\latexignore{\rtfignore{\wxheading{Members}}}
-\membersection{wxRegion::wxRegion}\label{wxregionconstr}
+
+\membersection{wxRegion::wxRegion}\label{wxregionctor}
\func{}{wxRegion}{\void}
Default constructor.
-\func{}{wxRegion}{\param{long}{ x}, \param{long}{ y}, \param{long}{ width}, \param{long}{ height}}
+\func{}{wxRegion}{\param{wxCoord}{ x}, \param{wxCoord}{ y}, \param{wxCoord}{ width}, \param{wxCoord}{ height}}
Constructs a rectangular region with the given position and size.
\func{}{wxRegion}{\param{const wxRegion\&}{ region}}
-Constructs a region by copying another region.
+Copy constructor, uses \helpref{reference counting}{trefcount}.
+
+\func{}{wxRegion}{\param{size\_t}{ n}, \param{const wxPoint }{*points}, \param{int }{fillStyle = wxWINDING\_RULE}}
+
+Constructs a region corresponding to the polygon made of {\it n} points in the
+provided array. {\it fillStyle} parameter may have values
+{\tt wxWINDING\_RULE} or {\tt wxODDEVEN\_RULE}.
+
+{\bf NB:} This constructor is only implemented for Win32 and GTK+ wxWidgets ports.
+
+\func{}{wxRegion}{\param{const wxBitmap\&}{ bmp}}
+
+\func{}{wxRegion}{\param{const wxBitmap\&}{ bmp},
+ \param{const wxColour\&}{ transColour},
+ \param{int}{ tolerance = 0}}
+
+Constructs a region using the non-transparent pixels of a bitmap. See
+\helpref{Union}{wxregionunion} for more details.
+
-\membersection{wxRegion::\destruct{wxRegion}}
+
+\membersection{wxRegion::\destruct{wxRegion}}\label{wxregiondtor}
\func{}{\destruct{wxRegion}}{\void}
Destructor.
+
\membersection{wxRegion::Clear}\label{wxregionclear}
\func{void}{Clear}{\void}
Clears the current region.
+
\membersection{wxRegion::Contains}\label{wxregioncontains}
\constfunc{wxRegionContain}{Contains}{\param{long\& }{x}, \param{long\& }{y}}
On Windows, only wxOutRegion and wxInRegion are returned; a value wxInRegion then indicates that
all or some part of the region is contained in this region.
+
+\membersection{wxRegion::ConvertToBitmap}\label{wxregionconverttobitmap}
+
+\constfunc{wxBitmap}{ConvertToBitmap}{}
+
+Convert the region to a black and white bitmap with the white pixels
+being inside the region.
+
+
\membersection{wxRegion::GetBox}\label{wxregiongetbox}
-\constfunc{void}{GetBox}{\param{long\& }{x}, \param{long\& }{y}, \param{long\& }{width}, \param{long\& }{height}}
+\constfunc{void}{GetBox}{\param{wxCoord\& }{x}, \param{wxCoord\& }{y}, \param{wxCoord\& }{width}, \param{wxCoord\& }{height}}
Returns the outer bounds of the region.
Returns the outer bounds of the region.
+
\membersection{wxRegion::Intersect}\label{wxregionintersect}
-\func{bool}{Intersect}{\param{long}{ x}, \param{long}{ y}, \param{long}{ width}, \param{long}{ height}}
+\func{bool}{Intersect}{\param{wxCoord}{ x}, \param{wxCoord}{ y}, \param{wxCoord}{ width}, \param{wxCoord}{ height}}
Finds the intersection of this region and another, rectangular region, specified using position and size.
\wxheading{Return value}
-TRUE if successful, FALSE otherwise.
+{\tt true} if successful, {\tt false} otherwise.
\wxheading{Remarks}
Creates the intersection of the two regions, that is, the parts which are in both regions. The result
is stored in this region.
+
\membersection{wxRegion::IsEmpty}\label{wxregionisempty}
\constfunc{bool}{IsEmpty}{\void}
-\func{bool}{IsEmpty}{\void}
+Returns {\tt true} if the region is empty, {\tt false} otherwise.
+
+
+\membersection{wxRegion::IsEqual}\label{wxregionisequal}
+
+\constfunc{bool}{IsEqual}{\param{const wxRegion\& }{region}}
+
+Returns {\tt true} if the region is equal to, i.e. covers the same area as,
+another one. Note that if both this region and \arg{region} are invalid, they
+are considered to be equal.
-Returns TRUE if the region is empty, FALSE otherwise.
+
+\membersection{wxRegion::Subtract}\label{wxregionsubtract}
\func{bool}{Subtract}{\param{const wxRect\&}{ rect}}
\wxheading{Return value}
-TRUE if successful, FALSE otherwise.
+{\tt true} if successful, {\tt false} otherwise.
\wxheading{Remarks}
This operation combines the parts of 'this' region that are not part of the second region.
The result is stored in this region.
+
+\membersection{wxRegion::Offset}\label{wxregionoffset}
+
+\func{bool}{Offset}{\param{wxCoord}{ x}, \param{wxCoord}{ y}}
+
+\func{bool}{Offset}{\param{const wxPoint\& }{ pt}}
+
+Moves the region by the specified offsets in horizontal and vertical
+directions.
+
+\wxheading{Return value}
+
+{\tt true} if successful, {\tt false} otherwise (the region is unchanged then).
+
+
\membersection{wxRegion::Union}\label{wxregionunion}
-\func{bool}{Union}{\param{long}{ x}, \param{long}{ y}, \param{long}{ width}, \param{long}{ height}}
+\func{bool}{Union}{\param{wxCoord}{ x}, \param{wxCoord}{ y}, \param{wxCoord}{ width}, \param{wxCoord}{ height}}
Finds the union of this region and another, rectangular region, specified using position and size.
Finds the union of this region and another region.
+\func{bool}{Union}{\param{const wxBitmap\&}{ bmp}}
+
+Finds the union of this region and the non-transparent pixels of a
+bitmap. Bitmap's mask is used to determine transparency. If the bitmap doesn't
+have a mask, solid rectangle of bitmap's dimensions is used.
+
+\func{bool}{Union}{\param{const wxBitmap\&}{ bmp},
+ \param{const wxColour\&}{ transColour},
+ \param{int}{ tolerance = 0}}
+
+Finds the union of this region and the non-transparent pixels of a
+bitmap. Colour to be treated as transparent is specified in the
+\arg{transColour} argument, along with an
+optional colour tolerance value.
+
\wxheading{Return value}
-TRUE if successful, FALSE otherwise.
+{\tt true} if successful, {\tt false} otherwise.
\wxheading{Remarks}
This operation creates a region that combines all of this region and the second region.
The result is stored in this region.
+
\membersection{wxRegion::Xor}\label{wxregionxor}
-\func{bool}{Xor}{\param{long}{ x}, \param{long}{ y}, \param{long}{ width}, \param{long}{ height}}
+\func{bool}{Xor}{\param{wxCoord}{ x}, \param{wxCoord}{ y}, \param{wxCoord}{ width}, \param{wxCoord}{ height}}
Finds the Xor of this region and another, rectangular region, specified using position and size.
\wxheading{Return value}
-TRUE if successful, FALSE otherwise.
+{\tt true} if successful, {\tt false} otherwise.
\wxheading{Remarks}
This operation creates a region that combines all of this region and the second region, except
for any overlapping areas. The result is stored in this region.
+
\membersection{wxRegion::operator $=$}\label{wxregionassign}
\func{void}{operator $=$}{\param{const wxRegion\&}{ region}}
-Copies {\it region} by reference counting.
+Assignment operator, using \helpref{reference counting}{trefcount}.
+
+
\section{\class{wxRegionIterator}}\label{wxregioniterator}
To use it, construct an iterator object on the stack and loop through the
regions, testing the object and incrementing the iterator at the end of the loop.
-See \helpref{wxWindow::OnPaint}{wxwindowonpaint} for an example of use.
+See \helpref{wxPaintEvent}{wxpaintevent} for an example of use.
\wxheading{Derived from}
\wxheading{See also}
-\helpref{wxWindow::OnPaint}{wxwindowonpaint}
+\helpref{wxPaintEvent}{wxpaintevent}
\latexignore{\rtfignore{\wxheading{Members}}}
-\membersection{wxRegionIterator::wxRegionIterator}
+
+\membersection{wxRegionIterator::wxRegionIterator}\label{wxregioniteratorctor}
\func{}{wxRegionIterator}{\void}
Creates an iterator object given a region.
-\membersection{wxRegionIterator::GetX}
-\constfunc{long}{GetX}{\void}
+\membersection{wxRegionIterator::GetX}\label{wxregioniteratorgetx}
+
+\constfunc{wxCoord}{GetX}{\void}
Returns the x value for the current region.
-\membersection{wxRegionIterator::GetY}
-\constfunc{long}{GetY}{\void}
+\membersection{wxRegionIterator::GetY}\label{wxregioniteratorgety}
+
+\constfunc{wxCoord}{GetY}{\void}
Returns the y value for the current region.
-\membersection{wxRegionIterator::GetW}
-\constfunc{long}{GetW}{\void}
+\membersection{wxRegionIterator::GetW}\label{wxregioniteratorgetw}
+
+\constfunc{wxCoord}{GetW}{\void}
An alias for GetWidth.
-\membersection{wxRegionIterator::GetWidth}
-\constfunc{long}{GetWidth}{\void}
+\membersection{wxRegionIterator::GetHeight}\label{wxregioniteratorgetheight}
-Returns the width value for the current region.
+\constfunc{wxCoord}{GetHeight}{\void}
-\membersection{wxRegionIterator::GetH}
+Returns the height value for the current region.
-\constfunc{long}{GetH}{\void}
-An alias for GetHeight.
+\membersection{wxRegionIterator::GetH}\label{wxregioniteratorgeth}
-\membersection{wxRegionIterator::GetHeight}
+\constfunc{wxCoord}{GetH}{\void}
-\constfunc{long}{GetWidth}{\void}
+An alias for GetHeight.
-Returns the width value for the current region.
-\membersection{wxRegionIterator::GetRect}
+\membersection{wxRegionIterator::GetRect}\label{wxregioniteratorgetrect}
\constfunc{wxRect}{GetRect}{\void}
Returns the current rectangle.
-\membersection{wxRegionIterator::HaveRects}
+
+\membersection{wxRegionIterator::GetWidth}\label{wxregioniteratorgetwidth}
+
+\constfunc{wxCoord}{GetWidth}{\void}
+
+Returns the width value for the current region.
+
+
+\membersection{wxRegionIterator::HaveRects}\label{wxregioniteratorhaverects}
\constfunc{bool}{HaveRects}{\void}
-Returns TRUE if there are still some rectangles; otherwise returns FALSE.
+Returns {\tt true} if there are still some rectangles; otherwise returns {\tt false}.
-\membersection{wxRegionIterator::Reset}
+
+\membersection{wxRegionIterator::Reset}\label{wxregioniteratorreset}
\func{void}{Reset}{\void}
Resets the iterator to the given region.
-\membersection{wxRegionIterator::operator $++$}
+
+\membersection{wxRegionIterator::operator $++$}\label{wxregioniteratorinc}
\func{void}{operator $++$}{\void}
Increment operator. Increments the iterator to the next region.
-\pythonnote{A wxPython alias for this operator is called \tt{Next}.}
+\pythonnote{A wxPython alias for this operator is called {\tt Next}.}
+
-\membersection{wxRegionIterator::operator bool}
+\membersection{wxRegionIterator::operator bool}\label{wxregioniteratorbool}
\constfunc{}{operator bool}{\void}
-Returns TRUE if there are still some rectangles; otherwise returns FALSE.
+Returns {\tt true} if there are still some rectangles; otherwise returns {\tt false}.
You can use this to test the iterator object as if it were of type bool.