(family_field(Family1) -> Family2 when @@ -1425,12 +1393,12 @@ family_difference(F1, F2) -> fam_binop(F1, F2, FF) when ?IS_SET(F1), ?IS_SET(F2) -> case unify_types(?TYPE(F1), ?TYPE(F2)) of [] -> - erlang:error(type_mismatch, [F1, F2]); + erlang:error(type_mismatch); ?ANYTYPE -> F1; Type = ?FAMILY(_, _) -> ?SET(FF(?LIST(F1), ?LIST(F2), []), Type); - _ -> erlang:error(badarg, [F1, F2]) + _ -> erlang:error(badarg) end. -spec(partition_family(SetFun, Set) -> Family when @@ -1443,7 +1411,7 @@ partition_family(I, Set) when is_integer(I), ?IS_SET(Set) -> empty -> Set; error -> - erlang:error(badarg, [I, Set]); + erlang:error(badarg); false -> % when I =:= 1 ?SET(fam_partition_n(I, ?LIST(Set)), ?BINREL(?REL_TYPE(I, Type), ?SET_OF(Type))); @@ -1461,23 +1429,22 @@ partition_family(SetFun, Set) when ?IS_SET(Set) -> P = fam_partition(converse(NSL, []), true), ?SET(reverse(P), ?BINREL(NewType, ?SET_OF(Type))); Bad -> - erlang:error(Bad, [SetFun, Set]) + erlang:error(Bad) end; false -> empty_set(); _ when Type =:= ?ANYTYPE -> empty_set(); _XFun when ?IS_SET_OF(Type) -> - erlang:error(badarg, [SetFun, Set]); + erlang:error(badarg); XFun -> DType = XFun(Type), - case catch check_fun(Type, XFun, DType) of - {'EXIT', _} -> - erlang:error(badarg, [SetFun, Set]); + try check_fun(Type, XFun, DType) of Sort -> Ts = inverse_substitution(?LIST(Set), XFun, Sort), P = fam_partition(Ts, Sort), ?SET(reverse(P), ?BINREL(DType, ?SET_OF(Type))) + catch _:_ -> erlang:error(badarg) end end. @@ -1496,13 +1463,13 @@ family_projection(SetFun, F) when ?IS_SET(F) -> {SL, NewType} -> ?SET(SL, ?BINREL(DT, NewType)); Bad -> - erlang:error(Bad, [SetFun, F]) + erlang:error(Bad) end; _ -> - erlang:error(badarg, [SetFun, F]) + erlang:error(badarg) end; ?ANYTYPE -> F; - _ -> erlang:error(badarg, [SetFun, F]) + _ -> erlang:error(badarg) end. %%% @@ -1516,7 +1483,7 @@ family_to_digraph(F) when ?IS_SET(F) -> case ?TYPE(F) of ?FAMILY(_, _) -> fam2digraph(F, digraph:new()); ?ANYTYPE -> digraph:new(); - _Else -> erlang:error(badarg, [F]) + _Else -> erlang:error(badarg) end. -spec(family_to_digraph(Family, GraphType) -> Graph when @@ -1527,27 +1494,27 @@ family_to_digraph(F, Type) when ?IS_SET(F) -> case ?TYPE(F) of ?FAMILY(_, _) -> ok; ?ANYTYPE -> ok; - _Else -> erlang:error(badarg, [F, Type]) + _Else -> erlang:error(badarg) end, try digraph:new(Type) of G -> case catch fam2digraph(F, G) of {error, Reason} -> true = digraph:delete(G), - erlang:error(Reason, [F, Type]); + erlang:error(Reason); _ -> G end catch - error:badarg -> erlang:error(badarg, [F, Type]) + error:badarg -> erlang:error(badarg) end. -spec(digraph_to_family(Graph) -> Family when Graph :: digraph:graph(), Family :: family()). digraph_to_family(G) -> - case catch digraph_family(G) of - {'EXIT', _} -> erlang:error(badarg, [G]); + try digraph_family(G) of L -> ?SET(L, ?FAMILY(?ATOM_TYPE, ?ATOM_TYPE)) + catch _:_ -> erlang:error(badarg) end. -spec(digraph_to_family(Graph, Type) -> Family when @@ -1557,12 +1524,12 @@ digraph_to_family(G) -> digraph_to_family(G, T) -> case {is_type(T), T} of {true, ?SET_OF(?FAMILY(_,_) = Type)} -> - case catch digraph_family(G) of - {'EXIT', _} -> erlang:error(badarg, [G, T]); + try digraph_family(G) of L -> ?SET(L, Type) + catch _:_ -> erlang:error(badarg) end; _ -> - erlang:error(badarg, [G, T]) + erlang:error(badarg) end. %% @@ -1710,14 +1677,15 @@ func_type([], SL, Type, F) -> setify(L, ?SET_OF(Atom)) when ?IS_ATOM_TYPE(Atom), Atom =/= ?ANYTYPE -> ?SET(usort(L), Atom); setify(L, ?SET_OF(Type0)) -> - case catch is_no_lists(Type0) of - {'EXIT', _} -> - {?SET_OF(Type), Set} = create(L, Type0, Type0, []), - ?SET(Set, Type); + try is_no_lists(Type0) of N when is_integer(N) -> - rel(L, N, Type0); + rel(L, N, Type0); Sizes -> make_oset(L, Sizes, L, Type0) + catch + _:_ -> + {?SET_OF(Type), Set} = create(L, Type0, Type0, []), + ?SET(Set, Type) end; setify(E, Type0) -> {Type, OrdSet} = make_element(E, Type0, Type0), |