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%%<copyright>
%% <year>1996-2007</year>
%% <holder>Ericsson AB, All Rights Reserved</holder>
%%</copyright>
%%<legalnotice>
%% 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.
%%
%% The Initial Developer of the Original Code is Ericsson AB.
%%</legalnotice>
%%
-module(ex1).
%% External exports
-export([start/0, my_name/1, my_name/2, friends_table/3]).
%% Internal exports
-export([init/0]).
-define(status_col, 4).
-define(active, 1).
-define(notInService, 2).
-define(notReady, 3).
-define(createAndGo, 4). % Action; written, not read
-define(createAndWait, 5). % Action; written, not read
-define(destroy, 6). % Action; written, not read
start() ->
spawn(ex1, init, []).
%%----------------------------------------------------------------
%% Instrumentation function for variable myName.
%% Returns: (get) {value, Name}
%% (set) noError
%%----------------------------------------------------------------
my_name(get) ->
ex1_server ! {self(), get_my_name},
Name = wait_answer(),
{value, Name}.
my_name(set, NewName) ->
ex1_server ! {self(), {set_my_name, NewName}},
noError.
%%----------------------------------------------------------------
%% Instrumentation function for table friendsTable.
%%----------------------------------------------------------------
friends_table(get, RowIndex, Cols) ->
case get_row(RowIndex) of
{ok, Row} ->
get_cols(Cols, Row);
_ ->
{noValue, noSuchInstance}
end;
friends_table(get_next, RowIndex, Cols) ->
case get_next_row(RowIndex) of
{ok, Row} ->
get_next_cols(Cols, Row);
_ ->
case get_next_row([]) of
{ok, Row} ->
% Get next cols from first row.
NewCols = add_one_to_cols(Cols),
get_next_cols(NewCols, Row);
_ ->
end_of_table(Cols)
end
end;
%%----------------------------------------------------------------
%% If RowStatus is set, then:
%% *) If set to destroy, check that row does exist
%% *) If set to createAndGo, check that row doesn't exist AND
%% that all columns are given values.
%% *) Otherwise, error (for simplicity).
%% Otherwise, row is modified; check that row exists.
%%----------------------------------------------------------------
friends_table(is_set_ok, RowIndex, Cols) ->
RowExists =
case get_row(RowIndex) of
{ok, _Row} -> true;
_ -> false
end,
case is_row_status_col_changed(Cols) of
{true, ?destroy} when RowExists == true ->
{noError, 0};
{true, ?createAndGo} when RowExists == false,
length(Cols) == 3 ->
{noError, 0};
{true, _} ->
{inconsistentValue, ?status_col};
false when RowExists == true ->
{noError, 0};
_ ->
[{Col, _NewVal} | _Cols] = Cols,
{inconsistentName, Col}
end;
friends_table(set, RowIndex, Cols) ->
case is_row_status_col_changed(Cols) of
{true, ?destroy} ->
ex1_server ! {self(), {delete_row, RowIndex}};
{true, ?createAndGo} ->
NewRow = make_row(RowIndex, Cols),
ex1_server ! {self(), {add_row, NewRow}};
false ->
{ok, Row} = get_row(RowIndex),
NewRow = merge_rows(Row, Cols),
ex1_server ! {self(), {delete_row, RowIndex}},
ex1_server ! {self(), {add_row, NewRow}}
end,
{noError, 0}.
%%----------------------------------------------------------------
%% Make a list of {value, Val} of the Row and Cols list.
%%----------------------------------------------------------------
get_cols([Col | Cols], Row) ->
[{value, element(Col, Row)} | get_cols(Cols, Row)];
get_cols([], _Row) ->
[].
%%----------------------------------------------------------------
%% As get_cols, but the Cols list may contain invalid column
%% numbers. If it does, we must find the next valid column,
%% or return endOfTable.
%%----------------------------------------------------------------
get_next_cols([Col | Cols], Row) when Col < 2 ->
[{[2, element(1, Row)], element(2, Row)} |
get_next_cols(Cols, Row)];
get_next_cols([Col | Cols], Row) when Col > 4 ->
[endOfTable |
get_next_cols(Cols, Row)];
get_next_cols([Col | Cols], Row) ->
[{[Col, element(1, Row)], element(Col, Row)} |
get_next_cols(Cols, Row)];
get_next_cols([], _Row) ->
[].
%%----------------------------------------------------------------
%% Make a list of endOfTable with as many elems as Cols list.
%%----------------------------------------------------------------
end_of_table([_Col | Cols]) ->
[endOfTable | end_of_table(Cols)];
end_of_table([]) ->
[].
add_one_to_cols([Col | Cols]) ->
[Col + 1 | add_one_to_cols(Cols)];
add_one_to_cols([]) ->
[].
is_row_status_col_changed(Cols) ->
case lists:keysearch(?status_col, 1, Cols) of
{value, {?status_col, StatusVal}} ->
{true, StatusVal};
_ -> false
end.
get_row(RowIndex) ->
ex1_server ! {self(), {get_row, RowIndex}},
wait_answer().
get_next_row(RowIndex) ->
ex1_server ! {self(), {get_next_row, RowIndex}},
wait_answer().
wait_answer() ->
receive
{ex1_server, Answer} ->
Answer
end.
%%%----------------------------------------------------------------
%%% Server code follows
%%%----------------------------------------------------------------
init() ->
register(ex1_server, self()),
loop("", []).
loop(MyName, Table) ->
receive
{From, get_my_name} ->
From ! {ex1_server, MyName},
loop(MyName, Table);
{_From, {set_my_name, NewName}} ->
loop(NewName, Table);
{From, {get_row, RowIndex}} ->
Res = table_get_row(Table, RowIndex),
From ! {ex1_server, Res},
loop(MyName, Table);
{From, {get_next_row, RowIndex}} ->
Res = table_get_next_row(Table, RowIndex),
From ! {ex1_server, Res},
loop(MyName, Table);
{_From, {delete_row, RowIndex}} ->
NewTable = table_delete_row(Table, RowIndex),
loop(MyName, NewTable);
{_From, {add_row, NewRow}} ->
NewTable = table_add_row(Table, NewRow),
loop(MyName, NewTable)
end.
%%-----------------------------------------------------------------
%% Implementation of the table.
%%-----------------------------------------------------------------
table_get_row([{Index, Name, Address, Status} | _], [Index]) ->
{ok, {Index, Name, Address, Status}};
table_get_row([_H | T], RowIndex) ->
table_get_row(T, RowIndex);
table_get_row([], _RowIndex) ->
no_such_row.
table_get_next_row([Row | _T], []) ->
{ok, Row};
table_get_next_row([Row | _T], [Index | _]) when element(1, Row) > Index ->
{ok, Row};
table_get_next_row([_Row | T], RowIndex) ->
table_get_next_row(T, RowIndex);
table_get_next_row([], _RowIndex) ->
endOfTable.
table_delete_row([{Index, _, _, _} | T], [Index]) ->
T;
table_delete_row([H | T], RowIndex) ->
[H | table_delete_row(T, RowIndex)];
table_delete_row([], _RowIndex) ->
[].
table_add_row([Row | T], NewRow) when element(1, Row) > element(1, NewRow) ->
[NewRow, Row | T];
table_add_row([H | T], NewRow) ->
[H | table_add_row(T, NewRow)];
table_add_row([], NewRow) ->
[NewRow].
make_row([Index], [{2, Name}, {3, Address} | _]) ->
{Index, Name, Address, ?active}.
merge_rows(Row, [{Col, NewVal} | T]) ->
merge_rows(setelement(Col, Row, NewVal), T);
merge_rows(Row, []) ->
Row.
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