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authorErlang/OTP <[email protected]>2009-11-20 14:54:40 +0000
committerErlang/OTP <[email protected]>2009-11-20 14:54:40 +0000
commit84adefa331c4159d432d22840663c38f155cd4c1 (patch)
treebff9a9c66adda4df2106dfd0e5c053ab182a12bd /lib/tv/src/tv_db.erl
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The R13B03 release.OTP_R13B03
Diffstat (limited to 'lib/tv/src/tv_db.erl')
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diff --git a/lib/tv/src/tv_db.erl b/lib/tv/src/tv_db.erl
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+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 1997-2009. All Rights Reserved.
+%%
+%% The contents of this file are subject to the Erlang Public License,
+%% Version 1.1, (the "License"); you may not use this file except in
+%% compliance with the License. You should have received a copy of the
+%% Erlang Public License along with this software. If not, it can be
+%% retrieved online at http://www.erlang.org/.
+%%
+%% Software distributed under the License is distributed on an "AS IS"
+%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+%% the License for the specific language governing rights and limitations
+%% under the License.
+%%
+%% %CopyrightEnd%
+%%%*********************************************************************
+%%%
+%%% Description: Module handling the internal database in the table tool.
+%%%
+%%%*********************************************************************
+
+-module(tv_db).
+
+
+
+-export([dbs/2]).
+
+
+
+-include("tv_int_def.hrl").
+-include("tv_int_msg.hrl").
+-include("tv_db_int_def.hrl").
+
+
+
+
+
+
+
+%%%*********************************************************************
+%%% EXTERNAL FUNCTIONS
+%%%*********************************************************************
+
+
+
+
+dbs(Master, ErrMsgMode) ->
+ process_flag(trap_exit, true),
+ put(error_msg_mode, ErrMsgMode),
+ ProcVars = #process_variables{master_pid = Master},
+ blocked(ProcVars).
+
+
+
+
+
+
+%%%********************************************************************
+%%% INTERNAL FUNCTIONS
+%%%********************************************************************
+
+
+
+blocked(ProcVars) ->
+ receive
+ Msg ->
+ case Msg of
+
+ #dbs_deblock{} ->
+ deblock(Msg, ProcVars, false);
+
+ {error_msg_mode, Mode} ->
+ put(error_msg_mode, Mode),
+ blocked(ProcVars);
+
+ {'EXIT', Pid, Reason} ->
+ MasterPid = ProcVars#process_variables.master_pid,
+ exit_signals({Pid, Reason}, MasterPid),
+ blocked(ProcVars);
+
+ _Other ->
+ blocked(ProcVars)
+ end
+ end.
+
+
+
+
+
+
+
+deblock(Msg, ProcVars, SearchWinCreated) ->
+ #dbs_deblock{sender = Sender,
+ etsread_pid = EtsreadPid,
+ type = Type,
+ keypos = KeyPos,
+ sublist_length = SublistLength} = Msg,
+
+ NewDbData = #db_data{subset_size = SublistLength,
+ subset_pos = 1,
+ key_no = KeyPos,
+ ets_type = Type
+ },
+ NewProcVars = ProcVars#process_variables{db_data = NewDbData,
+ etsread_pid = EtsreadPid},
+ Sender ! #dbs_deblock_cfm{sender = self()},
+ deblocked_loop(NewProcVars, SearchWinCreated, [], undefined).
+
+
+
+
+
+
+
+
+deblocked_loop(ProcVars, SearchWinCreated, SearchData, RegExp) ->
+ receive
+ Msg ->
+ case Msg of
+
+ {gs,entry,keypress,_Data,['Return' | _T]} ->
+ NewSearchData = search_object(ProcVars, RegExp),
+ deblocked_loop(ProcVars, SearchWinCreated, NewSearchData, RegExp);
+
+ {gs,entry,keypress,_Data,['Tab' | _T]} ->
+ gs:config(entry, [{select, {0,1000}}]),
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, RegExp);
+
+ {gs,entry,keypress,_Data,_Args} ->
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, RegExp);
+
+ {gs,expr_term,click,_Data,_Args} ->
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, false);
+
+ {gs,expr_regexp,click,_Data,_Args} ->
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, true);
+
+ {gs,search,click,_Data,_Args} ->
+ NewSearchData = search_object(ProcVars, RegExp),
+ deblocked_loop(ProcVars, SearchWinCreated, NewSearchData, RegExp);
+
+ {gs,cancel,click,cancel,_Args} ->
+ tv_db_search:destroy_window(SearchWinCreated),
+ deblocked_loop(ProcVars, false, [], RegExp);
+
+ {gs,listbox,click,_LbData,[Idx | _T]} when SearchData =/= [] ->
+ tv_db_search:mark_busy(SearchWinCreated),
+ {Row,_Obj} = lists:nth(Idx+1, SearchData),
+ DbData = ProcVars#process_variables.db_data,
+ %% Never allow 'subset_pos' to have zero as value!
+ %% No list can begin with the 0:th element!!!
+ %% Has to be at least 1!
+ NewDbData = DbData#db_data{subset_pos=?COMM_FUNC_FILE:max(1,
+ Row),
+ subset_size=?ITEMS_TO_DISPLAY},
+ NewProcVars = ProcVars#process_variables{db_data=NewDbData},
+ send_subset(NewProcVars, undefined, undefined),
+ tv_db_search:mark_nonbusy(SearchWinCreated),
+ deblocked_loop(NewProcVars, SearchWinCreated, SearchData, RegExp);
+
+ {gs,win,configure,_Data,_Args} ->
+ tv_db_search:resize_window(SearchWinCreated),
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, RegExp);
+
+ {gs,win,destroy,_Data,_Args} ->
+ deblocked_loop(ProcVars, false, [], RegExp);
+
+
+ #dbs_new_data{data = NewData, keys = ListOfKeys,
+ time_to_read_table = ElapsedTimeEtsread} ->
+ tv_db_search:reset_window(SearchWinCreated),
+ T1 = time(),
+ NewProcVars = update_db(NewData, ListOfKeys, ProcVars),
+ T2 = time(),
+ ElapsedTimeDbs = compute_elapsed_seconds(T1, T2),
+ send_subset(NewProcVars, ElapsedTimeEtsread, ElapsedTimeDbs),
+ deblocked_loop(NewProcVars, SearchWinCreated, [], RegExp);
+
+ #dbs_subset_req{subset_pos = Pos,subset_length = Length} ->
+ DbData = ProcVars#process_variables.db_data,
+ %% Never allow 'subset_pos' to have zero as value!
+ %% No list can begin with the 0:th element!!!
+ %% Has to be at least 1!
+ NewDbData = DbData#db_data{subset_pos=?COMM_FUNC_FILE:max(1,
+ Pos),
+ subset_size=Length},
+ NewProcVars = ProcVars#process_variables{db_data = NewDbData},
+ send_subset(NewProcVars, undefined, undefined),
+ deblocked_loop(NewProcVars, SearchWinCreated, SearchData, RegExp);
+
+ #dbs_marked_row{row_no = RowNo} ->
+ DbData = ProcVars#process_variables.db_data,
+ NewDbData = DbData#db_data{requested_row = RowNo},
+ NewProcVars = ProcVars#process_variables{db_data = NewDbData},
+ deblocked_loop(NewProcVars, SearchWinCreated, SearchData, RegExp);
+
+ #dbs_search_req{} ->
+ tv_db_search:create_window(SearchWinCreated),
+ deblocked_loop(ProcVars, true, SearchData, false);
+
+ #dbs_sorting_mode{} ->
+ {NewProcVars, NewSearchData} =
+ update_sorting_mode(Msg, ProcVars,
+ SearchWinCreated, SearchData, RegExp),
+ deblocked_loop(NewProcVars, SearchWinCreated, NewSearchData, RegExp);
+
+ #dbs_deblock{} ->
+ tv_db_search:reset_window(SearchWinCreated),
+ deblock(Msg, ProcVars, SearchWinCreated);
+
+ #dbs_updated_object{object=Obj,old_object=OldObj,old_color=Color,obj_no=ObjNo} ->
+ {Success, NewProcVars} = update_object(Obj, OldObj, Color, ObjNo, ProcVars),
+ case Success of
+ true ->
+ tv_db_search:reset_window(SearchWinCreated),
+ send_subset(NewProcVars, undefined, undefined);
+ false ->
+ done
+ end,
+ deblocked_loop(NewProcVars, SearchWinCreated, SearchData, RegExp);
+
+ #dbs_new_object{object=Obj} ->
+ {Success, NewProcVars} = new_object(Obj, ProcVars),
+ case Success of
+ true ->
+ tv_db_search:reset_window(SearchWinCreated),
+ send_subset(NewProcVars, undefined, undefined);
+ false ->
+ done
+ end,
+ deblocked_loop(NewProcVars, SearchWinCreated, SearchData, RegExp);
+
+ #dbs_delete_object{object=Obj, color=Color, obj_no=ObjNo} ->
+ {Success, NewProcVars} = delete_object(Obj, Color, ObjNo, ProcVars),
+ case Success of
+ true ->
+ tv_db_search:reset_window(SearchWinCreated),
+ send_subset(NewProcVars, undefined, undefined);
+ false ->
+ done
+ end,
+ deblocked_loop(NewProcVars, SearchWinCreated, SearchData, RegExp);
+
+ #pc_list_info{lists_as_strings=ListAsStr} ->
+ NewProcVars = ProcVars#process_variables{lists_as_strings=ListAsStr},
+ deblocked_loop(NewProcVars, SearchWinCreated, SearchData, RegExp);
+
+ {error_msg_mode, Mode} ->
+ put(error_msg_mode, Mode),
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, RegExp);
+
+ {'EXIT', Pid, Reason} ->
+ MasterPid = ProcVars#process_variables.master_pid,
+ exit_signals({Pid, Reason}, MasterPid),
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, RegExp);
+
+ _Other ->
+ %% io:format("Received message: ~w ~n", [_Other]),
+ deblocked_loop(ProcVars, SearchWinCreated, SearchData, RegExp)
+ end
+ end.
+
+
+
+
+
+
+
+search_object(ProcVars, RegExp) ->
+ DbData = ProcVars#process_variables.db_data,
+ DbList = dblist2list(DbData#db_data.db),
+ ListAsStr = ProcVars#process_variables.lists_as_strings,
+ case catch tv_db_search:get_input_and_search(DbList, RegExp, ListAsStr) of
+ {'EXIT', _Reason} ->
+ tv_db_search:reset_window(true),
+ [];
+ List ->
+ List
+ end.
+
+
+
+
+
+
+update_sorting_mode(Msg, ProcVars, SearchWinCreated, OldSearchData, RegExp) ->
+ #dbs_sorting_mode{sorting = Sorting,
+ reverse = Reverse,
+ sort_key_no = SortKeyNo} = Msg,
+
+ DbData = ProcVars#process_variables.db_data,
+
+ #db_data{db = DbList,
+ sorting = OldSorting,
+ rev_sorting = OldReverse,
+ sort_key_no = OldSortKeyNo} = DbData,
+
+
+ NewDbList = sort_db_list(DbList, Sorting, OldSorting, Reverse, OldReverse,
+ SortKeyNo, OldSortKeyNo),
+
+ NewDbData = DbData#db_data{db = NewDbList,
+ sorting = Sorting,
+ rev_sorting = Reverse,
+ sort_key_no = SortKeyNo
+ },
+
+ NewProcVars = ProcVars#process_variables{db_data = NewDbData},
+ send_subset(NewProcVars, undefined, undefined),
+
+ SearchData =
+ case Sorting of
+ false ->
+ OldSearchData;
+ OldSorting when Reverse =:= OldReverse,
+ SortKeyNo =:= OldSortKeyNo ->
+ [];
+ OldSorting when Reverse =:= OldReverse,
+ OldSortKeyNo =:= undefined->
+ [];
+ _Other ->
+ ListAsStr = ProcVars#process_variables.lists_as_strings,
+ case catch tv_db_search:update_search(SearchWinCreated,
+ NewDbList, RegExp,
+ ListAsStr) of
+ {'EXIT', _Reason} ->
+ tv_db_search:reset_window(true),
+ [];
+ List ->
+ List
+ end
+ end,
+
+ {NewProcVars, SearchData}.
+
+
+
+
+
+
+
+
+sort_db_list(DbList, Sort, Sort, Rev, Rev, KeyNo, KeyNo) ->
+ % Already sorted!
+ DbList;
+sort_db_list(DbList, false, _OldSort, _Rev, _OldRev, _KeyNo, _OldKeyNo) ->
+ % No sorting, i.e., the old list order suffices!
+ DbList;
+sort_db_list(DbList, _Sort, _OldSort, Rev, _OldRev, KeyNo, _OldKeyNo) ->
+ tv_db_sort:mergesort(KeyNo, DbList, Rev).
+
+
+
+
+
+
+
+send_subset(ProcVars, EtsreadTime, DbsTime) ->
+ #process_variables{master_pid = MasterPid,
+ db_data = DbData,
+ list_of_keys = ListOfKeys} = ProcVars,
+
+ #db_data{subset_size = SubsetSize,
+ subset_pos = SubsetPos,
+ requested_row = RowNo,
+ db_size = DbSize,
+ db = DbList,
+ max_elem_size = MaxElemSize} = DbData,
+
+
+ RowData = get_requested_row_data(RowNo, DbList),
+
+ if
+ DbSize > 0 ->
+ Pos = ?COMM_FUNC_FILE:min(SubsetPos, DbSize),
+ % Requested_data may be shorter than requested, but that's OK,
+ % pd handles that correctly!
+ Subset = lists:sublist(DbList, Pos, SubsetSize),
+ MasterPid ! #dbs_subset{sender = self(),
+ data = Subset,
+ subset_pos = Pos,
+ db_length = DbSize,
+ list_of_keys = ListOfKeys,
+ max_elem_size = MaxElemSize,
+ requested_row = RowData,
+ required_time_etsread = EtsreadTime,
+ required_time_dbs = DbsTime
+ };
+ true ->
+ MasterPid ! #dbs_subset{sender = self(),
+ data = [],
+ subset_pos = 1,
+ db_length = 0,
+ list_of_keys = ListOfKeys,
+ max_elem_size = MaxElemSize,
+ requested_row = RowData,
+ required_time_etsread = EtsreadTime,
+ required_time_dbs = DbsTime
+ }
+ end.
+
+
+
+
+
+get_requested_row_data(undefined, _DbList) ->
+ [];
+get_requested_row_data(_RowNo, []) ->
+ [];
+get_requested_row_data(RowNo, DbList) ->
+ case catch lists:nth(RowNo, DbList) of
+ {'EXIT', _Reason} ->
+ [];
+ RowData ->
+ [RowData]
+ end.
+
+
+
+
+exit_signals(ExitInfo, MasterPid) ->
+ case ExitInfo of
+ {MasterPid, _Reason} ->
+ % When from master, just quit!
+ exit(normal);
+ _Other ->
+ done
+ end.
+
+
+
+
+update_db(NewList, ListOfKeys, ProcVars) ->
+ DbData = ProcVars#process_variables.db_data,
+ #db_data{db = OldDbList,
+ max_elem_size = MaxElemSize,
+ deleted = DelList,
+ ets_type = EtsType,
+ sorting = Sorting,
+ rev_sorting = RevSorting,
+ sort_key_no = SortKeyNo,
+ key_no = KeyNo} = DbData,
+
+ DbList = update_colors(OldDbList -- DelList),
+ OldList = dblist2list(DbList),
+ InsOrUpd = (NewList -- OldList),
+ DelOrUpd = (OldList -- NewList),
+
+ {Inserted, Deleted, Updated} = group_difflists(basetype(EtsType), KeyNo,
+ InsOrUpd,
+ DelOrUpd),
+ DelMarked = mark_deleted(KeyNo, Deleted, DbList),
+ Replaced = replace_elements(KeyNo, Updated, DelMarked),
+ NewDbList = add_elements(KeyNo, Inserted, Replaced, Sorting, RevSorting,
+ SortKeyNo),
+
+ NewMaxSize = ?COMM_FUNC_FILE:max(MaxElemSize,
+ ?COMM_FUNC_FILE:max(max_size(Replaced),
+ max_size(Inserted))),
+
+ NewDbData = DbData#db_data{db = NewDbList,
+ db_size = length(NewDbList),
+ max_elem_size = NewMaxSize,
+ deleted = list2dblist(Deleted, ?BLACK)
+ },
+
+ ProcVars#process_variables{db_data = NewDbData,
+ list_of_keys = ListOfKeys
+ }.
+
+
+
+
+
+
+update_object(Obj, OldObj, OldColor, ObjNo, ProcVars) ->
+ #process_variables{db_data = DbData,
+ etsread_pid = EtsreadPid} = ProcVars,
+
+ #db_data{key_no = KeyNo} = DbData,
+
+ %% Don't update if there are no changes!
+ case OldObj of
+ Obj when OldColor =/= ?BLACK -> %% Allow deleted objects to be inserted!
+ gs:window(dbwin, gs:start(), []),
+ case get(error_msg_mode) of
+ normal ->
+ tv_utils:notify(dbwin, "TV Notification", ["The object is unchanged!"]);
+ haiku ->
+ tv_utils:notify(dbwin, "TV Notification",
+ ["Stay the patient course,",
+ "Of little worth is your ire:",
+ "The object's unchanged." ])
+ end,
+ gs:destroy(dbwin),
+ {false, ProcVars};
+ _Other ->
+ %% Before we try to update the internal database, we have to check to see
+ %% whether the ETS/Mnesia update is allowed!
+ Result =
+ case OldColor of
+ ?BLACK ->
+ EtsreadPid ! #etsread_new_object{sender = self(),
+ object = Obj},
+ receive
+ #etsread_new_object_cfm{success = Success} ->
+ Success
+ after
+ 60000 ->
+ exit(etsread_not_responding)
+ end;
+ _OtherColor ->
+ EtsreadPid ! #etsread_update_object{sender = self(),
+ key_no = KeyNo,
+ object = Obj,
+ old_object = OldObj},
+ receive
+ #etsread_update_object_cfm{success = Success} ->
+ Success
+ after
+ 60000 ->
+ exit(etsread_not_responding)
+ end
+ end,
+ case Result of
+ false ->
+ gs:window(dbwin, gs:start(), [beep]),
+ case get(error_msg_mode) of
+ normal ->
+ tv_utils:notify(dbwin, "TV Notification",
+ ["Couldn't update table!"]);
+ haiku ->
+ tv_utils:notify(dbwin, "TV Notification",
+ ["Three things are certain:",
+ "Death, taxes, and lost updates.",
+ "Guess which has occurred."])
+ end,
+ gs:destroy(dbwin),
+ {false, ProcVars};
+ true ->
+ {true, update_object2(Obj, OldObj, OldColor, ObjNo, ProcVars)}
+ end
+ end.
+
+
+
+
+
+update_object2(Obj, OldObj, OldColor, ObjNo, ProcVars) ->
+ #process_variables{db_data = DbData} = ProcVars,
+
+ #db_data{db = DbList,
+ ets_type = EtsType, %% 'bag', 'set', 'ordered_set' or
+ %% 'duplicate_bag'
+ max_elem_size = MaxElemSize,
+ sorting = Sorting,
+ rev_sorting = RevSorting,
+ sort_key_no = SortKeyNo,
+ key_no = KeyNo} = DbData,
+
+ %% Replace the old element...
+ Key = element(KeyNo, Obj),
+ OldKey = element(KeyNo, OldObj),
+ %% If Key == OldKey, the old object shall only be replaced!
+ %% Otherwise the updated object shall be treated as a new
+ %% object when inserting it in the list!
+ %% In that latter case, we also have to check for duplicates!
+
+ Fun =
+ case basetype(EtsType) of
+ set ->
+ case Key of
+ OldKey ->
+ fun({Data,Color}, {Replaced,AccDb}) when element(KeyNo,Data) =/= Key ->
+ {Replaced, [{Data,Color} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ OldColor =:= ?BLACK,
+ Color =:= ?BLACK ->
+ {true, [{Obj,?RED1} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ OldColor =/= ?BLACK,
+ Color =/= ?BLACK ->
+ {true, [{Obj,?GREEN1} | AccDb]};
+ ({_Data,_Color}, {Replaced,AccDb}) ->
+ {Replaced, AccDb}
+ end;
+ _NewKey ->
+ fun({Data,Color}, {Replaced,AccDb}) ->
+ ElemKey = element(KeyNo,Data),
+ case ElemKey of
+ OldKey when not Replaced,
+ OldColor =:= ?BLACK,
+ Color =:= ?BLACK ->
+ {true, [{Obj,?RED1} | AccDb]};
+ OldKey when not Replaced,
+ OldColor =/= ?BLACK,
+ Color =/= ?BLACK ->
+ {true, [{Obj,?GREEN1} | AccDb]};
+ OldKey ->
+ {Replaced, AccDb};
+ Key ->
+ {Replaced, AccDb};
+ _OtherKey ->
+ {Replaced, [{Data,Color} | AccDb]}
+ end
+ end
+ end;
+
+ bag ->
+ case Key of
+ OldKey ->
+ fun({Data,_Color}, {Replaced,AccDb}) when Data =:= Obj ->
+ {Replaced, AccDb};
+ ({Data,Color}, {Replaced,AccDb}) when Data =/= OldObj ->
+ {Replaced, [{Data,Color} | AccDb]};
+ %% Clauses when Data =:= OldObj.
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ OldColor =:= ?BLACK,
+ Color =:= ?BLACK ->
+ {true, [{Obj,?RED1} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ OldColor =/= ?BLACK,
+ Color =/= ?BLACK ->
+ {true, [{Obj,Color} | AccDb]};
+ ({_Data,_Color}, {Replaced,AccDb}) ->
+ {Replaced, AccDb}
+ end;
+ _NewKey ->
+ fun({Data,Color}, {Replaced,AccDb}) when Data =:= OldObj,
+ not Replaced,
+ OldColor =:= ?BLACK,
+ Color =:= ?BLACK ->
+ {true, [{Obj,?RED1} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) when Data =:= OldObj,
+ not Replaced,
+ OldColor =/= ?BLACK,
+ Color =/= ?BLACK ->
+ {true, [{Obj,?GREEN1} | AccDb]};
+ ({Data,_Color}, {Replaced,AccDb}) when Data =:= OldObj ->
+ {Replaced, AccDb};
+ ({Data,_Color}, {Replaced,AccDb}) when Data =:= Obj ->
+ {Replaced, AccDb};
+ ({Data,Color}, {Replaced,AccDb}) ->
+ {Replaced, [{Data,Color} | AccDb]}
+ end
+ end;
+
+ duplicate_bag ->
+ %% Multiple identical objects allowed, meaning that we shall not
+ %% remove anything, just replace one element.
+ case Key of
+ OldKey ->
+ fun({Data,Color}, {Replaced,AccDb}) when Data =:= Obj ->
+ {Replaced, [{Data,Color} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) when Data =/= OldObj ->
+ {Replaced, [{Data,Color} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ OldColor =:= ?BLACK,
+ Color =:= ?BLACK ->
+ {true, [{Obj,?RED1} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ OldColor =/= ?BLACK,
+ Color =/= ?BLACK ->
+ {true, [{Obj,Color} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) ->
+ {Replaced, [{Data,Color} | AccDb]}
+ end;
+ _NewKey ->
+ fun({Data,Color}, {Replaced,AccDb}) when Data =:= OldObj,
+ not Replaced,
+ OldColor =:= ?BLACK,
+ Color =:= ?BLACK ->
+ {true, [{Obj,?RED1} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) when Data =:= OldObj,
+ not Replaced,
+ OldColor =/= ?BLACK,
+ Color =/= ?BLACK ->
+ {true, [{Obj,?GREEN1} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) when Data =:= OldObj ->
+ {Replaced, [{Data,Color} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) when Data =:= Obj ->
+ {Replaced, [{Data,Color} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) ->
+ {Replaced, [{Data,Color} | AccDb]}
+ end
+ end
+ end,
+
+ FilterFun = fun(Acc0, L) ->
+ lists:foldl(Fun, Acc0, L)
+ end,
+
+
+ {Repl, TmpList} =
+ case split(ObjNo, DbList) of
+ {L1, [{OldObj,OldColor} | T]} when OldColor =/= ?BLACK ->
+ {true,
+ lists:reverse(element(2, FilterFun({true,[]}, L1))) ++
+ [{Obj,?GREEN1} | lists:reverse(element(2, FilterFun({true,[]},T)))]};
+ {L1, [{OldObj,OldColor} | T]} ->
+ {true,
+ lists:reverse(element(2, FilterFun({true,[]}, L1))) ++
+ [{Obj,?RED1} | lists:reverse(element(2, FilterFun({true,[]}, T)))]};
+ {L1, L2} ->
+ {R1, NewL1} = FilterFun({false,[]}, L1),
+ {R2, NewL2} = FilterFun({false,[]}, L2),
+ {R1 or R2, lists:reverse(NewL1) ++ lists:reverse(NewL2)}
+ end,
+
+ NewDbList =
+ case Repl of
+ true when not Sorting ->
+ TmpList;
+ true ->
+ tv_db_sort:mergesort(SortKeyNo, TmpList, RevSorting);
+ false ->
+ TmpList2 =
+ case Key of
+ OldKey ->
+ lists:reverse(element(2, FilterFun({false,[]}, TmpList)));
+ _OtherKey ->
+ lists:reverse(element(2, FilterFun({true,[]}, TmpList))) ++
+ [{Obj,?RED1}]
+ end,
+ case Sorting of
+ false ->
+ TmpList2;
+ true ->
+ tv_db_sort:mergesort(SortKeyNo, TmpList2, RevSorting)
+ end
+ end,
+ NewMaxSize = ?COMM_FUNC_FILE:max(MaxElemSize, max_size([Obj])),
+ NewDbData = DbData#db_data{db = NewDbList,
+ db_size = length(NewDbList),
+ max_elem_size = NewMaxSize
+ },
+ ProcVars#process_variables{db_data = NewDbData}.
+
+
+
+
+
+delete_object(_Obj, ?BLACK, _ObjNo, ProcVars) ->
+ %% Don't delete already deleted objects!!!
+ {false, ProcVars};
+delete_object(undefined, undefined, _ObjNo, ProcVars) ->
+ {false, ProcVars};
+delete_object(Obj, _ObjColor, ObjNo, ProcVars) ->
+ #process_variables{db_data = DbData,
+ etsread_pid = EtsreadPid} = ProcVars,
+
+ #db_data{db = DbList,
+ deleted = OldDeleted} = DbData,
+
+ %% Before we try to update the internal database, we have to check to see
+ %% whether the ETS/Mnesia update is allowed!
+ EtsreadPid ! #etsread_delete_object{sender = self(),
+ object = Obj},
+ Result =
+ receive
+ #etsread_delete_object_cfm{success = Success} ->
+ Success
+ after
+ 60000 ->
+ exit(etsread_not_responding)
+ end,
+
+ case Result of
+ false ->
+ gs:window(dbwin, gs:start(), [beep]),
+ case get(error_msg_mode) of
+ normal ->
+ tv_utils:notify(dbwin, "TV Notification",
+ ["Couldn't update table!"]);
+ haiku ->
+ tv_utils:notify(dbwin, "TV Notification",
+ ["Three things are certain:",
+ "Death, taxes, and lost updates.",
+ "Guess which has occurred."])
+ end,
+ gs:destroy(dbwin),
+ {false, ProcVars};
+ true ->
+ %% Replace the old element...
+ %% Have to beware of duplicate_bag tables,
+ %% i.e., the same object may occur more than
+ %% once, but we only want to remove it once!
+ {Repl, TmpList} =
+ case split(ObjNo, DbList) of
+ {L1, [{Obj,_Color} | T]} ->
+ {true, L1 ++ [{Obj,?BLACK} | T]};
+ {L1, L2} ->
+ {false, L1 ++ L2}
+ end,
+ NewDbList =
+ case Repl of
+ true ->
+ TmpList;
+ false ->
+ Fun = fun({Data,TmpColor},
+ {Removed,AccDb}) when Data =/= Obj ->
+ {Removed, [{Data,TmpColor} | AccDb]};
+ ({_Data,TmpColor},
+ {Removed,AccDb}) when not Removed, TmpColor =/= ?BLACK ->
+ {true, [{Obj,?BLACK} | AccDb]};
+ ({Data,TmpColor},
+ {Removed,AccDb}) ->
+ {Removed, [{Data,TmpColor} | AccDb]}
+ end,
+ lists:reverse(element(2, lists:foldl(Fun, {false,[]}, DbList)))
+ end,
+ NewDbData = DbData#db_data{db = NewDbList,
+ db_size = length(NewDbList),
+ deleted = [{Obj,?BLACK} | OldDeleted]},
+ {true, ProcVars#process_variables{db_data = NewDbData}}
+ end.
+
+
+
+
+
+new_object(Obj, ProcVars) ->
+ #process_variables{db_data = DbData,
+ etsread_pid = EtsreadPid} = ProcVars,
+
+ #db_data{db = DbList,
+ max_elem_size = MaxElemSize,
+ ets_type = EtsType, %% 'bag', 'set' or 'duplicate_bag'
+ sorting = Sorting,
+ rev_sorting = RevSorting,
+ sort_key_no = SortKeyNo,
+ key_no = KeyNo} = DbData,
+
+ %% Before we try to update the internal database, we have to check to see
+ %% whether the ETS/Mnesia update is allowed!
+ EtsreadPid ! #etsread_new_object{sender = self(),
+ object = Obj},
+ Result =
+ receive
+ #etsread_new_object_cfm{success = Success} ->
+ Success
+ after
+ 60000 ->
+ exit(etsread_not_responding)
+ end,
+
+ case Result of
+ false ->
+ gs:window(dbwin, gs:start(), [beep]),
+ case get(error_msg_mode) of
+ normal ->
+ tv_utils:notify(dbwin, "TV Notification",
+ ["Couldn't update table!"]);
+ haiku ->
+ tv_utils:notify(dbwin, "TV Notification",
+ ["Three things are certain:",
+ "Death, taxes, and lost updates.",
+ "Guess which has occurred."])
+ end,
+ gs:destroy(dbwin),
+ {false, ProcVars};
+ true ->
+ Key = element(KeyNo, Obj),
+ NewDbList = insert_new_object(EtsType, Key, KeyNo, Obj, DbList, Sorting,
+ RevSorting, SortKeyNo),
+ NewMaxSize = ?COMM_FUNC_FILE:max(MaxElemSize, max_size([Obj])),
+ NewDbData = DbData#db_data{db = NewDbList,
+ db_size = length(NewDbList),
+ max_elem_size = NewMaxSize
+ },
+ {true, ProcVars#process_variables{db_data = NewDbData}}
+ end.
+
+
+
+
+
+insert_new_object(EtsType,Key,KeyNo,Obj,DbList,Sorting,RevSorting,SortKeyNo) ->
+ %% Remove elements from the list that ought not to be there,
+ %% according to the table type!
+
+ Fun =
+ case basetype(EtsType) of
+ set ->
+ fun({Data,Color}, {Replaced,AccDb}) when element(KeyNo,Data) =/= Key ->
+ {Replaced, [{Data,Color} | AccDb]};
+ ({Data,Color}, {Replaced,AccDb}) when not Replaced,
+ Color =/= ?BLACK,
+ Data =/= Obj->
+ {true, [{Obj,?GREEN1} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ Color =/= ?BLACK ->
+ {true, [{Obj,Color} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ Color =:= ?BLACK ->
+ {true, [{Obj, ?RED1} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when Replaced,
+ Color =:= ?BLACK ->
+ {false, AccDb};
+ ({_Data,_Color}, {Replaced,AccDb}) ->
+ {Replaced, AccDb}
+ end;
+ bag ->
+ fun({Data,Color}, {Replaced,AccDb}) when Data =/= Obj ->
+ {Replaced, [{Data,Color} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ Color =/= ?BLACK ->
+ {true, [{Obj,Color} | AccDb]};
+ ({_Data,Color}, {Replaced,AccDb}) when Replaced,
+ Color =/= ?BLACK ->
+ {true, AccDb};
+ ({_Data,Color}, {Replaced,AccDb}) when Replaced,
+ Color =:= ?BLACK ->
+ {true, AccDb};
+ ({_Data,Color}, {Replaced,AccDb}) when not Replaced,
+ Color =:= ?BLACK ->
+ {true, [{Obj, ?RED1} | AccDb]};
+ ({_Data,_Color}, {Replaced,AccDb}) ->
+ {Replaced, AccDb}
+ end;
+ duplicate_bag ->
+ %% The fun is never called if the type is duplicate_bag,
+ %% because all we have to do with new elements is to insert
+ %% them (multiple identical objects allowed).
+ not_used
+ end,
+
+ FilterFun = fun(Acc0, L) ->
+ lists:foldl(Fun, Acc0, L)
+ end,
+
+ {_Replaced, TmpDbList} =
+ case EtsType of
+ duplicate_bag ->
+ {false, DbList};
+ _OtherType ->
+ {R,L} = FilterFun({false,[]}, DbList),
+ {R, lists:reverse(L)}
+ end,
+
+ case Sorting of
+ false ->
+ TmpDbList ++ [{Obj,?RED1}];
+ true ->
+ %% The original list is already sorted!
+ %% Just merge the two lists together!
+ tv_db_sort:merge(SortKeyNo, TmpDbList, [{Obj,?RED1}], RevSorting)
+ end.
+
+
+
+
+
+
+max_size([]) ->
+ 0;
+max_size(L) ->
+ max_size(L, 0).
+
+
+
+max_size([], CurrMax) ->
+ CurrMax;
+max_size([H | T], CurrMax) when is_tuple(H) ->
+ Size = size(H),
+ if
+ Size >= CurrMax ->
+ max_size(T, Size);
+ true ->
+ max_size(T, CurrMax)
+ end;
+max_size([_H | T], CurrMax) ->
+ Size = 1,
+ if
+ Size >= CurrMax ->
+ max_size(T, Size);
+ true ->
+ max_size(T, CurrMax)
+ end.
+
+
+
+
+
+add_elements(_KeyNo, Inserted, List, false, _RevSorting, _SortKeyNo) ->
+ % Remember that the order of the original list has to be preserved!
+ List ++ list2dblist(Inserted, ?RED1);
+add_elements(_KeyNo, Inserted, List, _Sorting, RevSorting, SortKeyNo) ->
+ % The original list is already sorted - sort the new elements, and
+ % just merge the two lists together!
+ SortedInsertedList = tv_db_sort:mergesort(SortKeyNo,
+ list2dblist(Inserted, ?RED1),
+ RevSorting),
+ tv_db_sort:merge(SortKeyNo, List, SortedInsertedList, RevSorting).
+
+
+
+
+
+ %% We assume the list already has been sorted, i.e., since the order won't
+ %% be changed by marking an element deleted, we DON'T have to sort the list
+ %% once again!
+
+mark_deleted(_KeyNo, [], List) ->
+ List;
+mark_deleted(KeyNo, [Data | T], List) ->
+ KeyValue = tv_db_sort:get_compare_value(KeyNo, Data),
+ NewList = mark_one_element_deleted(KeyNo, KeyValue, Data, List, []),
+ mark_deleted(KeyNo, T, NewList).
+
+
+
+
+
+
+
+
+mark_one_element_deleted(_KeyNo, _KeyValue, _Data, [], Acc) ->
+ Acc;
+mark_one_element_deleted(KeyNo, {tuple, KeyValue},
+ Data, [{DataTuple, Color} | Tail], Acc) ->
+ OldKeyValue = tv_db_sort:get_compare_value(KeyNo, DataTuple),
+ % Remember that the order of the original list has to be preserved!
+ if
+ OldKeyValue =:= {tuple, KeyValue} ->
+ Acc ++ [{Data, ?BLACK}] ++ Tail;
+ true ->
+ mark_one_element_deleted(KeyNo, {tuple, KeyValue}, Data, Tail,
+ Acc ++ [{DataTuple, Color}])
+ end;
+mark_one_element_deleted(KeyNo, _KeyValue, Data, [{DataTuple, Color} | Tail], Acc) ->
+ if
+ Data =:= DataTuple ->
+ Acc ++ [{Data, ?BLACK}] ++ Tail;
+ true ->
+ mark_one_element_deleted(KeyNo, _KeyValue, Data, Tail,
+ Acc ++ [{DataTuple, Color}])
+ end.
+
+
+
+
+
+
+
+ %% We assume the list already has been sorted, i.e., since the order won't
+ %% be changed by marking an element updated, we DON'T have to sort the list
+ %% once again!
+
+replace_elements(_KeyNo, [], List) ->
+ List;
+replace_elements(KeyNo, [Data | T], List) ->
+ KeyValue = tv_db_sort:get_compare_value(KeyNo, Data),
+ NewList = replace_one_element(KeyNo, KeyValue, Data, List, []),
+ replace_elements(KeyNo, T, NewList).
+
+
+
+
+
+
+
+replace_one_element(_KeyNo, _Key, _Data, [], Acc) ->
+ Acc;
+replace_one_element(KeyNo, {tuple, Key1}, Data, [{DataTuple, Color} | Tail], Acc) ->
+ Key2 = tv_db_sort:get_compare_value(KeyNo, DataTuple),
+ % Remember that the order of the original list has to be preserved!
+ if
+ Key2 =:= {tuple, Key1} ->
+ Acc ++ [{Data, ?GREEN1}] ++ Tail;
+ true ->
+ replace_one_element(KeyNo, {tuple, Key1}, Data, Tail,
+ Acc ++ [{DataTuple, Color}])
+ end;
+replace_one_element(_KeyNo, _KeyValue, _Data, [{DataTuple, Color} | Tail], Acc) ->
+ % Can't replace an element with no key!
+ Acc ++ [{DataTuple, Color} | Tail].
+
+
+
+
+
+
+
+
+group_difflists(bag, _KeyNo, Inserted, Deleted) ->
+ %% Since the ETS table is of bag type, no element can be updated, i.e.,
+ %% it can only be deleted and re-inserted, otherwise a new element will be added.
+ {Inserted, Deleted, []};
+group_difflists(duplicate_bag, _KeyNo, Inserted, Deleted) ->
+ %% Since the ETS table is of duplicate_bag type, no element can be updated, i.e.,
+ %% it can only be deleted and re-inserted, otherwise a new element will be added.
+ {Inserted, Deleted, []};
+group_difflists(set, _KeyNo, [], Deleted) ->
+ %% Updated elements have to be present in both lists, i.e., if one list is empty,
+ %% the other contains no updated elements - they are either inserted or deleted!
+ {[], Deleted, []};
+group_difflists(set, _KeyNo, Inserted, []) ->
+ {Inserted, [], []};
+group_difflists(set, KeyNo, InsOrUpd, DelOrUpd) ->
+ match_difflists(KeyNo, InsOrUpd, DelOrUpd, [], []).
+
+
+
+
+
+
+match_difflists(_KeyNo, [], Deleted, Inserted, Updated) ->
+ {Inserted, Deleted, Updated};
+match_difflists(KeyNo, [Data | T], DelOrUpd, InsAcc, UpdAcc) ->
+ % This function is only called in case of a 'set' ETS table.
+ % 'Set' type of ETS table means there are unique keys. If two elements in
+ % InsOrUpd and DelOrUpd have the same key, that element has been updated,
+ % and is added to the Updated list, and removed from the original two lists.
+ % After the two lists have been traversed in this way, the remaining elements
+ % in DelOrUpd forms the new Deleted list (analogous for InsOrUpd).
+ % If we want to improve the performance, we could check which list is the
+ % shortest, since the traversing time depends on this.
+ Key = element(KeyNo, Data),
+ case searchdelete(Key, KeyNo, DelOrUpd) of
+ {true, NewDelOrUpd} ->
+ match_difflists(KeyNo, T, NewDelOrUpd, InsAcc, [Data | UpdAcc]);
+ {false, SameDelOrUpd} ->
+ match_difflists(KeyNo, T, SameDelOrUpd, [Data | InsAcc], UpdAcc)
+ end.
+
+
+
+
+searchdelete(_Key, _ElemNo, []) ->
+ {false, []};
+searchdelete(Key, ElemNo, List) ->
+ searchdelete(Key, ElemNo, List, []).
+
+
+
+
+
+searchdelete(_Key, _ElemNo, [], Acc) ->
+ {false, Acc};
+searchdelete(Key, ElemNo, [Tuple | Tail], Acc) ->
+ % We don't use standard libraries, 'cause we want to make an 'atomic'
+ % operation, i.e., we will not search the list two times...
+ case (element(ElemNo, Tuple) =:= Key) of
+ true ->
+ {true, Acc ++ Tail}; % Return the list without the matching element
+ _Other ->
+ searchdelete(Key, ElemNo, Tail, [Tuple | Acc])
+ end.
+
+
+
+
+
+
+
+dblist2list([]) ->
+ [];
+dblist2list([{Data, _Color} | T]) ->
+ [Data | dblist2list(T)].
+
+
+
+
+
+
+
+list2dblist([], _Color) ->
+ [];
+list2dblist([Data | T], Color) ->
+ [{Data, Color} | list2dblist(T, Color)].
+
+
+
+
+
+
+
+
+update_colors([]) ->
+ [];
+update_colors([{Data, Color} | T]) ->
+ [{Data, new_color(Color)} | update_colors(T)].
+
+
+
+
+
+
+
+
+new_color(?GREEN1) ->
+ ?GREEN2;
+new_color(?GREEN2) ->
+ ?GREEN3;
+new_color(?GREEN3) ->
+ ?GREEN4;
+new_color(?GREEN4) ->
+ ?GREEN5;
+new_color(?GREEN5) ->
+ ?DEFAULT_BTN_COLOR;
+new_color(?RED1) ->
+ ?RED2;
+new_color(?RED2) ->
+ ?RED3;
+new_color(?RED3) ->
+ ?RED4;
+new_color(?RED4) ->
+ ?RED5;
+new_color(?RED5) ->
+ ?DEFAULT_BTN_COLOR;
+new_color(_Other) ->
+ ?DEFAULT_BTN_COLOR. % Default shall be gray.
+
+
+
+
+
+
+
+
+compute_elapsed_seconds({H1, M1, S1}, {H2, M2, S2}) ->
+ ElapsedHours = get_time_diff(hours, H1, H2),
+ ElapsedMinutes = get_time_diff(minutes, M1, M2),
+ ElapsedSeconds = get_time_diff(seconds, S1, S2),
+ (ElapsedHours * 3600) + (ElapsedMinutes * 60) + ElapsedSeconds + 1.
+
+
+
+
+
+
+
+get_time_diff(_Type, T1, T2) when T1 =< T2 ->
+ T2 - T1;
+get_time_diff(hours, T1, T2) ->
+ T2 + 24 - T1;
+get_time_diff(minutes, T1, T2) ->
+ T2 + 60 - T1;
+get_time_diff(seconds, T1, T2) ->
+ T2 + 60 - T1.
+
+
+
+
+split(_N, []) ->
+ {[], []};
+split(0, List) ->
+ {[], List};
+split(N, List) ->
+ split2(0, N - 1, [], List).
+
+
+
+split2(Ctr, N, Acc, [H | T]) when Ctr < N ->
+ split2(Ctr + 1, N, [H | Acc], T);
+split2(_Ctr, _N, Acc, []) ->
+ {lists:reverse(Acc), []};
+split2(_Ctr, _N, Acc, List) ->
+ {lists:reverse(Acc), List}.
+
+basetype(ordered_set) ->
+ set;
+basetype(Any) ->
+ Any.