%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2008-2012. 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
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%% %CopyrightEnd%
%%%-------------------------------------------------------------------
%%% File : wx.erl
%%% Author : Dan Gudmundsson <[email protected]>
%%% Description :
%%%
%%% Created : 22 Feb 2007 by Dan Gudmundsson <[email protected]>
%%%-------------------------------------------------------------------
%% @doc A port of <a href="http://www.wxwidgets.org/">wxWidgets</a>.
%%
%% This is the base api of <a href="http://www.wxwidgets.org/">wxWidgets</a>.
%% This module contains functions for
%% starting and stopping the wx-server, as well as other utility functions.
%%
%% wxWidgets is object oriented, and not functional. Thus, in wxErlang a
%% module represents a class, and the object created by this class
%% has an own type, wxCLASS(). This module represents the base
%% class, and all other wxMODULE's are sub-classes of this class.
%%
%% Objects of a class are created with wxCLASS:new(...) and destroyed with
%% wxCLASS:destroy(). Member functions are called with wxCLASS:member(Object, ...)
%% instead of as in C++ Object.member(...).
%%
%% Sub class modules inherit (non static) functions from their parents.
%% The inherited functions are not documented in the sub-classes.
%%
%% This erlang port of wxWidgets tries to be a one-to-one mapping with
%% the original wxWidgets library. Some things are different though,
%% as the optional arguments use property lists and can be in any
%% order. The main difference is the event handling which is different
%% from the original library. See {@link wxEvtHandler}.
%%
%% The following classes are implemented directly as erlang types: <br />
%% wxPoint={x,y},wxSize={w,h},wxRect={x,y,w,h},wxColour={r,g,b [,a]},
%% wxString={@link //stdlib/unicode:chardata()},
%% wxGBPosition={r,c},wxGBSpan={rs,cs},wxGridCellCoords={r,c}.
%%
%% wxWidgets uses a process specific environment, which is created by
%% {@link wx:new/0}. To be able to use the environment from other
%% processes, call {@link get_env/0} to retrieve the environment and
%% {@link set_env/1} to assign the environment in the other process.
%%
%% Global (classless) functions are located in the wx_misc module.
-module(wx).
-export([parent_class/1, new/0, new/1, destroy/0,
get_env/0,set_env/1, debug/1,
batch/1,foreach/2,map/2,foldl/3,foldr/3,
getObjectType/1, typeCast/2,
null/0, is_null/1]).
-export([create_memory/1, get_memory_bin/1,
retain_memory/1, release_memory/1]).
-export([demo/0]).
-export_type([wx_colour/0, wx_datetime/0, wx_enum/0, wx_mouseState/0, wx_wxHtmlLinkInfo/0]).
-include("wxe.hrl").
-include("../include/wx.hrl").
-opaque wx_object() :: #wx_ref{}. %% Opaque object reference
-opaque wx_env() :: #wx_env{}. %% Opaque process environment
-opaque wx_memory() :: binary() | #wx_mem{}. %% Opaque memory reference
-type wx_colour4() :: {R::byte(),G::byte(),B::byte(), A::byte()}.
-type wx_colour() :: {R::byte(),G::byte(),B::byte()} | wx_colour4().
-type wx_datetime() :: {{Year::integer(),Month::integer(),Day::integer()},
{Hour::integer(),Minute::integer(),Second::integer()}}. %% In Local Timezone
-type wx_mouseState() :: #wxMouseState{}. %% See #wxMouseState{} defined in wx.hrl
-type wx_enum() :: integer(). %% Constant defined in wx.hrl
-type wx_wxHtmlLinkInfo() :: #wxHtmlLinkInfo{}.
parent_class(_) -> true. %% Let the null pointers be sent down.
%% @doc Starts a wx server.
-spec new() -> wx_object().
new() ->
new([]).
%% @doc Starts a wx server.
%% Option may be {debug, Level}, see debug/1.
-spec new([Option]) -> wx_object() when Option :: {debug, list() | atom()}.
new(Options) when is_list(Options) ->
#wx_env{port=Port} = wxe_server:start(),
put(opengl_port, Port),
Debug = proplists:get_value(debug, Options, 0),
debug(Debug),
null().
%% @doc Stops a wx server.
-spec destroy() -> ok.
destroy() ->
wxe_server:stop(),
erase(?WXE_IDENTIFIER),
ok.
%% @doc Gets this process's current wx environment.
%% Can be sent to other processes to allow them use this process wx environment.
%% @see set_env/1
-spec get_env() -> wx_env().
get_env() ->
case get(?WXE_IDENTIFIER) of
undefined -> erlang:error({wxe,unknown_port});
Env = #wx_env{} -> Env
end.
%% @doc Sets the process wx environment, allows this process to use
%% another process wx environment.
-spec set_env(wx_env()) -> ok.
set_env(#wx_env{sv=Pid, port=Port} = Env) ->
put(?WXE_IDENTIFIER, Env),
put(opengl_port, Port),
%% wxe_util:cast(?REGISTER_PID, <<>>),
wxe_server:register_me(Pid),
ok.
%% @doc Returns the null object
-spec null() -> wx_object().
null() ->
#wx_ref{ref=0, type=wx}.
%% @doc Returns true if object is null, false otherwise
-spec is_null(wx_object()) -> boolean().
is_null(#wx_ref{ref=NULL}) -> NULL =:= 0.
%% @doc Returns the object type
-spec getObjectType(wx_object()) -> atom().
getObjectType(#wx_ref{type=Type}) ->
Type.
%% @doc Casts the object to class NewType.
%% It is needed when using functions like wxWindow:findWindow/2, which
%% returns a generic wxObject type.
-spec typeCast(wx_object(), atom()) -> wx_object().
typeCast(Old=#wx_ref{}, NewType) when is_atom(NewType) ->
Old#wx_ref{type=NewType}.
%% @doc Batches all <c>wx</c> commands
%% used in the fun. Improves performance of the command processing by
%% grabbing the wxWidgets thread so that no event processing will be
%% done before the complete batch of commands is invoked.
%%
%% @see map/2
%% @see foreach/2
%% @see foldl/3
%% @see foldr/3
-spec batch(function()) -> term().
batch(Fun) ->
ok = wxe_util:cast(?BATCH_BEGIN, <<>>),
try Fun()
catch
error:W -> erlang:exit({W, erlang:get_stacktrace()});
throw:W -> erlang:throw(W);
exit:W -> erlang:exit(W)
after
ok = wxe_util:cast(?BATCH_END, <<>>)
end.
%% @doc Behaves like {@link //stdlib/lists:foreach/2} but batches wx commands. See {@link batch/1}.
-spec foreach(function(), list()) -> ok.
foreach(Fun, List) ->
ok = wxe_util:cast(?BATCH_BEGIN, <<>>),
try lists:foreach(Fun, List)
catch
error:W -> erlang:exit({W, erlang:get_stacktrace()});
throw:W -> erlang:throw(W);
exit:W -> erlang:exit(W)
after
ok = wxe_util:cast(?BATCH_END, <<>>)
end.
%% @doc Behaves like {@link //stdlib/lists:map/2} but batches wx commands. See {@link batch/1}.
-spec map(function(), list()) -> list().
map(Fun, List) ->
ok = wxe_util:cast(?BATCH_BEGIN, <<>>),
try lists:map(Fun, List)
catch
error:W -> erlang:exit({W, erlang:get_stacktrace()});
throw:W -> erlang:throw(W);
exit:W -> erlang:exit(W)
after
ok = wxe_util:cast(?BATCH_END, <<>>)
end.
%% @doc Behaves like {@link //stdlib/lists:foldl/3} but batches wx commands. See {@link batch/1}.
-spec foldl(function(), term(), list()) -> term().
foldl(Fun, Acc, List) ->
ok = wxe_util:cast(?BATCH_BEGIN, <<>>),
try lists:foldl(Fun, Acc, List)
catch
error:W -> erlang:exit({W, erlang:get_stacktrace()});
throw:W -> erlang:throw(W);
exit:W -> erlang:exit(W)
after
ok = wxe_util:cast(?BATCH_END, <<>>)
end.
%% @doc Behaves like {@link //stdlib/lists:foldr/3} but batches wx commands. See {@link batch/1}.
-spec foldr(function(), term(), list()) -> term().
foldr(Fun, Acc, List) ->
ok = wxe_util:cast(?BATCH_BEGIN, <<>>),
try lists:foldr(Fun, Acc, List)
catch
error:W -> erlang:exit({W, erlang:get_stacktrace()});
throw:W -> erlang:throw(W);
exit:W -> erlang:exit(W)
after
ok = wxe_util:cast(?BATCH_END, <<>>)
end.
-define(MIN_BIN_SIZE, 64). %% Current emulator min off heap size
%% @doc Creates a memory area (of Size in bytes) which can be used by an external library (i.e. opengl).
%% It is up to the client to keep a reference to this object so it does
%% not get garbage collected by erlang while still in use by the external
%% library.
%%
%% This is far from erlang's intentional usage and can crash the erlang emulator.
%% Use it carefully.
-spec create_memory(integer()) -> wx_memory().
create_memory(Size) when Size > ?MIN_BIN_SIZE ->
#wx_mem{bin = <<0:(Size*8)>>, size = Size};
create_memory(Size) ->
#wx_mem{bin = <<0:((?MIN_BIN_SIZE+1)*8)>>, size = Size}.
%% @doc Returns the memory area as a binary.
-spec get_memory_bin(wx_memory()) -> binary().
get_memory_bin(#wx_mem{bin=Bin, size=Size}) when Size > ?MIN_BIN_SIZE ->
Bin;
get_memory_bin(#wx_mem{bin=Bin, size=Size}) ->
<<WithCorrectSize:Size/binary, _/binary>> = Bin,
WithCorrectSize.
%% @doc Saves the memory from deletion until release_memory/1 is called.
%% If release_memory/1 is not called the memory will not be garbage collected.
-spec retain_memory(wx_memory()) -> ok.
retain_memory(#wx_mem{bin=Bin}) ->
wxe_util:send_bin(Bin),
ok = wxe_util:cast(?WXE_BIN_INCR, <<>>);
retain_memory(Bin) when is_binary(Bin) ->
case byte_size(Bin) > ?MIN_BIN_SIZE of
true -> ok;
false -> erlang:error(small_bin)
end,
wxe_util:send_bin(Bin),
ok = wxe_util:cast(?WXE_BIN_INCR, <<>>).
-spec release_memory(wx_memory()) -> ok.
release_memory(#wx_mem{bin=Bin}) ->
wxe_util:send_bin(Bin),
ok = wxe_util:cast(?WXE_BIN_DECR, <<>>);
release_memory(Bin) when is_binary(Bin) ->
wxe_util:send_bin(Bin),
ok = wxe_util:cast(?WXE_BIN_DECR, <<>>).
%% @doc Sets debug level. If debug level is 'verbose' or 'trace'
%% each call is printed on console. If Level is 'driver' each allocated
%% object and deletion is printed on the console.
-spec debug(Level | [Level]) -> ok
when Level :: none | verbose | trace | driver | integer().
debug(none) -> debug(0);
debug(verbose) -> debug(1);
debug(trace) -> debug(2);
debug(driver) -> debug(16);
debug([]) -> debug(0);
debug(List) when is_list(List) ->
{Drv,Erl} =
lists:foldl(fun(verbose, {Drv,_Erl}) ->
{Drv,1};
(trace, {Drv,_Erl}) ->
{Drv,2};
(driver, {_Drv,Erl}) ->
{16, Erl}
end, {0,0}, List),
debug(Drv + Erl);
debug(Level) when is_integer(Level) ->
case get(?WXE_IDENTIFIER) of
undefined -> erlang:error({wxe,unknown_port});
#wx_env{debug=Old} when Old =:= Level -> ok;
Env = #wx_env{sv=Server, port=Port, debug=Old} ->
if
Old > 16, Level > 16 -> ok;
Old < 16, Level < 16 -> ok;
true ->
erlang:port_call(Port,?WXE_DEBUG_DRIVER, [Level bsr 4])
end,
put(?WXE_IDENTIFIER, Env#wx_env{debug=Level}),
wxe_server:set_debug(Server,Level),
ok
end.
%% @doc Starts a wxErlang demo if examples directory exists and is compiled
-spec demo() -> ok.
demo() ->
Priv = code:priv_dir(wx),
Demo = filename:join([filename:dirname(Priv),examples,demo]),
Mod = list_to_atom("demo"), %% Fool xref tests
case file:set_cwd(Demo) of
ok ->
apply(Mod, start, []);
_ ->
{error, no_demo_dir}
end.