X-Git-Url: https://git.saurik.com/wxWidgets.git/blobdiff_plain/c4caf81dbcb58863da23a4fd5625c9ecc21c9c85..5172800e29f9c4b3f4dfa9737f80114a61e55f1f:/wxPython/src/_bitmap.i diff --git a/wxPython/src/_bitmap.i b/wxPython/src/_bitmap.i index e87bc4560a..1316e7cd35 100644 --- a/wxPython/src/_bitmap.i +++ b/wxPython/src/_bitmap.i @@ -17,11 +17,28 @@ %} -// Turn off the aquisition of the Global Interpreter Lock for this file +// Turn off the aquisition of the Global Interpreter Lock for the classes and +// functions in this file %threadWrapperOff //--------------------------------------------------------------------------- +%{ +// See http://tinyurl.com/e5adr for what premultiplying alpha means. It +// appears to me that the other platforms are already doing it, so I'll just +// automatically do it for wxMSW here. +#ifdef __WXMSW__ +#define wxPy_premultiply(p, a) ((p) * (a) / 0xff) +#define wxPy_unpremultiply(p, a) ((a) ? ((p) * 0xff / (a)) : (p)) +#else +#define wxPy_premultiply(p, a) (p) +#define wxPy_unpremultiply(p, a) (p) +#endif +%} + +//--------------------------------------------------------------------------- + + %{ #include @@ -108,8 +125,8 @@ public: * wx.BITMAP_TYPE_IFF :see: Alternate constructors `wx.EmptyBitmap`, `wx.BitmapFromIcon`, - `wx.BitmapFromImage`, `wx.BitmapFromXPMData`, - `wx.BitmapFromBits` + `wx.BitmapFromImage`, `wx.BitmapFromXPMData`, `wx.BitmapFromBits`, + `wx.BitmapFromBuffer`, `wx.BitmapFromBufferRGBA`, "); ~wxBitmap(); @@ -178,8 +195,9 @@ bit depths, the behaviour is platform dependent.", "", } #endif - bool Ok(); - + bool IsOk(); + %pythoncode { Ok = IsOk } + DocDeclStr( int , GetWidth(), "Gets the width of the bitmap in pixels.", ""); @@ -213,7 +231,6 @@ bitmap. This preserves mask information so that bitmaps and images can be converted back and forth without loss in that respect.", ""); - DocDeclStr( virtual wxMask* , GetMask() const, "Gets the associated mask (if any) which may have been loaded from a @@ -297,22 +314,97 @@ the ``type`` parameter.", ""); #ifdef __WXMSW__ bool CopyFromCursor(const wxCursor& cursor); - -// WXWIN_COMPATIBILITY_2_4 - #if 0 - int GetQuality(); - void SetQuality(int q); - %pythoncode { GetQuality = wx._deprecated(GetQuality) } - %pythoncode { SetQuality = wx._deprecated(SetQuality) } - #endif #endif - %pythoncode { def __nonzero__(self): return self.Ok() } + %extend { + DocStr(CopyFromBuffer, + "Copy data from a RGB buffer object to replace the bitmap pixel data. +See `wxBitmapFromBuffer` for more details.", ""); + void CopyFromBuffer(buffer data, int DATASIZE) + { + int height=self->GetHeight(); + int width=self->GetWidth(); + + if (DATASIZE != width * height * 3) { + wxPyErr_SetString(PyExc_ValueError, "Invalid data buffer size."); + } + wxNativePixelData pixData(*self, wxPoint(0,0), wxSize(width, height)); + if (! pixData) { + // raise an exception... + wxPyErr_SetString(PyExc_RuntimeError, + "Failed to gain raw access to bitmap data."); + return; + } + + wxNativePixelData::Iterator p(pixData); + for (int y=0; yGetHeight(); + int width=self->GetWidth(); + + if (DATASIZE != width * height * 4) { + wxPyErr_SetString(PyExc_ValueError, "Invalid data buffer size."); + } + wxAlphaPixelData pixData(*self, wxPoint(0,0), wxSize(width, height)); + if (! pixData) { + // raise an exception... + wxPyErr_SetString(PyExc_RuntimeError, + "Failed to gain raw access to bitmap data."); + return; + } + + pixData.UseAlpha(); + wxAlphaPixelData::Iterator p(pixData); + for (int y=0; yIsSameAs(*other) : false; } + bool __ne__(const wxBitmap* other) { return other ? !self->IsSameAs(*other) : true; } } + + %property(Depth, GetDepth, SetDepth, doc="See `GetDepth` and `SetDepth`"); + %property(Height, GetHeight, SetHeight, doc="See `GetHeight` and `SetHeight`"); + %property(Mask, GetMask, SetMask, doc="See `GetMask` and `SetMask`"); + %property(Palette, GetPalette, doc="See `GetPalette`"); + %property(Size, GetSize, SetSize, doc="See `GetSize` and `SetSize`"); + %property(SubBitmap, GetSubBitmap, doc="See `GetSubBitmap`"); + %property(Width, GetWidth, SetWidth, doc="See `GetWidth` and `SetWidth`"); + }; @@ -321,19 +413,6 @@ the ``type`` parameter.", ""); // use the Abstract Pixel API to be able to set RGB and A bytes directly into // the wxBitmap's pixel buffer. -%{ -// See http://tinyurl.com/e5adr for what premultiplying alpha means. It -// appears to me that the other platforms are already doing it, so I'll just -// automatically do it for wxMSW here. -#ifdef __WXMSW__ -#define wxPy_premultiply(p, a) ((p) * (a) / 256) -#define wxPy_unpremultiply(p, a) ((a) ? ((p) * 256 / (a)) : (p)) -#else -#define wxPy_premultiply(p, a) (p) -#define wxPy_unpremultiply(p, a) (p) -#endif -%} - %newobject _BitmapFromBufferAlpha; %newobject _BitmapFromBuffer; @@ -416,29 +495,26 @@ the ``type`` parameter.", ""); def BitmapFromBuffer(width, height, dataBuffer, alphaBuffer=None): """ Creates a `wx.Bitmap` from the data in dataBuffer. The dataBuffer - parameter must be a Python object that implements the buffer interface, or - is convertable to a buffer object, such as a string, array, etc. The - dataBuffer object is expected to contain a series of RGB bytes and be - width*height*3 bytes long. A buffer object can optionally be supplied for - the image's alpha channel data, and it is expected to be width*height - bytes long. On Windows the RGB values are 'premultiplied' by the alpha - values. (The other platforms appear to already be premultiplying the - alpha.) - - Unlike `wx.ImageFromBuffer` the bitmap created with this function does not - share the memory buffer with the buffer object. This is because the - native pixel buffer format varies on different platforms, and so instead - an efficient as possible copy of the data is made from the buffer objects - to the bitmap's native pixel buffer. For direct access to a bitmap's - pixel buffer see `wx.NativePixelData` and `wx.AlphaPixelData`. + parameter must be a Python object that implements the buffer + interface, such as a string, array, etc. The dataBuffer object is + expected to contain a series of RGB bytes and be width*height*3 + bytes long. A buffer object can optionally be supplied for the + image's alpha channel data, and it is expected to be width*height + bytes long. On Windows the RGB values are 'premultiplied' by the + alpha values. (The other platforms do the multiplication + themselves.) + + Unlike `wx.ImageFromBuffer` the bitmap created with this function + does not share the memory buffer with the buffer object. This is + because the native pixel buffer format varies on different + platforms, and so instead an efficient as possible copy of the + data is made from the buffer objects to the bitmap's native pixel + buffer. For direct access to a bitmap's pixel buffer see + `wx.NativePixelData` and `wx.AlphaPixelData`. :see: `wx.Bitmap`, `wx.BitmapFromBufferRGBA`, `wx.NativePixelData`, `wx.AlphaPixelData`, `wx.ImageFromBuffer` """ - if not isinstance(dataBuffer, buffer): - dataBuffer = buffer(dataBuffer) - if alphaBuffer is not None and not isinstance(alphaBuffer, buffer): - alphaBuffer = buffer(alphaBuffer) if alphaBuffer is not None: return _gdi_._BitmapFromBufferAlpha(width, height, dataBuffer, alphaBuffer) else: @@ -488,25 +564,24 @@ def BitmapFromBuffer(width, height, dataBuffer, alphaBuffer=None): def BitmapFromBufferRGBA(width, height, dataBuffer): """ Creates a `wx.Bitmap` from the data in dataBuffer. The dataBuffer - parameter must be a Python object that implements the buffer interface, or - is convertable to a buffer object, such as a string, array, etc. The - dataBuffer object is expected to contain a series of RGBA bytes (red, - green, blue and alpha) and be width*height*4 bytes long. On Windows the - RGB values are 'premultiplied' by the alpha values. (The other platforms - appear to already be premultiplying the alpha.) - - Unlike `wx.ImageFromBuffer` the bitmap created with this function does not - share the memory buffer with the buffer object. This is because the - native pixel buffer format varies on different platforms, and so instead - an efficient as possible copy of the data is made from the buffer object - to the bitmap's native pixel buffer. For direct access to a bitmap's - pixel buffer see `wx.NativePixelData` and `wx.AlphaPixelData`. + parameter must be a Python object that implements the buffer + interface, such as a string, array, etc. The dataBuffer object is + expected to contain a series of RGBA bytes (red, green, blue and + alpha) and be width*height*4 bytes long. On Windows the RGB + values are 'premultiplied' by the alpha values. (The other + platforms do the multiplication themselves.) + + Unlike `wx.ImageFromBuffer` the bitmap created with this function + does not share the memory buffer with the buffer object. This is + because the native pixel buffer format varies on different + platforms, and so instead an efficient as possible copy of the + data is made from the buffer object to the bitmap's native pixel + buffer. For direct access to a bitmap's pixel buffer see + `wx.NativePixelData` and `wx.AlphaPixelData`. :see: `wx.Bitmap`, `wx.BitmapFromBuffer`, `wx.NativePixelData`, `wx.AlphaPixelData`, `wx.ImageFromBuffer` """ - if not isinstance(dataBuffer, buffer): - dataBuffer = buffer(dataBuffer) return _gdi_._BitmapFromBufferRGBA(width, height, dataBuffer) } @@ -528,15 +603,22 @@ public: // the distance between two rows int GetRowStride() const { return m_stride; } + %property(Height, GetHeight, doc="See `GetHeight`"); + %property(Origin, GetOrigin, doc="See `GetOrigin`"); + %property(RowStride, GetRowStride, doc="See `GetRowStride`"); + %property(Size, GetSize, doc="See `GetSize`"); + %property(Width, GetWidth, doc="See `GetWidth`"); }; +// Both wxNativePixelData and wxAlphaPixelData have the same interface, so +// make a macro to declare them both. %define PIXELDATA(PixelData) %{ - typedef PixelData##::Iterator PixelData##_Iterator; + typedef PixelData##::Iterator PixelData##_Accessor; %} -class PixelData##_Iterator; +class PixelData##_Accessor; class PixelData : public wxPixelDataBase { public: @@ -548,32 +630,71 @@ public: ~PixelData(); + PixelData##_Accessor GetPixels() const; + void UseAlpha(); + %extend { bool __nonzero__() { return self->operator bool(); } } - PixelData##_Iterator GetPixels() const; - void UseAlpha(); + %pythoncode { + def __iter__(self): + """ + Create and return an iterator object for this pixel data + object. (It's really a generator but I won't tell if you + don't tell.) + """ + width = self.GetWidth() + height = self.GetHeight() + pixels = self.GetPixels() + + # This class is a facade over the pixels object (using the one + # in the enclosing scope) that only allows Get() and Set() to + # be called. + class PixelFacade(object): + def Get(self): + return pixels.Get() + def Set(self, *args, **kw): + return pixels.Set(*args, **kw) + def __str__(self): + return str(self.Get()) + def __repr__(self): + return 'pixel(%d,%d): %s' % (x,y,self.Get()) + X = property(lambda self: x) + Y = property(lambda self: y) + + pf = PixelFacade() + for y in xrange(height): + for x in xrange(width): + # We always generate the same pf instance, but it + # accesses the pixels object which we use to iterate + # over the pixel buffer. + yield pf + pixels.nextPixel() + pixels.MoveTo(self, 0, y) + } + + %property(Pixels, GetPixels, doc="See `GetPixels`"); }; -class PixelData##_Iterator +class PixelData##_Accessor { public: - %nokwargs PixelData##_Iterator; + %nokwargs PixelData##_Accessor; - PixelData##_Iterator(PixelData& data); - PixelData##_Iterator(wxBitmap& bmp, PixelData& data); - PixelData##_Iterator(); + PixelData##_Accessor(PixelData& data); + PixelData##_Accessor(wxBitmap& bmp, PixelData& data); + PixelData##_Accessor(); - ~PixelData##_Iterator(); + ~PixelData##_Accessor(); void Reset(const PixelData& data); bool IsOk() const; %extend { - // PixelData##_Iterator& nextPixel() { return ++(*self); } + // PixelData##_Accessor& nextPixel() { return ++(*self); } void nextPixel() { ++(*self); } } @@ -582,10 +703,12 @@ public: void OffsetY(const PixelData& data, int y); void MoveTo(const PixelData& data, int x, int y); -// NOTE: For now I'm not wrapping the Red, Green, Blue and Alpha functions -// because I can't hide the premultiplying needed on wxMSW if only the -// individual components are wrapped. Instead I've added the Set and Get -// functions and put the puemultiplying in there. +// NOTE: For now I'm not wrapping the Red, Green, Blue and Alpha +// functions because I can't hide the premultiplying needed on wxMSW +// if only the individual components are wrapped, plus it would mean 3 +// or 4 trips per pixel from Python to C++ instead of just one. +// Instead I've added the Set and Get functions and put the +// premultiplying in there. // %extend { // byte _get_Red() { return self->Red(); } @@ -606,14 +729,18 @@ public: %enddef +%pythonAppend wxAlphaPixelData::wxAlphaPixelData "self.UseAlpha()" + +// Make the classes PIXELDATA(wxNativePixelData) PIXELDATA(wxAlphaPixelData) // Add in a few things that are different between the wxNativePixelData and -// wxAlphaPixelData iterators and so are not included in our macro... +// wxAlphaPixelData and the iterator classes and so are not included in our +// macro... -%extend wxNativePixelData_Iterator { +%extend wxNativePixelData_Accessor { void Set(byte red, byte green, byte blue) { self->Red() = red; self->Green() = green; @@ -629,7 +756,7 @@ PIXELDATA(wxAlphaPixelData) } } -%extend wxAlphaPixelData_Iterator { +%extend wxAlphaPixelData_Accessor { // byte _get_Alpha() { return self->Alpha(); } // void _set_Alpha(byte val) { self->Alpha() = val; } @@ -659,6 +786,7 @@ PIXELDATA(wxAlphaPixelData) } } + //--------------------------------------------------------------------------- DocStr(wxMask, @@ -688,7 +816,7 @@ passed then BLACK is used. %extend { wxMask(const wxBitmap& bitmap, const wxColour& colour = wxNullColour) { - if ( !colour.Ok() ) + if ( !colour.IsOk() ) return new wxMask(bitmap, *wxBLACK); else return new wxMask(bitmap, colour); @@ -702,4 +830,6 @@ passed then BLACK is used. //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- + +// Turn GIL acquisition back on. %threadWrapperOn