%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2016. 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.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(ets).
%% Interface to the Term store BIF's
%% ets == Erlang Term Store
-export([file2tab/1,
file2tab/2,
filter/3,
foldl/3, foldr/3,
match_delete/2,
tab2file/2,
tab2file/3,
tabfile_info/1,
from_dets/2,
to_dets/2,
init_table/2,
test_ms/2,
tab2list/1,
table/1,
table/2,
fun2ms/1,
match_spec_run/2,
repair_continuation/2]).
-export([i/0, i/1, i/2, i/3]).
-export_type([tab/0, tid/0, match_spec/0, comp_match_spec/0, match_pattern/0]).
%%-----------------------------------------------------------------------------
-type access() :: public | protected | private.
-type tab() :: atom() | tid().
-type type() :: set | ordered_set | bag | duplicate_bag.
-type continuation() :: '$end_of_table'
| {tab(),integer(),integer(),comp_match_spec(),list(),integer()}
| {tab(),_,_,integer(),comp_match_spec(),list(),integer(),integer()}.
-opaque tid() :: integer().
-type match_pattern() :: atom() | tuple().
-type match_spec() :: [{match_pattern(), [_], [_]}].
%%-----------------------------------------------------------------------------
%%% BIFs
-export([all/0, delete/1, delete/2, delete_all_objects/1,
delete_object/2, first/1, give_away/3, info/1, info/2,
insert/2, insert_new/2, is_compiled_ms/1, last/1, lookup/2,
lookup_element/3, match/1, match/2, match/3, match_object/1,
match_object/2, match_object/3, match_spec_compile/1,
match_spec_run_r/3, member/2, new/2, next/2, prev/2,
rename/2, safe_fixtable/2, select/1, select/2, select/3,
select_count/2, select_delete/2, select_reverse/1,
select_reverse/2, select_reverse/3, setopts/2, slot/2,
take/2,
update_counter/3, update_counter/4, update_element/3]).
%% internal exports
-export([internal_request_all/0]).
-spec all() -> [Tab] when
Tab :: tab().
all() ->
receive_all(ets:internal_request_all(),
erlang:system_info(schedulers),
[]).
receive_all(_Ref, 0, All) ->
All;
receive_all(Ref, N, All) ->
receive
{Ref, SchedAll} ->
receive_all(Ref, N-1, SchedAll ++ All)
end.
-spec internal_request_all() -> reference().
internal_request_all() ->
erlang:nif_error(undef).
-spec delete(Tab) -> true when
Tab :: tab().
delete(_) ->
erlang:nif_error(undef).
-spec delete(Tab, Key) -> true when
Tab :: tab(),
Key :: term().
delete(_, _) ->
erlang:nif_error(undef).
-spec delete_all_objects(Tab) -> true when
Tab :: tab().
delete_all_objects(_) ->
erlang:nif_error(undef).
-spec delete_object(Tab, Object) -> true when
Tab :: tab(),
Object :: tuple().
delete_object(_, _) ->
erlang:nif_error(undef).
-spec first(Tab) -> Key | '$end_of_table' when
Tab :: tab(),
Key :: term().
first(_) ->
erlang:nif_error(undef).
-spec give_away(Tab, Pid, GiftData) -> true when
Tab :: tab(),
Pid :: pid(),
GiftData :: term().
give_away(_, _, _) ->
erlang:nif_error(undef).
-spec info(Tab) -> InfoList | undefined when
Tab :: tab(),
InfoList :: [InfoTuple],
InfoTuple :: {compressed, boolean()}
| {heir, pid() | none}
| {keypos, pos_integer()}
| {memory, non_neg_integer()}
| {name, atom()}
| {named_table, boolean()}
| {node, node()}
| {owner, pid()}
| {protection, access()}
| {size, non_neg_integer()}
| {type, type()}
| {write_concurrency, boolean()}
| {read_concurrency, boolean()}.
info(_) ->
erlang:nif_error(undef).
-spec info(Tab, Item) -> Value | undefined when
Tab :: tab(),
Item :: compressed | fixed | heir | keypos | memory
| name | named_table | node | owner | protection
| safe_fixed | safe_fixed_monotonic_time | size | stats | type
| write_concurrency | read_concurrency,
Value :: term().
info(_, _) ->
erlang:nif_error(undef).
-spec insert(Tab, ObjectOrObjects) -> true when
Tab :: tab(),
ObjectOrObjects :: tuple() | [tuple()].
insert(_, _) ->
erlang:nif_error(undef).
-spec insert_new(Tab, ObjectOrObjects) -> boolean() when
Tab :: tab(),
ObjectOrObjects :: tuple() | [tuple()].
insert_new(_, _) ->
erlang:nif_error(undef).
-spec is_compiled_ms(Term) -> boolean() when
Term :: term().
is_compiled_ms(_) ->
erlang:nif_error(undef).
-spec last(Tab) -> Key | '$end_of_table' when
Tab :: tab(),
Key :: term().
last(_) ->
erlang:nif_error(undef).
-spec lookup(Tab, Key) -> [Object] when
Tab :: tab(),
Key :: term(),
Object :: tuple().
lookup(_, _) ->
erlang:nif_error(undef).
-spec lookup_element(Tab, Key, Pos) -> Elem when
Tab :: tab(),
Key :: term(),
Pos :: pos_integer(),
Elem :: term() | [term()].
lookup_element(_, _, _) ->
erlang:nif_error(undef).
-spec match(Tab, Pattern) -> [Match] when
Tab :: tab(),
Pattern :: match_pattern(),
Match :: [term()].
match(_, _) ->
erlang:nif_error(undef).
-spec match(Tab, Pattern, Limit) -> {[Match], Continuation} |
'$end_of_table' when
Tab :: tab(),
Pattern :: match_pattern(),
Limit :: pos_integer(),
Match :: [term()],
Continuation :: continuation().
match(_, _, _) ->
erlang:nif_error(undef).
-spec match(Continuation) -> {[Match], Continuation} |
'$end_of_table' when
Match :: [term()],
Continuation :: continuation().
match(_) ->
erlang:nif_error(undef).
-spec match_object(Tab, Pattern) -> [Object] when
Tab :: tab(),
Pattern :: match_pattern(),
Object :: tuple().
match_object(_, _) ->
erlang:nif_error(undef).
-spec match_object(Tab, Pattern, Limit) -> {[Object], Continuation} |
'$end_of_table' when
Tab :: tab(),
Pattern :: match_pattern(),
Limit :: pos_integer(),
Object :: tuple(),
Continuation :: continuation().
match_object(_, _, _) ->
erlang:nif_error(undef).
-spec match_object(Continuation) -> {[Object], Continuation} |
'$end_of_table' when
Object :: tuple(),
Continuation :: continuation().
match_object(_) ->
erlang:nif_error(undef).
-spec match_spec_compile(MatchSpec) -> CompiledMatchSpec when
MatchSpec :: match_spec(),
CompiledMatchSpec :: comp_match_spec().
match_spec_compile(_) ->
erlang:nif_error(undef).
-spec match_spec_run_r(List, CompiledMatchSpec, list()) -> list() when
List :: [tuple()],
CompiledMatchSpec :: comp_match_spec().
match_spec_run_r(_, _, _) ->
erlang:nif_error(undef).
-spec member(Tab, Key) -> boolean() when
Tab :: tab(),
Key :: term().
member(_, _) ->
erlang:nif_error(undef).
-spec new(Name, Options) -> tid() | atom() when
Name :: atom(),
Options :: [Option],
Option :: Type | Access | named_table | {keypos,Pos}
| {heir, Pid :: pid(), HeirData} | {heir, none} | Tweaks,
Type :: type(),
Access :: access(),
Tweaks :: {write_concurrency, boolean()}
| {read_concurrency, boolean()}
| compressed,
Pos :: pos_integer(),
HeirData :: term().
new(_, _) ->
erlang:nif_error(undef).
-spec next(Tab, Key1) -> Key2 | '$end_of_table' when
Tab :: tab(),
Key1 :: term(),
Key2 :: term().
next(_, _) ->
erlang:nif_error(undef).
-spec prev(Tab, Key1) -> Key2 | '$end_of_table' when
Tab :: tab(),
Key1 :: term(),
Key2 :: term().
prev(_, _) ->
erlang:nif_error(undef).
%% Shadowed by erl_bif_types: ets:rename/2
-spec rename(Tab, Name) -> Name when
Tab :: tab(),
Name :: atom().
rename(_, _) ->
erlang:nif_error(undef).
-spec safe_fixtable(Tab, Fix) -> true when
Tab :: tab(),
Fix :: boolean().
safe_fixtable(_, _) ->
erlang:nif_error(undef).
-spec select(Tab, MatchSpec) -> [Match] when
Tab :: tab(),
MatchSpec :: match_spec(),
Match :: term().
select(_, _) ->
erlang:nif_error(undef).
-spec select(Tab, MatchSpec, Limit) -> {[Match],Continuation} |
'$end_of_table' when
Tab :: tab(),
MatchSpec :: match_spec(),
Limit :: pos_integer(),
Match :: term(),
Continuation :: continuation().
select(_, _, _) ->
erlang:nif_error(undef).
-spec select(Continuation) -> {[Match],Continuation} | '$end_of_table' when
Match :: term(),
Continuation :: continuation().
select(_) ->
erlang:nif_error(undef).
-spec select_count(Tab, MatchSpec) -> NumMatched when
Tab :: tab(),
MatchSpec :: match_spec(),
NumMatched :: non_neg_integer().
select_count(_, _) ->
erlang:nif_error(undef).
-spec select_delete(Tab, MatchSpec) -> NumDeleted when
Tab :: tab(),
MatchSpec :: match_spec(),
NumDeleted :: non_neg_integer().
select_delete(_, _) ->
erlang:nif_error(undef).
-spec select_reverse(Tab, MatchSpec) -> [Match] when
Tab :: tab(),
MatchSpec :: match_spec(),
Match :: term().
select_reverse(_, _) ->
erlang:nif_error(undef).
-spec select_reverse(Tab, MatchSpec, Limit) -> {[Match],Continuation} |
'$end_of_table' when
Tab :: tab(),
MatchSpec :: match_spec(),
Limit :: pos_integer(),
Match :: term(),
Continuation :: continuation().
select_reverse(_, _, _) ->
erlang:nif_error(undef).
-spec select_reverse(Continuation) -> {[Match],Continuation} |
'$end_of_table' when
Continuation :: continuation(),
Match :: term().
select_reverse(_) ->
erlang:nif_error(undef).
-spec setopts(Tab, Opts) -> true when
Tab :: tab(),
Opts :: Opt | [Opt],
Opt :: {heir, pid(), HeirData} | {heir,none},
HeirData :: term().
setopts(_, _) ->
erlang:nif_error(undef).
-spec slot(Tab, I) -> [Object] | '$end_of_table' when
Tab :: tab(),
I :: non_neg_integer(),
Object :: tuple().
slot(_, _) ->
erlang:nif_error(undef).
-spec take(Tab, Key) -> [Object] when
Tab :: tab(),
Key :: term(),
Object :: tuple().
take(_, _) ->
erlang:nif_error(undef).
-spec update_counter(Tab, Key, UpdateOp) -> Result when
Tab :: tab(),
Key :: term(),
UpdateOp :: {Pos, Incr} | {Pos, Incr, Threshold, SetValue},
Pos :: integer(),
Incr :: integer(),
Threshold :: integer(),
SetValue :: integer(),
Result :: integer();
(Tab, Key, [UpdateOp]) -> [Result] when
Tab :: tab(),
Key :: term(),
UpdateOp :: {Pos, Incr} | {Pos, Incr, Threshold, SetValue},
Pos :: integer(),
Incr :: integer(),
Threshold :: integer(),
SetValue :: integer(),
Result :: integer();
(Tab, Key, Incr) -> Result when
Tab :: tab(),
Key :: term(),
Incr :: integer(),
Result :: integer().
update_counter(_, _, _) ->
erlang:nif_error(undef).
-spec update_counter(Tab, Key, UpdateOp, Default) -> Result when
Tab :: tab(),
Key :: term(),
UpdateOp :: {Pos, Incr}
| {Pos, Incr, Threshold, SetValue},
Pos :: integer(),
Incr :: integer(),
Threshold :: integer(),
SetValue :: integer(),
Result :: integer(),
Default :: tuple();
(Tab, Key, [UpdateOp], Default) -> [Result] when
Tab :: tab(),
Key :: term(),
UpdateOp :: {Pos, Incr}
| {Pos, Incr, Threshold, SetValue},
Pos :: integer(),
Incr :: integer(),
Threshold :: integer(),
SetValue :: integer(),
Result :: integer(),
Default :: tuple();
(Tab, Key, Incr, Default) -> Result when
Tab :: tab(),
Key :: term(),
Incr :: integer(),
Result :: integer(),
Default :: tuple().
update_counter(_, _, _, _) ->
erlang:nif_error(undef).
-spec update_element(Tab, Key, ElementSpec :: {Pos, Value}) -> boolean() when
Tab :: tab(),
Key :: term(),
Pos :: pos_integer(),
Value :: term();
(Tab, Key, ElementSpec :: [{Pos, Value}]) -> boolean() when
Tab :: tab(),
Key :: term(),
Pos :: pos_integer(),
Value :: term().
update_element(_, _, _) ->
erlang:nif_error(undef).
%%% End of BIFs
-opaque comp_match_spec() :: reference().
-spec match_spec_run(List, CompiledMatchSpec) -> list() when
List :: [tuple()],
CompiledMatchSpec :: comp_match_spec().
match_spec_run(List, CompiledMS) ->
lists:reverse(ets:match_spec_run_r(List, CompiledMS, [])).
-spec repair_continuation(Continuation, MatchSpec) -> Continuation when
Continuation :: continuation(),
MatchSpec :: match_spec().
%% $end_of_table is an allowed continuation in ets...
repair_continuation('$end_of_table', _) ->
'$end_of_table';
%% ordered_set
repair_continuation(Untouched = {Table,Lastkey,EndCondition,N2,MSRef,L2,N3,N4}, MS)
when %% (is_atom(Table) or is_integer(Table)),
is_integer(N2),
%% is_reference(MSRef),
is_list(L2),
is_integer(N3),
is_integer(N4) ->
case ets:is_compiled_ms(MSRef) of
true ->
Untouched;
false ->
{Table,Lastkey,EndCondition,N2,ets:match_spec_compile(MS),L2,N3,N4}
end;
%% set/bag/duplicate_bag
repair_continuation(Untouched = {Table,N1,N2,MSRef,L,N3}, MS)
when %% (is_atom(Table) or is_integer(Table)),
is_integer(N1),
is_integer(N2),
%% is_reference(MSRef),
is_list(L),
is_integer(N3) ->
case ets:is_compiled_ms(MSRef) of
true ->
Untouched;
false ->
{Table,N1,N2,ets:match_spec_compile(MS),L,N3}
end.
-spec fun2ms(LiteralFun) -> MatchSpec when
LiteralFun :: function(),
MatchSpec :: match_spec().
fun2ms(ShellFun) when is_function(ShellFun) ->
%% Check that this is really a shell fun...
case erl_eval:fun_data(ShellFun) of
{fun_data,ImportList,Clauses} ->
case ms_transform:transform_from_shell(
?MODULE,Clauses,ImportList) of
{error,[{_,[{_,_,Code}|_]}|_],_} ->
io:format("Error: ~ts~n",
[ms_transform:format_error(Code)]),
{error,transform_error};
Else ->
Else
end;
_ ->
exit({badarg,{?MODULE,fun2ms,
[function,called,with,real,'fun',
should,be,transformed,with,
parse_transform,'or',called,with,
a,'fun',generated,in,the,
shell]}})
end.
-spec foldl(Function, Acc0, Tab) -> Acc1 when
Function :: fun((Element :: term(), AccIn) -> AccOut),
Tab :: tab(),
Acc0 :: term(),
Acc1 :: term(),
AccIn :: term(),
AccOut :: term().
foldl(F, Accu, T) ->
ets:safe_fixtable(T, true),
First = ets:first(T),
try
do_foldl(F, Accu, First, T)
after
ets:safe_fixtable(T, false)
end.
do_foldl(F, Accu0, Key, T) ->
case Key of
'$end_of_table' ->
Accu0;
_ ->
do_foldl(F,
lists:foldl(F, Accu0, ets:lookup(T, Key)),
ets:next(T, Key), T)
end.
-spec foldr(Function, Acc0, Tab) -> Acc1 when
Function :: fun((Element :: term(), AccIn) -> AccOut),
Tab :: tab(),
Acc0 :: term(),
Acc1 :: term(),
AccIn :: term(),
AccOut :: term().
foldr(F, Accu, T) ->
ets:safe_fixtable(T, true),
Last = ets:last(T),
try
do_foldr(F, Accu, Last, T)
after
ets:safe_fixtable(T, false)
end.
do_foldr(F, Accu0, Key, T) ->
case Key of
'$end_of_table' ->
Accu0;
_ ->
do_foldr(F,
lists:foldr(F, Accu0, ets:lookup(T, Key)),
ets:prev(T, Key), T)
end.
-spec from_dets(Tab, DetsTab) -> 'true' when
Tab :: tab(),
DetsTab :: dets:tab_name().
from_dets(EtsTable, DetsTable) ->
case (catch dets:to_ets(DetsTable, EtsTable)) of
{error, Reason} ->
erlang:error(Reason, [EtsTable,DetsTable]);
{'EXIT', {Reason1, _Stack1}} ->
erlang:error(Reason1,[EtsTable,DetsTable]);
{'EXIT', EReason} ->
erlang:error(EReason,[EtsTable,DetsTable]);
EtsTable ->
true;
Unexpected -> %% Dets bug?
erlang:error(Unexpected,[EtsTable,DetsTable])
end.
-spec to_dets(Tab, DetsTab) -> DetsTab when
Tab :: tab(),
DetsTab :: dets:tab_name().
to_dets(EtsTable, DetsTable) ->
case (catch dets:from_ets(DetsTable, EtsTable)) of
{error, Reason} ->
erlang:error(Reason, [EtsTable,DetsTable]);
{'EXIT', {Reason1, _Stack1}} ->
erlang:error(Reason1,[EtsTable,DetsTable]);
{'EXIT', EReason} ->
erlang:error(EReason,[EtsTable,DetsTable]);
ok ->
DetsTable;
Unexpected -> %% Dets bug?
erlang:error(Unexpected,[EtsTable,DetsTable])
end.
-spec test_ms(Tuple, MatchSpec) -> {'ok', Result} | {'error', Errors} when
Tuple :: tuple(),
MatchSpec :: match_spec(),
Result :: term(),
Errors :: [{'warning'|'error', string()}].
test_ms(Term, MS) ->
case erlang:match_spec_test(Term, MS, table) of
{ok, Result, _Flags, _Messages} ->
{ok, Result};
{error, _Errors} = Error ->
Error
end.
-spec init_table(Tab, InitFun) -> 'true' when
Tab :: tab(),
InitFun :: fun((Arg) -> Res),
Arg :: 'read' | 'close',
Res :: 'end_of_input' | {Objects :: [term()], InitFun} | term().
init_table(Table, Fun) ->
ets:delete_all_objects(Table),
init_table_continue(Table, Fun(read)).
init_table_continue(_Table, end_of_input) ->
true;
init_table_continue(Table, {List, Fun}) when is_list(List), is_function(Fun) ->
case (catch init_table_sub(Table, List)) of
{'EXIT', Reason} ->
(catch Fun(close)),
exit(Reason);
true ->
init_table_continue(Table, Fun(read))
end;
init_table_continue(_Table, Error) ->
exit(Error).
init_table_sub(_Table, []) ->
true;
init_table_sub(Table, [H|T]) ->
ets:insert(Table, H),
init_table_sub(Table, T).
-spec match_delete(Tab, Pattern) -> 'true' when
Tab :: tab(),
Pattern :: match_pattern().
match_delete(Table, Pattern) ->
ets:select_delete(Table, [{Pattern,[],[true]}]),
true.
%% Produce a list of tuples from a table
-spec tab2list(Tab) -> [Object] when
Tab :: tab(),
Object :: tuple().
tab2list(T) ->
ets:match_object(T, '_').
-spec filter(tab(), function(), [term()]) -> [term()].
filter(Tn, F, A) when is_atom(Tn) ; is_integer(Tn) ->
do_filter(Tn, ets:first(Tn), F, A, []).
do_filter(_Tab, '$end_of_table', _, _, Ack) ->
Ack;
do_filter(Tab, Key, F, A, Ack) ->
case apply(F, [ets:lookup(Tab, Key)|A]) of
false ->
do_filter(Tab, ets:next(Tab, Key), F, A, Ack);
true ->
Ack2 = ets:lookup(Tab, Key) ++ Ack,
do_filter(Tab, ets:next(Tab, Key), F, A, Ack2);
{true, Value} ->
do_filter(Tab, ets:next(Tab, Key), F, A, [Value|Ack])
end.
%% Dump a table to a file using the disk_log facility
%% Options := [Option]
%% Option := {extended_info,[ExtInfo]}
%% ExtInfo := object_count | md5sum
-define(MAJOR_F2T_VERSION,1).
-define(MINOR_F2T_VERSION,0).
-record(filetab_options,
{
object_count = false :: boolean(),
md5sum = false :: boolean(),
sync = false :: boolean()
}).
-spec tab2file(Tab, Filename) -> 'ok' | {'error', Reason} when
Tab :: tab(),
Filename :: file:name(),
Reason :: term().
tab2file(Tab, File) ->
tab2file(Tab, File, []).
-spec tab2file(Tab, Filename, Options) -> 'ok' | {'error', Reason} when
Tab :: tab(),
Filename :: file:name(),
Options :: [Option],
Option :: {'extended_info', [ExtInfo]} | {'sync', boolean()},
ExtInfo :: 'md5sum' | 'object_count',
Reason :: term().
tab2file(Tab, File, Options) ->
try
{ok, FtOptions} = parse_ft_options(Options),
_ = file:delete(File),
case file:read_file_info(File) of
{error, enoent} -> ok;
_ -> throw(eaccess)
end,
Name = make_ref(),
case disk_log:open([{name, Name}, {file, File}]) of
{ok, Name} ->
ok;
{error, Reason} ->
throw(Reason)
end,
try
Info0 = case ets:info(Tab) of
undefined ->
%% erlang:error(badarg, [Tab, File, Options]);
throw(badtab);
I ->
I
end,
Info = [list_to_tuple(Info0 ++
[{major_version,?MAJOR_F2T_VERSION},
{minor_version,?MINOR_F2T_VERSION},
{extended_info,
ft_options_to_list(FtOptions)}])],
{LogFun, InitState} =
case FtOptions#filetab_options.md5sum of
true ->
{fun(Oldstate,Termlist) ->
{NewState,BinList} =
md5terms(Oldstate,Termlist),
case disk_log:blog_terms(Name,BinList) of
ok -> NewState;
{error, Reason2} -> throw(Reason2)
end
end,
erlang:md5_init()};
false ->
{fun(_,Termlist) ->
case disk_log:log_terms(Name,Termlist) of
ok -> true;
{error, Reason2} -> throw(Reason2)
end
end,
true}
end,
ets:safe_fixtable(Tab,true),
{NewState1,Num} = try
NewState = LogFun(InitState,Info),
dump_file(
ets:select(Tab,[{'_',[],['$_']}],100),
LogFun, NewState, 0)
after
(catch ets:safe_fixtable(Tab,false))
end,
EndInfo =
case FtOptions#filetab_options.object_count of
true ->
[{count,Num}];
false ->
[]
end ++
case FtOptions#filetab_options.md5sum of
true ->
[{md5,erlang:md5_final(NewState1)}];
false ->
[]
end,
case EndInfo of
[] ->
ok;
List ->
LogFun(NewState1,[['$end_of_table',List]])
end,
case FtOptions#filetab_options.sync of
true ->
case disk_log:sync(Name) of
ok -> ok;
{error, Reason2} -> throw(Reason2)
end;
false ->
ok
end,
disk_log:close(Name)
catch
throw:TReason ->
_ = disk_log:close(Name),
_ = file:delete(File),
throw(TReason);
exit:ExReason ->
_ = disk_log:close(Name),
_ = file:delete(File),
exit(ExReason);
error:ErReason ->
_ = disk_log:close(Name),
_ = file:delete(File),
erlang:raise(error,ErReason,erlang:get_stacktrace())
end
catch
throw:TReason2 ->
{error,TReason2};
exit:ExReason2 ->
{error,ExReason2}
end.
dump_file('$end_of_table', _LogFun, State, Num) ->
{State,Num};
dump_file({Terms, Context}, LogFun, State, Num) ->
Count = length(Terms),
NewState = LogFun(State, Terms),
dump_file(ets:select(Context), LogFun, NewState, Num + Count).
ft_options_to_list(#filetab_options{md5sum = MD5, object_count = PS}) ->
case PS of
true ->
[object_count];
_ ->
[]
end ++
case MD5 of
true ->
[md5sum];
_ ->
[]
end.
md5terms(State, []) ->
{State, []};
md5terms(State, [H|T]) ->
B = term_to_binary(H),
NewState = erlang:md5_update(State, B),
{FinState, TL} = md5terms(NewState, T),
{FinState, [B|TL]}.
parse_ft_options(Options) when is_list(Options) ->
{ok, parse_ft_options(Options, #filetab_options{}, false)}.
parse_ft_options([], FtOpt, _) ->
FtOpt;
parse_ft_options([{sync,true} | Rest], FtOpt, EI) ->
parse_ft_options(Rest, FtOpt#filetab_options{sync = true}, EI);
parse_ft_options([{sync,false} | Rest], FtOpt, EI) ->
parse_ft_options(Rest, FtOpt, EI);
parse_ft_options([{extended_info,L} | Rest], FtOpt0, false) ->
FtOpt1 = parse_ft_info_options(FtOpt0, L),
parse_ft_options(Rest, FtOpt1, true);
parse_ft_options([Other | _], _, _) ->
throw({unknown_option, Other});
parse_ft_options(Malformed, _, _) ->
throw({malformed_option, Malformed}).
parse_ft_info_options(FtOpt,[]) ->
FtOpt;
parse_ft_info_options(FtOpt,[object_count | T]) ->
parse_ft_info_options(FtOpt#filetab_options{object_count = true}, T);
parse_ft_info_options(FtOpt,[md5sum | T]) ->
parse_ft_info_options(FtOpt#filetab_options{md5sum = true}, T);
parse_ft_info_options(_,[Unexpected | _]) ->
throw({unknown_option,[{extended_info,[Unexpected]}]});
parse_ft_info_options(_,Malformed) ->
throw({malformed_option,Malformed}).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Read a dumped file from disk and create a corresponding table
%% Opts := [Opt]
%% Opt := {verify,boolean()}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-spec file2tab(Filename) -> {'ok', Tab} | {'error', Reason} when
Filename :: file:name(),
Tab :: tab(),
Reason :: term().
file2tab(File) ->
file2tab(File, []).
-spec file2tab(Filename, Options) -> {'ok', Tab} | {'error', Reason} when
Filename :: file:name(),
Tab :: tab(),
Options :: [Option],
Option :: {'verify', boolean()},
Reason :: term().
file2tab(File, Opts) ->
try
{ok,Verify,TabArg} = parse_f2t_opts(Opts,false,[]),
Name = make_ref(),
{ok, Name} =
case disk_log:open([{name, Name},
{file, File},
{mode, read_only}]) of
{ok, Name} ->
{ok, Name};
{repaired, Name, _,_} -> %Uh? cannot happen?
case Verify of
true ->
_ = disk_log:close(Name),
throw(badfile);
false ->
{ok, Name}
end;
{error, Other1} ->
throw({read_error, Other1});
Other2 ->
throw(Other2)
end,
{ok, Major, Minor, FtOptions, MD5State, FullHeader, DLContext} =
try get_header_data(Name, Verify)
catch
badfile ->
_ = disk_log:close(Name),
throw(badfile)
end,
try
if
Major > ?MAJOR_F2T_VERSION ->
throw({unsupported_file_version,{Major,Minor}});
true ->
ok
end,
{ok, Tab, HeadCount} = create_tab(FullHeader, TabArg),
StrippedOptions =
case Verify of
true ->
FtOptions;
false ->
#filetab_options{}
end,
{ReadFun,InitState} =
case StrippedOptions#filetab_options.md5sum of
true ->
{fun({OldMD5State,OldCount,_OL,ODLContext} = OS) ->
case wrap_bchunk(Name,ODLContext,100,Verify) of
eof ->
{OS,[]};
{NDLContext,Blist} ->
{Termlist, NewMD5State,
NewCount,NewLast} =
md5_and_convert(Blist,
OldMD5State,
OldCount),
{{NewMD5State, NewCount,
NewLast,NDLContext},
Termlist}
end
end,
{MD5State,0,[],DLContext}};
false ->
{fun({_,OldCount,_OL,ODLContext} = OS) ->
case wrap_chunk(Name,ODLContext,100,Verify) of
eof ->
{OS,[]};
{NDLContext,List} ->
{NewLast,NewCount,NewList} =
scan_for_endinfo(List, OldCount),
{{false,NewCount,NewLast,NDLContext},
NewList}
end
end,
{false,0,[],DLContext}}
end,
try
do_read_and_verify(ReadFun,InitState,Tab,
StrippedOptions,HeadCount,Verify)
catch
throw:TReason ->
ets:delete(Tab),
throw(TReason);
exit:ExReason ->
ets:delete(Tab),
exit(ExReason);
error:ErReason ->
ets:delete(Tab),
erlang:raise(error,ErReason,erlang:get_stacktrace())
end
after
_ = disk_log:close(Name)
end
catch
throw:TReason2 ->
{error,TReason2};
exit:ExReason2 ->
{error,ExReason2}
end.
do_read_and_verify(ReadFun,InitState,Tab,FtOptions,HeadCount,Verify) ->
case load_table(ReadFun,InitState,Tab) of
{ok,{_,FinalCount,[],_}} ->
case {FtOptions#filetab_options.md5sum,
FtOptions#filetab_options.object_count} of
{false,false} ->
case Verify of
false ->
ok;
true ->
case FinalCount of
HeadCount ->
ok;
_ ->
throw(invalid_object_count)
end
end;
_ ->
throw(badfile)
end,
{ok,Tab};
{ok,{FinalMD5State,FinalCount,['$end_of_table',LastInfo],_}} ->
ECount = case lists:keyfind(count,1,LastInfo) of
{count,N} ->
N;
_ ->
false
end,
EMD5 = case lists:keyfind(md5,1,LastInfo) of
{md5,M} ->
M;
_ ->
false
end,
case FtOptions#filetab_options.md5sum of
true ->
case erlang:md5_final(FinalMD5State) of
EMD5 ->
ok;
_MD5MisM ->
throw(checksum_error)
end;
false ->
ok
end,
case FtOptions#filetab_options.object_count of
true ->
case FinalCount of
ECount ->
ok;
_Other ->
throw(invalid_object_count)
end;
false ->
%% Only use header count if no extended info
%% at all is present and verification is requested.
case {Verify,FtOptions#filetab_options.md5sum} of
{true,false} ->
case FinalCount of
HeadCount ->
ok;
_Other2 ->
throw(invalid_object_count)
end;
_ ->
ok
end
end,
{ok,Tab}
end.
parse_f2t_opts([],Verify,Tab) ->
{ok,Verify,Tab};
parse_f2t_opts([{verify, true}|T],_OV,Tab) ->
parse_f2t_opts(T,true,Tab);
parse_f2t_opts([{verify,false}|T],OV,Tab) ->
parse_f2t_opts(T,OV,Tab);
parse_f2t_opts([{table,Tab}|T],OV,[]) ->
parse_f2t_opts(T,OV,Tab);
parse_f2t_opts([Unexpected|_],_,_) ->
throw({unknown_option,Unexpected});
parse_f2t_opts(Malformed,_,_) ->
throw({malformed_option,Malformed}).
count_mandatory([]) ->
0;
count_mandatory([{Tag,_}|T]) when Tag =:= name;
Tag =:= type;
Tag =:= protection;
Tag =:= named_table;
Tag =:= keypos;
Tag =:= size ->
1+count_mandatory(T);
count_mandatory([_|T]) ->
count_mandatory(T).
verify_header_mandatory(L) ->
count_mandatory(L) =:= 6.
wrap_bchunk(Name,C,N,true) ->
case disk_log:bchunk(Name,C,N) of
{_,_,X} when X > 0 ->
throw(badfile);
{NC,Bin,_} ->
{NC,Bin};
Y ->
Y
end;
wrap_bchunk(Name,C,N,false) ->
case disk_log:bchunk(Name,C,N) of
{NC,Bin,_} ->
{NC,Bin};
Y ->
Y
end.
wrap_chunk(Name,C,N,true) ->
case disk_log:chunk(Name,C,N) of
{_,_,X} when X > 0 ->
throw(badfile);
{NC,TL,_} ->
{NC,TL};
Y ->
Y
end;
wrap_chunk(Name,C,N,false) ->
case disk_log:chunk(Name,C,N) of
{NC,TL,_} ->
{NC,TL};
Y ->
Y
end.
get_header_data(Name,true) ->
case wrap_bchunk(Name,start,1,true) of
{C,[Bin]} when is_binary(Bin) ->
T = binary_to_term(Bin),
case T of
Tup when is_tuple(Tup) ->
L = tuple_to_list(Tup),
case verify_header_mandatory(L) of
false ->
throw(badfile);
true ->
Major = case lists:keyfind(major,1,L) of
{major,Maj} ->
Maj;
_ ->
0
end,
Minor = case lists:keyfind(minor,1,L) of
{minor,Min} ->
Min;
_ ->
0
end,
FtOptions =
case lists:keyfind(extended_info,1,L) of
{extended_info,I} when is_list(I) ->
#filetab_options
{
object_count =
lists:member(object_count,I),
md5sum =
lists:member(md5sum,I)
};
_ ->
#filetab_options{}
end,
MD5Initial =
case FtOptions#filetab_options.md5sum of
true ->
X = erlang:md5_init(),
erlang:md5_update(X,Bin);
false ->
false
end,
{ok, Major, Minor, FtOptions, MD5Initial, L, C}
end;
_X ->
throw(badfile)
end;
_Y ->
throw(badfile)
end;
get_header_data(Name, false) ->
case wrap_chunk(Name, start, 1, false) of
{C,[Tup]} when is_tuple(Tup) ->
L = tuple_to_list(Tup),
case verify_header_mandatory(L) of
false ->
throw(badfile);
true ->
Major = case lists:keyfind(major_version, 1, L) of
{major_version, Maj} ->
Maj;
_ ->
0
end,
Minor = case lists:keyfind(minor_version, 1, L) of
{minor_version, Min} ->
Min;
_ ->
0
end,
FtOptions =
case lists:keyfind(extended_info, 1, L) of
{extended_info, I} when is_list(I) ->
#filetab_options
{
object_count =
lists:member(object_count,I),
md5sum =
lists:member(md5sum,I)
};
_ ->
#filetab_options{}
end,
{ok, Major, Minor, FtOptions, false, L, C}
end;
_ ->
throw(badfile)
end.
md5_and_convert([], MD5State, Count) ->
{[],MD5State,Count,[]};
md5_and_convert([H|T], MD5State, Count) when is_binary(H) ->
case (catch binary_to_term(H)) of
{'EXIT', _} ->
md5_and_convert(T,MD5State,Count);
['$end_of_table',_Dat] = L ->
{[],MD5State,Count,L};
Term ->
X = erlang:md5_update(MD5State, H),
{Rest,NewMD5,NewCount,NewLast} = md5_and_convert(T, X, Count+1),
{[Term | Rest],NewMD5,NewCount,NewLast}
end.
scan_for_endinfo([], Count) ->
{[],Count,[]};
scan_for_endinfo([['$end_of_table',Dat]], Count) ->
{['$end_of_table',Dat],Count,[]};
scan_for_endinfo([Term|T], Count) ->
{NewLast,NCount,Rest} = scan_for_endinfo(T, Count+1),
{NewLast,NCount,[Term | Rest]}.
load_table(ReadFun, State, Tab) ->
{NewState,NewData} = ReadFun(State),
case NewData of
[] ->
{ok,NewState};
List ->
ets:insert(Tab, List),
load_table(ReadFun, NewState, Tab)
end.
create_tab(I, TabArg) ->
{name, Name} = lists:keyfind(name, 1, I),
{type, Type} = lists:keyfind(type, 1, I),
{protection, P} = lists:keyfind(protection, 1, I),
{keypos, _Kp} = Keypos = lists:keyfind(keypos, 1, I),
{size, Sz} = lists:keyfind(size, 1, I),
L1 = [Type, P, Keypos],
L2 = case lists:keyfind(named_table, 1, I) of
{named_table, true} -> [named_table | L1];
{named_table, false} -> L1
end,
L3 = case lists:keyfind(compressed, 1, I) of
{compressed, true} -> [compressed | L2];
{compressed, false} -> L2;
false -> L2
end,
L4 = case lists:keyfind(write_concurrency, 1, I) of
{write_concurrency, _}=Wcc -> [Wcc | L3];
_ -> L3
end,
L5 = case lists:keyfind(read_concurrency, 1, I) of
{read_concurrency, _}=Rcc -> [Rcc | L4];
false -> L4
end,
case TabArg of
[] ->
try
Tab = ets:new(Name, L5),
{ok, Tab, Sz}
catch _:_ ->
throw(cannot_create_table)
end;
_ ->
{ok, TabArg, Sz}
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% tabfile_info/1 reads the head information in an ets table dumped to
%% disk by means of file2tab and returns a list of the relevant table
%% information
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-spec tabfile_info(Filename) -> {'ok', TableInfo} | {'error', Reason} when
Filename :: file:name(),
TableInfo :: [InfoItem],
InfoItem :: {'name', atom()}
| {'type', Type}
| {'protection', Protection}
| {'named_table', boolean()}
| {'keypos', non_neg_integer()}
| {'size', non_neg_integer()}
| {'extended_info', [ExtInfo]}
| {'version', {Major :: non_neg_integer(),
Minor :: non_neg_integer()}},
ExtInfo :: 'md5sum' | 'object_count',
Type :: 'bag' | 'duplicate_bag' | 'ordered_set' | 'set',
Protection :: 'private' | 'protected' | 'public',
Reason :: term().
tabfile_info(File) when is_list(File) ; is_atom(File) ->
try
Name = make_ref(),
{ok, Name} =
case disk_log:open([{name, Name},
{file, File},
{mode, read_only}]) of
{ok, Name} ->
{ok, Name};
{repaired, Name, _,_} -> %Uh? cannot happen?
{ok, Name};
{error, Other1} ->
throw({read_error, Other1});
Other2 ->
throw(Other2)
end,
{ok, Major, Minor, _FtOptions, _MD5State, FullHeader, _DLContext} =
try get_header_data(Name, false)
catch
badfile ->
_ = disk_log:close(Name),
throw(badfile)
end,
case disk_log:close(Name) of
ok -> ok;
{error, Reason} -> throw(Reason)
end,
{value, N} = lists:keysearch(name, 1, FullHeader),
{value, Type} = lists:keysearch(type, 1, FullHeader),
{value, P} = lists:keysearch(protection, 1, FullHeader),
{value, Val} = lists:keysearch(named_table, 1, FullHeader),
{value, Kp} = lists:keysearch(keypos, 1, FullHeader),
{value, Sz} = lists:keysearch(size, 1, FullHeader),
Ei = case lists:keyfind(extended_info, 1, FullHeader) of
false -> {extended_info, []};
Ei0 -> Ei0
end,
{ok, [N,Type,P,Val,Kp,Sz,Ei,{version,{Major,Minor}}]}
catch
throw:TReason ->
{error,TReason};
exit:ExReason ->
{error,ExReason}
end.
-spec table(Tab) -> QueryHandle when
Tab :: tab(),
QueryHandle :: qlc:query_handle().
table(Tab) ->
table(Tab, []).
-spec table(Tab, Options) -> QueryHandle when
Tab :: tab(),
QueryHandle :: qlc:query_handle(),
Options :: [Option] | Option,
Option :: {'n_objects', NObjects}
| {'traverse', TraverseMethod},
NObjects :: 'default' | pos_integer(),
TraverseMethod :: 'first_next' | 'last_prev'
| 'select' | {'select', MatchSpec :: match_spec()}.
table(Tab, Opts) ->
case options(Opts, [traverse, n_objects]) of
{badarg,_} ->
erlang:error(badarg, [Tab, Opts]);
[[Traverse, NObjs], QlcOptions] ->
TF = case Traverse of
first_next ->
fun() -> qlc_next(Tab, ets:first(Tab)) end;
last_prev ->
fun() -> qlc_prev(Tab, ets:last(Tab)) end;
select ->
fun(MS) -> qlc_select(ets:select(Tab, MS, NObjs)) end;
{select, MS} ->
fun() -> qlc_select(ets:select(Tab, MS, NObjs)) end
end,
PreFun = fun(_) -> ets:safe_fixtable(Tab, true) end,
PostFun = fun() -> ets:safe_fixtable(Tab, false) end,
InfoFun = fun(Tag) -> table_info(Tab, Tag) end,
KeyEquality = case ets:info(Tab, type) of
ordered_set -> '==';
_ -> '=:='
end,
LookupFun =
case Traverse of
{select, _MS} ->
undefined;
_ ->
fun(_Pos, [K]) ->
ets:lookup(Tab, K);
(_Pos, Ks) ->
lists:flatmap(fun(K) -> ets:lookup(Tab, K)
end, Ks)
end
end,
FormatFun =
fun({all, _NElements, _ElementFun}) ->
As = [Tab | [Opts || _ <- [[]], Opts =/= []]],
{?MODULE, table, As};
({match_spec, MS}) ->
{?MODULE, table,
[Tab, [{traverse, {select, MS}} |
listify(Opts)]]};
({lookup, _KeyPos, [Value], _NElements, ElementFun}) ->
io_lib:format("~w:lookup(~w, ~w)",
[?MODULE, Tab, ElementFun(Value)]);
({lookup, _KeyPos, Values, _NElements, ElementFun}) ->
Vals = [ElementFun(V) || V <- Values],
io_lib:format("lists:flatmap(fun(V) -> "
"~w:lookup(~w, V) end, ~w)",
[?MODULE, Tab, Vals])
end,
qlc:table(TF, [{pre_fun, PreFun}, {post_fun, PostFun},
{info_fun, InfoFun}, {format_fun, FormatFun},
{key_equality, KeyEquality},
{lookup_fun, LookupFun}] ++ QlcOptions)
end.
table_info(Tab, num_of_objects) ->
ets:info(Tab, size);
table_info(Tab, keypos) ->
ets:info(Tab, keypos);
table_info(Tab, is_unique_objects) ->
ets:info(Tab, type) =/= duplicate_bag;
table_info(Tab, is_sorted_key) ->
ets:info(Tab, type) =:= ordered_set;
table_info(_Tab, _) ->
undefined.
qlc_next(_Tab, '$end_of_table') ->
[];
qlc_next(Tab, Key) ->
ets:lookup(Tab, Key) ++ fun() -> qlc_next(Tab, ets:next(Tab, Key)) end.
qlc_prev(_Tab, '$end_of_table') ->
[];
qlc_prev(Tab, Key) ->
ets:lookup(Tab, Key) ++ fun() -> qlc_prev(Tab, ets:prev(Tab, Key)) end.
qlc_select('$end_of_table') ->
[];
qlc_select({Objects, Cont}) ->
Objects ++ fun() -> qlc_select(ets:select(Cont)) end.
options(Options, Keys) when is_list(Options) ->
options(Options, Keys, []);
options(Option, Keys) ->
options([Option], Keys, []).
options(Options, [Key | Keys], L) when is_list(Options) ->
V = case lists:keyfind(Key, 1, Options) of
{n_objects, default} ->
{ok, default_option(Key)};
{n_objects, NObjs} when is_integer(NObjs), NObjs >= 1 ->
{ok, NObjs};
{traverse, select} ->
{ok, select};
{traverse, {select, _MS} = Select} ->
{ok, Select};
{traverse, first_next} ->
{ok, first_next};
{traverse, last_prev} ->
{ok, last_prev};
{Key, _} ->
badarg;
false ->
Default = default_option(Key),
{ok, Default}
end,
case V of
badarg ->
{badarg, Key};
{ok,Value} ->
NewOptions = lists:keydelete(Key, 1, Options),
options(NewOptions, Keys, [Value | L])
end;
options(Options, [], L) ->
[lists:reverse(L), Options].
default_option(traverse) -> select;
default_option(n_objects) -> 100.
listify(L) when is_list(L) ->
L;
listify(T) ->
[T].
%% End of table/2.
%% Print info about all tabs on the tty
-spec i() -> 'ok'.
i() ->
hform('id', 'name', 'type', 'size', 'mem', 'owner'),
io:format(" -------------------------------------"
"---------------------------------------\n"),
lists:foreach(fun prinfo/1, tabs()),
ok.
tabs() ->
lists:sort(ets:all()).
prinfo(Tab) ->
case catch prinfo2(Tab) of
{'EXIT', _} ->
io:format("~-10s ... unreadable \n", [to_string(Tab)]);
ok ->
ok
end.
prinfo2(Tab) ->
Name = ets:info(Tab, name),
Type = ets:info(Tab, type),
Size = ets:info(Tab, size),
Mem = ets:info(Tab, memory),
Owner = ets:info(Tab, owner),
hform(Tab, Name, Type, Size, Mem, is_reg(Owner)).
is_reg(Owner) ->
case process_info(Owner, registered_name) of
{registered_name, Name} -> Name;
_ -> Owner
end.
%%% Arndt: this code used to truncate over-sized fields. Now it
%%% pushes the remaining entries to the right instead, rather than
%%% losing information.
hform(A0, B0, C0, D0, E0, F0) ->
[A,B,C,D,E,F] = [to_string(T) || T <- [A0,B0,C0,D0,E0,F0]],
A1 = pad_right(A, 15),
B1 = pad_right(B, 17),
C1 = pad_right(C, 5),
D1 = pad_right(D, 6),
E1 = pad_right(E, 8),
%% no need to pad the last entry on the line
io:format(" ~s ~s ~s ~s ~s ~s\n", [A1,B1,C1,D1,E1,F]).
pad_right(String, Len) ->
if
length(String) >= Len ->
String;
true ->
[Space] = " ",
String ++ lists:duplicate(Len - length(String), Space)
end.
to_string(X) ->
lists:flatten(io_lib:format("~p", [X])).
%% view a specific table
-spec i(Tab) -> 'ok' when
Tab :: tab().
i(Tab) ->
i(Tab, 40).
-spec i(tab(), pos_integer()) -> 'ok'.
i(Tab, Height) ->
i(Tab, Height, 80).
-spec i(tab(), pos_integer(), pos_integer()) -> 'ok'.
i(Tab, Height, Width) ->
First = ets:first(Tab),
display_items(Height, Width, Tab, First, 1, 1).
display_items(Height, Width, Tab, '$end_of_table', Turn, Opos) ->
P = 'EOT (q)uit (p)Digits (k)ill /Regexp -->',
choice(Height, Width, P, eot, Tab, '$end_of_table', Turn, Opos);
display_items(Height, Width, Tab, Key, Turn, Opos) when Turn < Height ->
do_display(Height, Width, Tab, Key, Turn, Opos);
display_items(Height, Width, Tab, Key, Turn, Opos) when Turn >= Height ->
P = '(c)ontinue (q)uit (p)Digits (k)ill /Regexp -->',
choice(Height, Width, P, normal, Tab, Key, Turn, Opos).
choice(Height, Width, P, Mode, Tab, Key, Turn, Opos) ->
case get_line(P, "c\n") of
"c\n" when Mode =:= normal ->
do_display(Height, Width, Tab, Key, 1, Opos);
"c\n" when is_tuple(Mode), element(1, Mode) =:= re ->
{re, Re} = Mode,
re_search(Height, Width, Tab, Key, Re, 1, Opos);
"q\n" ->
ok;
"k\n" ->
ets:delete(Tab),
ok;
[$p|Digs] ->
catch case catch list_to_integer(nonl(Digs)) of
{'EXIT', _} ->
io:put_chars("Bad digits\n");
Number when Mode =:= normal ->
print_number(Tab, ets:first(Tab), Number);
Number when Mode =:= eot ->
print_number(Tab, ets:first(Tab), Number);
Number -> %% regexp
{re, Re} = Mode,
print_re_num(Tab, ets:first(Tab), Number, Re)
end,
choice(Height, Width, P, Mode, Tab, Key, Turn, Opos);
[$/|Regexp] -> %% from regexp
case re:compile(nonl(Regexp)) of
{ok,Re} ->
re_search(Height, Width, Tab, ets:first(Tab), Re, 1, 1);
{error,{ErrorString,_Pos}} ->
io:format("~ts\n", [ErrorString]),
choice(Height, Width, P, Mode, Tab, Key, Turn, Opos)
end;
_ ->
choice(Height, Width, P, Mode, Tab, Key, Turn, Opos)
end.
get_line(P, Default) ->
case line_string(io:get_line(P)) of
"\n" ->
Default;
L ->
L
end.
%% If the standard input is set to binary mode
%% convert it to a list so we can properly match.
line_string(Binary) when is_binary(Binary) -> unicode:characters_to_list(Binary);
line_string(Other) -> Other.
nonl(S) -> string:strip(S, right, $\n).
print_number(Tab, Key, Num) ->
Os = ets:lookup(Tab, Key),
Len = length(Os),
if
(Num - Len) < 1 ->
O = lists:nth(Num, Os),
io:format("~p~n", [O]); %% use ppterm here instead
true ->
print_number(Tab, ets:next(Tab, Key), Num - Len)
end.
do_display(Height, Width, Tab, Key, Turn, Opos) ->
Objs = ets:lookup(Tab, Key),
do_display_items(Height, Width, Objs, Opos),
Len = length(Objs),
display_items(Height, Width, Tab, ets:next(Tab, Key), Turn+Len, Opos+Len).
do_display_items(Height, Width, [Obj|Tail], Opos) ->
do_display_item(Height, Width, Obj, Opos),
do_display_items(Height, Width, Tail, Opos+1);
do_display_items(_Height, _Width, [], Opos) ->
Opos.
do_display_item(_Height, Width, I, Opos) ->
L = to_string(I),
L2 = if
length(L) > Width - 8 ->
string:substr(L, 1, Width-13) ++ " ...";
true ->
L
end,
io:format("<~-4w> ~s~n", [Opos,L2]).
re_search(Height, Width, Tab, '$end_of_table', Re, Turn, Opos) ->
P = 'EOT (q)uit (p)Digits (k)ill /Regexp -->',
choice(Height, Width, P, {re, Re}, Tab, '$end_of_table', Turn, Opos);
re_search(Height, Width, Tab, Key, Re, Turn, Opos) when Turn < Height ->
re_display(Height, Width, Tab, Key, ets:lookup(Tab, Key), Re, Turn, Opos);
re_search(Height, Width, Tab, Key, Re, Turn, Opos) ->
P = '(c)ontinue (q)uit (p)Digits (k)ill /Regexp -->',
choice(Height, Width, P, {re, Re}, Tab, Key, Turn, Opos).
re_display(Height, Width, Tab, Key, [], Re, Turn, Opos) ->
re_search(Height, Width, Tab, ets:next(Tab, Key), Re, Turn, Opos);
re_display(Height, Width, Tab, Key, [H|T], Re, Turn, Opos) ->
Str = to_string(H),
case re:run(Str, Re, [{capture,none}]) of
match ->
do_display_item(Height, Width, H, Opos),
re_display(Height, Width, Tab, Key, T, Re, Turn+1, Opos+1);
nomatch ->
re_display(Height, Width, Tab, Key, T, Re, Turn, Opos)
end.
print_re_num(_,'$end_of_table',_,_) -> ok;
print_re_num(Tab, Key, Num, Re) ->
Os = re_match(ets:lookup(Tab, Key), Re),
Len = length(Os),
if
(Num - Len) < 1 ->
O = lists:nth(Num, Os),
io:format("~p~n", [O]); %% use ppterm here instead
true ->
print_re_num(Tab, ets:next(Tab, Key), Num - Len, Re)
end.
re_match([], _) -> [];
re_match([H|T], Re) ->
case re:run(to_string(H), Re, [{capture,none}]) of
match ->
[H|re_match(T,Re)];
nomatch ->
re_match(T, Re)
end.