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authorHans Bolinder <[email protected]>2017-02-21 13:04:32 +0100
committerHans Bolinder <[email protected]>2017-02-22 15:34:22 +0100
commit3911b13f43452b0bbefd8ef03bf2d5316aa85077 (patch)
tree9f00c93350dbfaceddd26f1c14be064fa15b2128 /lib/stdlib/src
parenta4ac87e2cb953b23f87b46498fd921ac6709f7e9 (diff)
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stdlib: Simplify error handling of the sofs module
Atoms ('badarg', 'type_mismatch', &c) are used as errors instead of tuples containing the parameters. This makes it possible for the garbage collector to reclaim memory earlier. Since the exact format of error tuples is undocumented no release note is deemed necessary.
Diffstat (limited to 'lib/stdlib/src')
-rw-r--r--lib/stdlib/src/sofs.erl357
1 files changed, 161 insertions, 196 deletions
diff --git a/lib/stdlib/src/sofs.erl b/lib/stdlib/src/sofs.erl
index c244e06ca4..cc50e1b52c 100644
--- a/lib/stdlib/src/sofs.erl
+++ b/lib/stdlib/src/sofs.erl
@@ -1,7 +1,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 2001-2016. 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.
@@ -614,7 +584,7 @@ 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.
%%%
@@ -636,7 +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
@@ -646,7 +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
@@ -656,7 +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
@@ -679,7 +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.
@@ -703,11 +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.
@@ -720,18 +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
@@ -741,7 +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
@@ -755,10 +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
@@ -773,10 +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
@@ -787,7 +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
@@ -798,12 +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
@@ -816,7 +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
@@ -836,7 +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
@@ -850,7 +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
@@ -879,12 +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;
@@ -894,9 +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
@@ -909,10 +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.
%%%
@@ -932,7 +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
@@ -945,7 +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) ->
@@ -963,28 +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.
@@ -1000,7 +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
@@ -1013,7 +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) ->
@@ -1032,20 +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 ->
@@ -1053,8 +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.
@@ -1068,7 +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));
_ ->
@@ -1087,7 +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, []),
@@ -1102,22 +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.
@@ -1139,7 +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 ->
@@ -1161,7 +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
@@ -1176,7 +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) ->
@@ -1195,20 +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 ->
@@ -1216,8 +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.
@@ -1234,7 +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
@@ -1246,8 +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 ->
@@ -1294,7 +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
@@ -1314,10 +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
@@ -1328,7 +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
@@ -1341,9 +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
@@ -1354,7 +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
@@ -1367,10 +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
@@ -1382,7 +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
@@ -1394,7 +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
@@ -1428,12 +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
@@ -1446,7 +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)));
@@ -1464,23 +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.
@@ -1499,13 +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.
%%%
@@ -1519,7 +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
@@ -1530,27 +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
@@ -1560,12 +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.
%%
@@ -1713,14 +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),