%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2008-2016. 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%
%% This file is generated DO NOT EDIT
%% @doc See external documentation: wxRegion.
%% @type wxRegion(). An object reference, The representation is internal
%% and can be changed without notice. It can't be used for comparsion
%% stored on disc or distributed for use on other nodes.
-module(wxRegion).
-include("wxe.hrl").
-export(['Xor'/2,'Xor'/5,clear/1,contains/2,contains/3,contains/5,convertToBitmap/1,
destroy/1,getBox/1,intersect/2,intersect/5,isEmpty/1,new/0,new/1,new/2,
new/4,offset/2,offset/3,subtract/2,subtract/5,union/2,union/3,union/4,
union/5]).
%% inherited exports
-export([parent_class/1]).
-export_type([wxRegion/0]).
%% @hidden
parent_class(_Class) -> erlang:error({badtype, ?MODULE}).
-type wxRegion() :: wx:wx_object().
%% @doc See external documentation.
-spec new() -> wxRegion().
new() ->
wxe_util:construct(?wxRegion_new_0,
<<>>).
%% @doc See external documentation.
%%
Also:
%% new(Rect) -> wxRegion() when
%% Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
%%
-spec new(Bmp) -> wxRegion() when
Bmp::wxBitmap:wxBitmap();
(Rect) -> wxRegion() when
Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
new(#wx_ref{type=BmpT,ref=BmpRef}) ->
?CLASS(BmpT,wxBitmap),
wxe_util:construct(?wxRegion_new_1_0,
<>);
new({RectX,RectY,RectW,RectH})
when is_integer(RectX),is_integer(RectY),is_integer(RectW),is_integer(RectH) ->
wxe_util:construct(?wxRegion_new_1_1,
<>).
%% @doc See external documentation.
-spec new(TopLeft, BottomRight) -> wxRegion() when
TopLeft::{X::integer(), Y::integer()}, BottomRight::{X::integer(), Y::integer()}.
new({TopLeftX,TopLeftY},{BottomRightX,BottomRightY})
when is_integer(TopLeftX),is_integer(TopLeftY),is_integer(BottomRightX),is_integer(BottomRightY) ->
wxe_util:construct(?wxRegion_new_2,
<>).
%% @doc See external documentation.
-spec new(X, Y, W, H) -> wxRegion() when
X::integer(), Y::integer(), W::integer(), H::integer().
new(X,Y,W,H)
when is_integer(X),is_integer(Y),is_integer(W),is_integer(H) ->
wxe_util:construct(?wxRegion_new_4,
<>).
%% @doc See external documentation.
-spec clear(This) -> ok when
This::wxRegion().
clear(#wx_ref{type=ThisT,ref=ThisRef}) ->
?CLASS(ThisT,wxRegion),
wxe_util:cast(?wxRegion_Clear,
<>).
%% @doc See external documentation.
%%
Also:
%% contains(This, Rect) -> wx:wx_enum() when
%% This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
%%
%%
Res = ?wxOutRegion | ?wxPartRegion | ?wxInRegion
-spec contains(This, Pt) -> wx:wx_enum() when
This::wxRegion(), Pt::{X::integer(), Y::integer()};
(This, Rect) -> wx:wx_enum() when
This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
contains(#wx_ref{type=ThisT,ref=ThisRef},{PtX,PtY})
when is_integer(PtX),is_integer(PtY) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Contains_1_0,
<>);
contains(#wx_ref{type=ThisT,ref=ThisRef},{RectX,RectY,RectW,RectH})
when is_integer(RectX),is_integer(RectY),is_integer(RectW),is_integer(RectH) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Contains_1_1,
<>).
%% @doc See external documentation.
%%
Res = ?wxOutRegion | ?wxPartRegion | ?wxInRegion
-spec contains(This, X, Y) -> wx:wx_enum() when
This::wxRegion(), X::integer(), Y::integer().
contains(#wx_ref{type=ThisT,ref=ThisRef},X,Y)
when is_integer(X),is_integer(Y) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Contains_2,
<>).
%% @doc See external documentation.
%%
Res = ?wxOutRegion | ?wxPartRegion | ?wxInRegion
-spec contains(This, X, Y, W, H) -> wx:wx_enum() when
This::wxRegion(), X::integer(), Y::integer(), W::integer(), H::integer().
contains(#wx_ref{type=ThisT,ref=ThisRef},X,Y,W,H)
when is_integer(X),is_integer(Y),is_integer(W),is_integer(H) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Contains_4,
<>).
%% @doc See external documentation.
-spec convertToBitmap(This) -> wxBitmap:wxBitmap() when
This::wxRegion().
convertToBitmap(#wx_ref{type=ThisT,ref=ThisRef}) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_ConvertToBitmap,
<>).
%% @doc See external documentation.
-spec getBox(This) -> {X::integer(), Y::integer(), W::integer(), H::integer()} when
This::wxRegion().
getBox(#wx_ref{type=ThisT,ref=ThisRef}) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_GetBox,
<>).
%% @doc See external documentation.
%%
Also:
%% intersect(This, Rect) -> boolean() when
%% This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
%%
-spec intersect(This, Region) -> boolean() when
This::wxRegion(), Region::wxRegion();
(This, Rect) -> boolean() when
This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
intersect(#wx_ref{type=ThisT,ref=ThisRef},#wx_ref{type=RegionT,ref=RegionRef}) ->
?CLASS(ThisT,wxRegion),
?CLASS(RegionT,wxRegion),
wxe_util:call(?wxRegion_Intersect_1_0,
<>);
intersect(#wx_ref{type=ThisT,ref=ThisRef},{RectX,RectY,RectW,RectH})
when is_integer(RectX),is_integer(RectY),is_integer(RectW),is_integer(RectH) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Intersect_1_1,
<>).
%% @doc See external documentation.
-spec intersect(This, X, Y, W, H) -> boolean() when
This::wxRegion(), X::integer(), Y::integer(), W::integer(), H::integer().
intersect(#wx_ref{type=ThisT,ref=ThisRef},X,Y,W,H)
when is_integer(X),is_integer(Y),is_integer(W),is_integer(H) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Intersect_4,
<>).
%% @doc See external documentation.
-spec isEmpty(This) -> boolean() when
This::wxRegion().
isEmpty(#wx_ref{type=ThisT,ref=ThisRef}) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_IsEmpty,
<>).
%% @doc See external documentation.
%%
Also:
%% subtract(This, Rect) -> boolean() when
%% This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
%%
-spec subtract(This, Region) -> boolean() when
This::wxRegion(), Region::wxRegion();
(This, Rect) -> boolean() when
This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
subtract(#wx_ref{type=ThisT,ref=ThisRef},#wx_ref{type=RegionT,ref=RegionRef}) ->
?CLASS(ThisT,wxRegion),
?CLASS(RegionT,wxRegion),
wxe_util:call(?wxRegion_Subtract_1_0,
<>);
subtract(#wx_ref{type=ThisT,ref=ThisRef},{RectX,RectY,RectW,RectH})
when is_integer(RectX),is_integer(RectY),is_integer(RectW),is_integer(RectH) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Subtract_1_1,
<>).
%% @doc See external documentation.
-spec subtract(This, X, Y, W, H) -> boolean() when
This::wxRegion(), X::integer(), Y::integer(), W::integer(), H::integer().
subtract(#wx_ref{type=ThisT,ref=ThisRef},X,Y,W,H)
when is_integer(X),is_integer(Y),is_integer(W),is_integer(H) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Subtract_4,
<>).
%% @doc See external documentation.
-spec offset(This, Pt) -> boolean() when
This::wxRegion(), Pt::{X::integer(), Y::integer()}.
offset(#wx_ref{type=ThisT,ref=ThisRef},{PtX,PtY})
when is_integer(PtX),is_integer(PtY) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Offset_1,
<>).
%% @doc See external documentation.
-spec offset(This, X, Y) -> boolean() when
This::wxRegion(), X::integer(), Y::integer().
offset(#wx_ref{type=ThisT,ref=ThisRef},X,Y)
when is_integer(X),is_integer(Y) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Offset_2,
<>).
%% @doc See external documentation.
%%
Also:
%% union(This, Rect) -> boolean() when
%% This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
%%
-spec union(This, Region) -> boolean() when
This::wxRegion(), Region::wxRegion() | wxBitmap:wxBitmap();
(This, Rect) -> boolean() when
This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
union(#wx_ref{type=ThisT,ref=ThisRef},#wx_ref{type=RegionT,ref=RegionRef}) ->
?CLASS(ThisT,wxRegion),
RegionOP = case ?CLASS_T(RegionT,wxRegion) of
true ->
?wxRegion_Union_1_1;
_ -> ?CLASS(RegionT,wxBitmap),
?wxRegion_Union_1_0
end,
wxe_util:call(RegionOP,
<>);
union(#wx_ref{type=ThisT,ref=ThisRef},{RectX,RectY,RectW,RectH})
when is_integer(RectX),is_integer(RectY),is_integer(RectW),is_integer(RectH) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Union_1_2,
<>).
%% @equiv union(This,Bmp,Transp, [])
-spec union(This, Bmp, Transp) -> boolean() when
This::wxRegion(), Bmp::wxBitmap:wxBitmap(), Transp::wx:wx_colour().
union(This,Bmp,Transp)
when is_record(This, wx_ref),is_record(Bmp, wx_ref),tuple_size(Transp) =:= 3; tuple_size(Transp) =:= 4 ->
union(This,Bmp,Transp, []).
%% @doc See external documentation.
-spec union(This, Bmp, Transp, [Option]) -> boolean() when
This::wxRegion(), Bmp::wxBitmap:wxBitmap(), Transp::wx:wx_colour(),
Option :: {tolerance, integer()}.
union(#wx_ref{type=ThisT,ref=ThisRef},#wx_ref{type=BmpT,ref=BmpRef},Transp, Options)
when tuple_size(Transp) =:= 3; tuple_size(Transp) =:= 4,is_list(Options) ->
?CLASS(ThisT,wxRegion),
?CLASS(BmpT,wxBitmap),
MOpts = fun({tolerance, Tolerance}, Acc) -> [<<1:32/?UI,Tolerance:32/?UI>>|Acc];
(BadOpt, _) -> erlang:error({badoption, BadOpt}) end,
BinOpt = list_to_binary(lists:foldl(MOpts, [<<0:32>>], Options)),
wxe_util:call(?wxRegion_Union_3,
<>).
%% @doc See external documentation.
-spec union(This, X, Y, W, H) -> boolean() when
This::wxRegion(), X::integer(), Y::integer(), W::integer(), H::integer().
union(#wx_ref{type=ThisT,ref=ThisRef},X,Y,W,H)
when is_integer(X),is_integer(Y),is_integer(W),is_integer(H) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Union_4,
<>).
%% @doc See external documentation.
%%
Also:
%% 'Xor'(This, Rect) -> boolean() when
%% This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
%%
-spec 'Xor'(This, Region) -> boolean() when
This::wxRegion(), Region::wxRegion();
(This, Rect) -> boolean() when
This::wxRegion(), Rect::{X::integer(), Y::integer(), W::integer(), H::integer()}.
'Xor'(#wx_ref{type=ThisT,ref=ThisRef},#wx_ref{type=RegionT,ref=RegionRef}) ->
?CLASS(ThisT,wxRegion),
?CLASS(RegionT,wxRegion),
wxe_util:call(?wxRegion_Xor_1_0,
<>);
'Xor'(#wx_ref{type=ThisT,ref=ThisRef},{RectX,RectY,RectW,RectH})
when is_integer(RectX),is_integer(RectY),is_integer(RectW),is_integer(RectH) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Xor_1_1,
<>).
%% @doc See external documentation.
-spec 'Xor'(This, X, Y, W, H) -> boolean() when
This::wxRegion(), X::integer(), Y::integer(), W::integer(), H::integer().
'Xor'(#wx_ref{type=ThisT,ref=ThisRef},X,Y,W,H)
when is_integer(X),is_integer(Y),is_integer(W),is_integer(H) ->
?CLASS(ThisT,wxRegion),
wxe_util:call(?wxRegion_Xor_4,
<>).
%% @doc Destroys this object, do not use object again
-spec destroy(This::wxRegion()) -> ok.
destroy(Obj=#wx_ref{type=Type}) ->
?CLASS(Type,wxRegion),
wxe_util:destroy(?DESTROY_OBJECT,Obj),
ok.