///////////////////////////////////////////////////////////////////////////// // Name: src/generic/graphicc.cpp // Purpose: cairo device context class // Author: Stefan Csomor // Modified by: // Created: 2006-10-03 // Copyright: (c) 2006 Stefan Csomor // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #if wxUSE_GRAPHICS_CONTEXT #include "wx/graphics.h" #if wxUSE_CAIRO #ifndef __WXGTK20__ // keep cairo.h from defining dllimport as we're defining the symbols inside // the wx dll in order to load them dynamically. #define cairo_public #endif #include #include bool wxCairoInit(); #ifndef WX_PRECOMP #include "wx/bitmap.h" #include "wx/icon.h" #include "wx/dcclient.h" #include "wx/dcmemory.h" #include "wx/dcprint.h" #include "wx/window.h" #endif #include "wx/private/graphics.h" #include "wx/rawbmp.h" #include "wx/vector.h" #ifdef __WXMSW__ #include "wx/msw/enhmeta.h" #endif using namespace std; //----------------------------------------------------------------------------- // device context implementation // // more and more of the dc functionality should be implemented by calling // the appropricate wxCairoContext, but we will have to do that step by step // also coordinate conversions should be moved to native matrix ops //----------------------------------------------------------------------------- // we always stock two context states, one at entry, to be able to preserve the // state we were called with, the other one after changing to HI Graphics orientation // (this one is used for getting back clippings etc) //----------------------------------------------------------------------------- // wxGraphicsPath implementation //----------------------------------------------------------------------------- #ifdef __WXMSW__ // TODO remove this dependency (gdiplus needs the macros) #ifndef max #define max(a,b) (((a) > (b)) ? (a) : (b)) #endif #ifndef min #define min(a,b) (((a) < (b)) ? (a) : (b)) #endif #include // Notice that the order is important: cairo-win32.h includes windows.h which // pollutes the global name space with macros so include our own header which // #undefines them after it. #include "wx/msw/private.h" #endif #ifdef __WXGTK__ #ifdef __WXGTK20__ #include "wx/gtk/private/wrapgtk.h" #else // GTK+ 1.x #include #endif #include "wx/fontutil.h" #ifndef __WXGTK3__ #include "wx/gtk/dc.h" #endif #include "wx/gtk/private/object.h" #endif #ifdef __WXQT__ #include #include "wx/qt/dc.h" #endif #ifdef __WXMAC__ #include "wx/osx/private.h" #include #endif // Helper functions for dealing with alpha pre-multiplication. namespace { inline unsigned char Premultiply(unsigned char alpha, unsigned char data) { return alpha ? (data * alpha) / 0xff : data; } inline unsigned char Unpremultiply(unsigned char alpha, unsigned char data) { return alpha ? (data * 0xff) / alpha : data; } } // anonymous namespace class WXDLLIMPEXP_CORE wxCairoPathData : public wxGraphicsPathData { public : wxCairoPathData(wxGraphicsRenderer* renderer, cairo_t* path = NULL); ~wxCairoPathData(); virtual wxGraphicsObjectRefData *Clone() const wxOVERRIDE; // // These are the path primitives from which everything else can be constructed // // begins a new subpath at (x,y) virtual void MoveToPoint( wxDouble x, wxDouble y ) wxOVERRIDE; // adds a straight line from the current point to (x,y) virtual void AddLineToPoint( wxDouble x, wxDouble y ) wxOVERRIDE; // adds a cubic Bezier curve from the current point, using two control points and an end point virtual void AddCurveToPoint( wxDouble cx1, wxDouble cy1, wxDouble cx2, wxDouble cy2, wxDouble x, wxDouble y ) wxOVERRIDE; // adds an arc of a circle centering at (x,y) with radius (r) from startAngle to endAngle virtual void AddArc( wxDouble x, wxDouble y, wxDouble r, wxDouble startAngle, wxDouble endAngle, bool clockwise ) wxOVERRIDE ; // gets the last point of the current path, (0,0) if not yet set virtual void GetCurrentPoint( wxDouble* x, wxDouble* y) const wxOVERRIDE; // adds another path virtual void AddPath( const wxGraphicsPathData* path ) wxOVERRIDE; // closes the current sub-path virtual void CloseSubpath() wxOVERRIDE; // // These are convenience functions which - if not available natively will be assembled // using the primitives from above // // appends a rectangle as a new closed subpath virtual void AddRectangle(wxDouble x, wxDouble y, wxDouble w, wxDouble h) wxOVERRIDE; // appends a circle as a new closed subpath virtual void AddCircle(wxDouble x, wxDouble y, wxDouble r) wxOVERRIDE; // appends an ellipse as a new closed subpath fitting the passed rectangle virtual void AddEllipse(wxDouble x, wxDouble y, wxDouble w, wxDouble h) wxOVERRIDE; /* // draws a an arc to two tangents connecting (current) to (x1,y1) and (x1,y1) to (x2,y2), also a straight line from (current) to (x1,y1) virtual void AddArcToPoint( wxDouble x1, wxDouble y1 , wxDouble x2, wxDouble y2, wxDouble r ) ; */ // returns the native path virtual void * GetNativePath() const wxOVERRIDE ; // give the native path returned by GetNativePath() back (there might be some deallocations necessary) virtual void UnGetNativePath(void *p) const wxOVERRIDE; // transforms each point of this path by the matrix virtual void Transform( const wxGraphicsMatrixData* matrix ) wxOVERRIDE ; // gets the bounding box enclosing all points (possibly including control points) virtual void GetBox(wxDouble *x, wxDouble *y, wxDouble *w, wxDouble *h) const wxOVERRIDE; virtual bool Contains( wxDouble x, wxDouble y, wxPolygonFillMode fillStyle = wxWINDING_RULE) const wxOVERRIDE; private : cairo_t* m_pathContext; }; class WXDLLIMPEXP_CORE wxCairoMatrixData : public wxGraphicsMatrixData { public : wxCairoMatrixData(wxGraphicsRenderer* renderer, const cairo_matrix_t* matrix = NULL ) ; virtual ~wxCairoMatrixData() ; virtual wxGraphicsObjectRefData *Clone() const wxOVERRIDE ; // concatenates the matrix virtual void Concat( const wxGraphicsMatrixData *t ) wxOVERRIDE; // sets the matrix to the respective values virtual void Set(wxDouble a=1.0, wxDouble b=0.0, wxDouble c=0.0, wxDouble d=1.0, wxDouble tx=0.0, wxDouble ty=0.0) wxOVERRIDE; // gets the component valuess of the matrix virtual void Get(wxDouble* a=NULL, wxDouble* b=NULL, wxDouble* c=NULL, wxDouble* d=NULL, wxDouble* tx=NULL, wxDouble* ty=NULL) const wxOVERRIDE; // makes this the inverse matrix virtual void Invert() wxOVERRIDE; // returns true if the elements of the transformation matrix are equal ? virtual bool IsEqual( const wxGraphicsMatrixData* t) const wxOVERRIDE ; // return true if this is the identity matrix virtual bool IsIdentity() const wxOVERRIDE; // // transformation // // add the translation to this matrix virtual void Translate( wxDouble dx , wxDouble dy ) wxOVERRIDE; // add the scale to this matrix virtual void Scale( wxDouble xScale , wxDouble yScale ) wxOVERRIDE; // add the rotation to this matrix (radians) virtual void Rotate( wxDouble angle ) wxOVERRIDE; // // apply the transforms // // applies that matrix to the point virtual void TransformPoint( wxDouble *x, wxDouble *y ) const wxOVERRIDE; // applies the matrix except for translations virtual void TransformDistance( wxDouble *dx, wxDouble *dy ) const wxOVERRIDE; // returns the native representation virtual void * GetNativeMatrix() const wxOVERRIDE; private: cairo_matrix_t m_matrix ; } ; // Common base class for pens and brushes. class wxCairoPenBrushBaseData : public wxGraphicsObjectRefData { public: wxCairoPenBrushBaseData(wxGraphicsRenderer* renderer, const wxColour& col, bool isTransparent); virtual ~wxCairoPenBrushBaseData(); virtual void Apply( wxGraphicsContext* context ); void CreateLinearGradientPattern(wxDouble x1, wxDouble y1, wxDouble x2, wxDouble y2, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix = wxNullGraphicsMatrix); void CreateRadialGradientPattern(wxDouble startX, wxDouble startY, wxDouble endX, wxDouble endY, wxDouble radius, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix = wxNullGraphicsMatrix); protected: // Call this to use the given bitmap as stipple. Bitmap must be non-null // and valid. void InitStipple(wxBitmap* bmp); // Call this to use the given hatch style. Hatch style must be valid. void InitHatch(wxHatchStyle hatchStyle); // common part of Create{Linear,Radial}GradientPattern() void AddGradientStops(const wxGraphicsGradientStops& stops); double m_red; double m_green; double m_blue; double m_alpha; cairo_pattern_t* m_pattern; class wxCairoBitmapData* m_bmpdata; private: // Called once to allocate m_pattern if needed. void InitHatchPattern(cairo_t* ctext); wxHatchStyle m_hatchStyle; wxDECLARE_NO_COPY_CLASS(wxCairoPenBrushBaseData); }; class WXDLLIMPEXP_CORE wxCairoPenData : public wxCairoPenBrushBaseData { public: wxCairoPenData( wxGraphicsRenderer* renderer, const wxGraphicsPenInfo &info ); ~wxCairoPenData(); void Init(); virtual void Apply( wxGraphicsContext* context ) wxOVERRIDE; wxDouble GetWidth() { return m_width; } private : double m_width; cairo_line_cap_t m_cap; cairo_line_join_t m_join; int m_count; const double *m_lengths; double *m_userLengths; wxDECLARE_NO_COPY_CLASS(wxCairoPenData); }; class WXDLLIMPEXP_CORE wxCairoBrushData : public wxCairoPenBrushBaseData { public: wxCairoBrushData( wxGraphicsRenderer* renderer ); wxCairoBrushData( wxGraphicsRenderer* renderer, const wxBrush &brush ); protected: void Init(); }; class wxCairoFontData : public wxGraphicsObjectRefData { public: wxCairoFontData( wxGraphicsRenderer* renderer, const wxFont &font, const wxColour& col ); wxCairoFontData(wxGraphicsRenderer* renderer, double sizeInPixels, const wxString& facename, int flags, const wxColour& col); ~wxCairoFontData(); void Apply( wxGraphicsContext* context ); #ifdef __WXGTK__ const wxFont& GetFont() const { return m_wxfont; } #endif private : void InitColour(const wxColour& col); void InitFontComponents(const wxString& facename, cairo_font_slant_t slant, cairo_font_weight_t weight); double m_size; double m_red; double m_green; double m_blue; double m_alpha; #ifdef __WXMAC__ cairo_font_face_t *m_font; #elif defined(__WXGTK__) wxFont m_wxfont; #endif // These members are used when the font is created from its face name and // flags (and not from wxFont) and also even when creating it from wxFont // on the platforms not covered above. // // Notice that we can't use cairo_font_face_t instead of storing those, // even though it would be simpler and need less #ifdefs, because // cairo_toy_font_face_create() that we'd need to create it is only // available in Cairo 1.8 and we require just 1.2 currently. If we do drop // support for < 1.8 versions in the future it would be definitely better // to use cairo_toy_font_face_create() instead. wxCharBuffer m_fontName; cairo_font_slant_t m_slant; cairo_font_weight_t m_weight; }; class wxCairoBitmapData : public wxGraphicsBitmapData { public: wxCairoBitmapData( wxGraphicsRenderer* renderer, const wxBitmap& bmp ); #if wxUSE_IMAGE wxCairoBitmapData(wxGraphicsRenderer* renderer, const wxImage& image); #endif // wxUSE_IMAGE wxCairoBitmapData( wxGraphicsRenderer* renderer, cairo_surface_t* bitmap ); ~wxCairoBitmapData(); cairo_surface_t* GetCairoSurface() { return m_surface; } cairo_pattern_t* GetCairoPattern() { return m_pattern; } void* GetNativeBitmap() const wxOVERRIDE { return m_surface; } wxSize GetSize() { return wxSize(m_width, m_height); } #if wxUSE_IMAGE wxImage ConvertToImage() const; #endif // wxUSE_IMAGE private : // Allocate m_buffer for the bitmap of the given size in the given format. // // Returns the stride used for the buffer. int InitBuffer(int width, int height, cairo_format_t format); // Really create the surface using the buffer (which was supposed to be // filled since InitBuffer() call). void InitSurface(cairo_format_t format, int stride); cairo_surface_t* m_surface; cairo_pattern_t* m_pattern; int m_width; int m_height; unsigned char* m_buffer; }; class WXDLLIMPEXP_CORE wxCairoContext : public wxGraphicsContext { public: wxCairoContext( wxGraphicsRenderer* renderer, const wxWindowDC& dc ); wxCairoContext( wxGraphicsRenderer* renderer, const wxMemoryDC& dc ); #if wxUSE_PRINTING_ARCHITECTURE wxCairoContext( wxGraphicsRenderer* renderer, const wxPrinterDC& dc ); #endif #ifdef __WXGTK__ wxCairoContext( wxGraphicsRenderer* renderer, GdkWindow *window ); #endif #ifdef __WXMSW__ #if wxUSE_ENH_METAFILE wxCairoContext(wxGraphicsRenderer* renderer, const wxEnhMetaFileDC& dc); #endif // wxUSE_ENH_METAFILE wxCairoContext( wxGraphicsRenderer* renderer, HDC context ); wxCairoContext(wxGraphicsRenderer* renderer, HWND hWnd); #endif wxCairoContext( wxGraphicsRenderer* renderer, cairo_t *context ); wxCairoContext( wxGraphicsRenderer* renderer, wxWindow *window); // If this ctor is used, Init() must be called by the derived class later. wxCairoContext( wxGraphicsRenderer* renderer ); virtual ~wxCairoContext(); virtual bool ShouldOffset() const wxOVERRIDE { if ( !m_enableOffset ) return false; int penwidth = 0 ; if ( !m_pen.IsNull() ) { penwidth = (int)((wxCairoPenData*)m_pen.GetRefData())->GetWidth(); if ( penwidth == 0 ) penwidth = 1; } return ( penwidth % 2 ) == 1; } virtual void Clip( const wxRegion ®ion ) wxOVERRIDE; // clips drawings to the rect virtual void Clip( wxDouble x, wxDouble y, wxDouble w, wxDouble h ) wxOVERRIDE; // resets the clipping to original extent virtual void ResetClip() wxOVERRIDE; // returns bounding box of the clipping region virtual void GetClipBox(wxDouble* x, wxDouble* y, wxDouble* w, wxDouble* h) wxOVERRIDE; virtual void * GetNativeContext() wxOVERRIDE; virtual bool SetAntialiasMode(wxAntialiasMode antialias) wxOVERRIDE; virtual bool SetInterpolationQuality(wxInterpolationQuality interpolation) wxOVERRIDE; virtual bool SetCompositionMode(wxCompositionMode op) wxOVERRIDE; virtual void BeginLayer(wxDouble opacity) wxOVERRIDE; virtual void EndLayer() wxOVERRIDE; virtual void StrokePath( const wxGraphicsPath& p ) wxOVERRIDE; virtual void FillPath( const wxGraphicsPath& p , wxPolygonFillMode fillStyle = wxWINDING_RULE ) wxOVERRIDE; virtual void ClearRectangle( wxDouble x, wxDouble y, wxDouble w, wxDouble h ) wxOVERRIDE; virtual void DrawRectangle( wxDouble x, wxDouble y, wxDouble w, wxDouble h) wxOVERRIDE; virtual void Translate( wxDouble dx , wxDouble dy ) wxOVERRIDE; virtual void Scale( wxDouble xScale , wxDouble yScale ) wxOVERRIDE; virtual void Rotate( wxDouble angle ) wxOVERRIDE; // concatenates this transform with the current transform of this context virtual void ConcatTransform( const wxGraphicsMatrix& matrix ) wxOVERRIDE; // sets the transform of this context virtual void SetTransform( const wxGraphicsMatrix& matrix ) wxOVERRIDE; // gets the matrix of this context virtual wxGraphicsMatrix GetTransform() const wxOVERRIDE; virtual void DrawBitmap( const wxGraphicsBitmap &bmp, wxDouble x, wxDouble y, wxDouble w, wxDouble h ) wxOVERRIDE; virtual void DrawBitmap( const wxBitmap &bmp, wxDouble x, wxDouble y, wxDouble w, wxDouble h ) wxOVERRIDE; virtual void DrawIcon( const wxIcon &icon, wxDouble x, wxDouble y, wxDouble w, wxDouble h ) wxOVERRIDE; virtual void PushState() wxOVERRIDE; virtual void PopState() wxOVERRIDE; virtual void Flush() wxOVERRIDE; virtual void GetTextExtent( const wxString &str, wxDouble *width, wxDouble *height, wxDouble *descent, wxDouble *externalLeading ) const wxOVERRIDE; virtual void GetPartialTextExtents(const wxString& text, wxArrayDouble& widths) const wxOVERRIDE; protected: virtual void DoDrawText( const wxString &str, wxDouble x, wxDouble y ) wxOVERRIDE; void Init(cairo_t *context); enum ApplyTransformMode { Apply_directly, Apply_scaled_dev_origin }; void ApplyTransformFromDC(const wxDC& dc, ApplyTransformMode mode = Apply_directly); #ifdef __WXQT__ QPainter* m_qtPainter; QImage* m_qtImage; cairo_surface_t* m_qtSurface; #endif #ifdef __WXMSW__ cairo_surface_t* m_mswSurface; WindowHDC m_mswWindowHDC; int m_mswStateSavedDC; #endif #ifdef __WXGTK__ // Tiny helper actually applying the font. It's convenient because it can // be called with a temporary wxFont, as we're going to make a copy of its // Pango font description inside this function before the font object is // destroyed. // // It's also all we need for GTK < 3. static void DoApplyFont(PangoLayout* layout, const wxFont& font) { pango_layout_set_font_description ( layout, font.GetNativeFontInfo()->description ); } #ifdef __WXGTK3__ // This factor must be applied to the font before actually using it, for // consistency with the text drawn by GTK itself. float m_fontScalingFactor; // Function applying the Pango font description for the given font scaled by // the font scaling factor if necessary to the specified layout. void ApplyFont(PangoLayout* layout, const wxFont& font) const { // Only scale the font if we really need to do it. DoApplyFont(layout, m_fontScalingFactor == 1.0f ? font : font.Scaled(m_fontScalingFactor)); } #else // GTK < 3 // Provide the same function even if it does nothing in this case to keep // the same code for all GTK versions. void ApplyFont(PangoLayout* layout, const wxFont& font) const { DoApplyFont(layout, font); } #endif // __WXGTK3__ #endif // __WXGTK__ private: cairo_t* m_context; cairo_matrix_t m_internalTransform; wxVector m_layerOpacities; wxDECLARE_NO_COPY_CLASS(wxCairoContext); }; #if wxUSE_IMAGE // ---------------------------------------------------------------------------- // wxCairoImageContext: context associated with a wxImage. // ---------------------------------------------------------------------------- class wxCairoImageContext : public wxCairoContext { public: wxCairoImageContext(wxGraphicsRenderer* renderer, wxImage& image) : wxCairoContext(renderer), m_image(image), m_data(renderer, image) { Init(cairo_create(m_data.GetCairoSurface())); } virtual ~wxCairoImageContext() { Flush(); } virtual void Flush() wxOVERRIDE { m_image = m_data.ConvertToImage(); } private: wxImage& m_image; wxCairoBitmapData m_data; wxDECLARE_NO_COPY_CLASS(wxCairoImageContext); }; #endif // wxUSE_IMAGE #ifdef __WXMSW__ class wxCairoMeasuringContext : public wxCairoContext { public: wxCairoMeasuringContext(wxGraphicsRenderer* renderer) : wxCairoContext(renderer, m_hdc = ::GetDC(NULL)) { } virtual ~wxCairoMeasuringContext() { ::ReleaseDC(NULL, m_hdc); } private: HDC m_hdc; }; #endif // __WXMSW__ // ---------------------------------------------------------------------------- // wxCairoPenBrushBaseData implementation //----------------------------------------------------------------------------- wxCairoPenBrushBaseData::wxCairoPenBrushBaseData(wxGraphicsRenderer* renderer, const wxColour& col, bool isTransparent) : wxGraphicsObjectRefData(renderer) { m_hatchStyle = wxHATCHSTYLE_INVALID; m_pattern = NULL; m_bmpdata = NULL; if ( isTransparent || !col.IsOk() ) { m_red = m_green = m_blue = m_alpha = 0; } else // non-transparent { m_red = col.Red()/255.0; m_green = col.Green()/255.0; m_blue = col.Blue()/255.0; m_alpha = col.Alpha()/255.0; } } wxCairoPenBrushBaseData::~wxCairoPenBrushBaseData() { if (m_bmpdata) { // Deleting the bitmap data also deletes the pattern referenced by // m_pattern, so set it to NULL to avoid deleting it twice. delete m_bmpdata; m_pattern = NULL; } if (m_pattern) cairo_pattern_destroy(m_pattern); } void wxCairoPenBrushBaseData::InitHatchPattern(cairo_t* ctext) { cairo_surface_t* const surface = cairo_surface_create_similar( cairo_get_target(ctext), CAIRO_CONTENT_COLOR_ALPHA, 10, 10 ); cairo_t* const cr = cairo_create(surface); cairo_set_line_cap(cr, CAIRO_LINE_CAP_SQUARE); cairo_set_line_width(cr, 1); cairo_set_line_join(cr,CAIRO_LINE_JOIN_MITER); switch ( m_hatchStyle ) { case wxHATCHSTYLE_CROSS: cairo_move_to(cr, 5, 0); cairo_line_to(cr, 5, 10); cairo_move_to(cr, 0, 5); cairo_line_to(cr, 10, 5); break; case wxHATCHSTYLE_BDIAGONAL: cairo_move_to(cr, 0, 10); cairo_line_to(cr, 10, 0); break; case wxHATCHSTYLE_FDIAGONAL: cairo_move_to(cr, 0, 0); cairo_line_to(cr, 10, 10); break; case wxHATCHSTYLE_CROSSDIAG: cairo_move_to(cr, 0, 0); cairo_line_to(cr, 10, 10); cairo_move_to(cr, 10, 0); cairo_line_to(cr, 0, 10); break; case wxHATCHSTYLE_HORIZONTAL: cairo_move_to(cr, 0, 5); cairo_line_to(cr, 10, 5); break; case wxHATCHSTYLE_VERTICAL: cairo_move_to(cr, 5, 0); cairo_line_to(cr, 5, 10); break; default: wxFAIL_MSG(wxS("Invalid hatch pattern style.")); } cairo_set_source_rgba(cr, m_red, m_green, m_blue, m_alpha); cairo_stroke(cr); cairo_destroy(cr); m_pattern = cairo_pattern_create_for_surface(surface); cairo_surface_destroy(surface); cairo_pattern_set_extend(m_pattern, CAIRO_EXTEND_REPEAT); } void wxCairoPenBrushBaseData::InitStipple(wxBitmap* bmp) { wxCHECK_RET( bmp && bmp->IsOk(), wxS("Invalid stippled bitmap") ); m_bmpdata = new wxCairoBitmapData(GetRenderer(), *bmp); m_pattern = m_bmpdata->GetCairoPattern(); cairo_pattern_set_extend(m_pattern, CAIRO_EXTEND_REPEAT); } void wxCairoPenBrushBaseData::InitHatch(wxHatchStyle hatchStyle) { // We can't create m_pattern right now as we don't have the Cairo context // needed for it, so just remember that we need to do it. m_hatchStyle = hatchStyle; } void wxCairoPenBrushBaseData::Apply( wxGraphicsContext* context ) { cairo_t* const ctext = (cairo_t*) context->GetNativeContext(); if ( m_hatchStyle != wxHATCHSTYLE_INVALID && !m_pattern ) InitHatchPattern(ctext); if ( m_pattern ) cairo_set_source(ctext, m_pattern); else cairo_set_source_rgba(ctext, m_red, m_green, m_blue, m_alpha); } void wxCairoPenBrushBaseData::AddGradientStops(const wxGraphicsGradientStops& stops) { // loop over all the stops, they include the beginning and ending ones const unsigned numStops = stops.GetCount(); for ( unsigned n = 0; n < numStops; n++ ) { const wxGraphicsGradientStop stop = stops.Item(n); const wxColour col = stop.GetColour(); cairo_pattern_add_color_stop_rgba ( m_pattern, stop.GetPosition(), col.Red()/255.0, col.Green()/255.0, col.Blue()/255.0, col.Alpha()/255.0 ); } wxASSERT_MSG(cairo_pattern_status(m_pattern) == CAIRO_STATUS_SUCCESS, wxT("Couldn't create cairo pattern")); } void wxCairoPenBrushBaseData::CreateLinearGradientPattern(wxDouble x1, wxDouble y1, wxDouble x2, wxDouble y2, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix) { m_pattern = cairo_pattern_create_linear(x1,y1,x2,y2); if ( !matrix.IsNull() ) { cairo_matrix_t m = *((cairo_matrix_t*) matrix.GetNativeMatrix()); cairo_pattern_set_matrix(m_pattern, &m); } AddGradientStops(stops); } void wxCairoPenBrushBaseData::CreateRadialGradientPattern(wxDouble startX, wxDouble startY, wxDouble endX, wxDouble endY, wxDouble radius, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix) { m_pattern = cairo_pattern_create_radial(startX,startY,0.0,endX,endY,radius); if ( !matrix.IsNull() ) { cairo_matrix_t m = *((cairo_matrix_t*) matrix.GetNativeMatrix()); cairo_pattern_set_matrix(m_pattern, &m); } AddGradientStops(stops); } //----------------------------------------------------------------------------- // wxCairoPenData implementation //----------------------------------------------------------------------------- wxCairoPenData::~wxCairoPenData() { delete[] m_userLengths; } void wxCairoPenData::Init() { m_pattern = NULL; m_lengths = NULL; m_userLengths = NULL; m_width = 0; m_count = 0; } wxCairoPenData::wxCairoPenData( wxGraphicsRenderer* renderer, const wxGraphicsPenInfo &info ) : wxCairoPenBrushBaseData(renderer, info.GetColour(), info.IsTransparent()) { Init(); m_width = info.GetWidth(); if (m_width <= 0.0) m_width = 0.1; switch ( info.GetCap() ) { case wxCAP_ROUND : m_cap = CAIRO_LINE_CAP_ROUND; break; case wxCAP_PROJECTING : m_cap = CAIRO_LINE_CAP_SQUARE; break; case wxCAP_BUTT : m_cap = CAIRO_LINE_CAP_BUTT; break; default : m_cap = CAIRO_LINE_CAP_BUTT; break; } switch ( info.GetJoin() ) { case wxJOIN_BEVEL : m_join = CAIRO_LINE_JOIN_BEVEL; break; case wxJOIN_MITER : m_join = CAIRO_LINE_JOIN_MITER; break; case wxJOIN_ROUND : m_join = CAIRO_LINE_JOIN_ROUND; break; default : m_join = CAIRO_LINE_JOIN_MITER; break; } const double dashUnit = m_width < 1.0 ? 1.0 : m_width; const double dotted[] = { dashUnit , dashUnit + 2.0 }; static const double short_dashed[] = { 9.0 , 6.0 }; static const double dashed[] = { 19.0 , 9.0 }; static const double dotted_dashed[] = { 9.0 , 6.0 , 3.0 , 3.0 }; switch ( info.GetStyle() ) { case wxPENSTYLE_SOLID : // Non-RGB colours, which may e.g. appear under wxOSX for wxColours // with NSColor backend, are not supported by Cairo and have to be // handled in a special way. if ( !info.GetColour().IsSolid() ) { #if defined(__WXOSX_COCOA__) // Under wxOSX, non-solid NSColors are actually represented // by pattern images and therefore a wxPen with non-solid // colour and wxPENSTYLE_SOLID style can be converted // to a stiple (a surface pattern). // Create a stiple bitmap from NSColor's pattern image wxBitmap bmp(info.GetColour().OSXGetNSPatternImage()); InitStipple(&bmp); #else wxFAIL_MSG( "Pen with non-solid colour is not supported." ); #endif } break; case wxPENSTYLE_DOT : m_count = WXSIZEOF(dotted); m_userLengths = new double[ m_count ] ; memcpy( m_userLengths, dotted, sizeof(dotted) ); m_lengths = m_userLengths; break; case wxPENSTYLE_LONG_DASH : m_lengths = dashed ; m_count = WXSIZEOF(dashed); break; case wxPENSTYLE_SHORT_DASH : m_lengths = short_dashed ; m_count = WXSIZEOF(short_dashed); break; case wxPENSTYLE_DOT_DASH : m_lengths = dotted_dashed ; m_count = WXSIZEOF(dotted_dashed); break; case wxPENSTYLE_USER_DASH : { wxDash *wxdashes ; m_count = info.GetDashes( &wxdashes ) ; if ((wxdashes != NULL) && (m_count > 0)) { m_userLengths = new double[m_count] ; for ( int i = 0 ; i < m_count ; ++i ) { m_userLengths[i] = wxdashes[i] * dashUnit ; if ( i % 2 == 1 && m_userLengths[i] < dashUnit + 2.0 ) m_userLengths[i] = dashUnit + 2.0 ; else if ( i % 2 == 0 && m_userLengths[i] < dashUnit ) m_userLengths[i] = dashUnit ; } } m_lengths = m_userLengths ; } break; case wxPENSTYLE_STIPPLE : case wxPENSTYLE_STIPPLE_MASK : case wxPENSTYLE_STIPPLE_MASK_OPAQUE : { wxBitmap stipple = info.GetStipple(); InitStipple(&stipple); } break; default : if ( info.GetStyle() >= wxPENSTYLE_FIRST_HATCH && info.GetStyle() <= wxPENSTYLE_LAST_HATCH ) { wxASSERT_MSG( info.GetColour().IsSolid(), "Pen with non-solid colour is not supported." ); InitHatch(static_cast(info.GetStyle())); } break; } switch ( info.GetGradientType() ) { case wxGRADIENT_NONE: break; case wxGRADIENT_LINEAR: CreateLinearGradientPattern(info.GetX1(), info.GetY1(), info.GetX2(), info.GetY2(), info.GetStops(), info.GetMatrix()); break; case wxGRADIENT_RADIAL: CreateRadialGradientPattern(info.GetStartX(), info.GetStartY(), info.GetEndX(), info.GetEndY(), info.GetRadius(), info.GetStops(), info.GetMatrix()); break; } } void wxCairoPenData::Apply( wxGraphicsContext* context ) { wxCairoPenBrushBaseData::Apply(context); cairo_t * ctext = (cairo_t*) context->GetNativeContext(); cairo_set_line_width(ctext,m_width); cairo_set_line_cap(ctext,m_cap); cairo_set_line_join(ctext,m_join); cairo_set_dash(ctext, m_lengths, m_count, 0); } //----------------------------------------------------------------------------- // wxCairoBrushData implementation //----------------------------------------------------------------------------- wxCairoBrushData::wxCairoBrushData( wxGraphicsRenderer* renderer ) : wxCairoPenBrushBaseData(renderer, wxColour(), true /* transparent */) { Init(); } wxCairoBrushData::wxCairoBrushData( wxGraphicsRenderer* renderer, const wxBrush &brush ) : wxCairoPenBrushBaseData(renderer, brush.GetColour(), brush.IsTransparent()) { Init(); switch ( brush.GetStyle() ) { case wxBRUSHSTYLE_STIPPLE: case wxBRUSHSTYLE_STIPPLE_MASK: case wxBRUSHSTYLE_STIPPLE_MASK_OPAQUE: InitStipple(brush.GetStipple()); break; case wxBRUSHSTYLE_SOLID: // Non-RGB colours, which may e.g. appear under wxOSX for wxColours // with NSColor backend, are not supported by Cairo and have to be // handled in a special way. if ( !brush.GetColour().IsSolid() ) { #if defined(__WXOSX_COCOA__) // Under wxOSX, non-solid NSColors are actually represented // by pattern images and therefore a wxBrush with non-solid // colour and wxBRUSHSTYLE_SOLID style can be converted // to a stiple (a surface pattern). // Create a stiple bitmap from NSColor's pattern image wxBitmap bmp(brush.GetColour().OSXGetNSPatternImage()); InitStipple(&bmp); #else wxFAIL_MSG( "Brush with non-solid colour is not supported." ); #endif } break; default: if ( brush.IsHatch() ) { wxASSERT_MSG( brush.GetColour().IsSolid(), "Brush with non-solid colour is not supported." ); InitHatch(static_cast(brush.GetStyle())); } break; } } void wxCairoBrushData::Init() { m_pattern = NULL; m_bmpdata = NULL; } //----------------------------------------------------------------------------- // wxCairoFontData implementation //----------------------------------------------------------------------------- void wxCairoFontData::InitColour(const wxColour& col) { m_red = col.Red()/255.0; m_green = col.Green()/255.0; m_blue = col.Blue()/255.0; m_alpha = col.Alpha()/255.0; } void wxCairoFontData::InitFontComponents(const wxString& facename, cairo_font_slant_t slant, cairo_font_weight_t weight) { m_fontName = facename.mb_str(wxConvUTF8); m_slant = slant; m_weight = weight; } wxCairoFontData::wxCairoFontData( wxGraphicsRenderer* renderer, const wxFont &font, const wxColour& col ) : wxGraphicsObjectRefData(renderer) #ifdef __WXGTK__ , m_wxfont(font) #endif { InitColour(col); m_size = font.GetPointSize(); #ifdef __WXMAC__ m_font = cairo_quartz_font_face_create_for_cgfont( font.OSXGetCGFont() ); #elif defined(__WXGTK__) #else InitFontComponents ( font.GetFaceName(), font.GetStyle() == wxFONTSTYLE_ITALIC ? CAIRO_FONT_SLANT_ITALIC : CAIRO_FONT_SLANT_NORMAL, font.GetWeight() == wxFONTWEIGHT_BOLD ? CAIRO_FONT_WEIGHT_BOLD : CAIRO_FONT_WEIGHT_NORMAL ); #endif } wxCairoFontData::wxCairoFontData(wxGraphicsRenderer* renderer, double sizeInPixels, const wxString& facename, int flags, const wxColour& col) : wxGraphicsObjectRefData(renderer) #ifdef __WXGTK__ , m_wxfont(wxFontInfo(wxSize(sizeInPixels, sizeInPixels)) .AllFlags(flags).FaceName(facename)) #endif { InitColour(col); // Resolution for Cairo image surfaces is 72 DPI meaning that the sizes in // points and pixels are identical, so we can just pass the size in pixels // directly to cairo_set_font_size(). m_size = sizeInPixels; #if defined(__WXMAC__) m_font = NULL; #endif // There is no need to set m_underlined under wxGTK in this case, it can // only be used if m_font != NULL. InitFontComponents ( facename, flags & wxFONTFLAG_ITALIC ? CAIRO_FONT_SLANT_ITALIC : CAIRO_FONT_SLANT_NORMAL, flags & wxFONTFLAG_BOLD ? CAIRO_FONT_WEIGHT_BOLD : CAIRO_FONT_WEIGHT_NORMAL ); } wxCairoFontData::~wxCairoFontData() { #ifdef __WXMAC__ if ( m_font ) cairo_font_face_destroy( m_font ); #endif } void wxCairoFontData::Apply( wxGraphicsContext* context ) { cairo_t * ctext = (cairo_t*) context->GetNativeContext(); cairo_set_source_rgba(ctext,m_red,m_green, m_blue,m_alpha); #ifdef __WXGTK__ if (m_wxfont.IsOk()) { // Nothing to do, the caller uses Pango layout functions to do // everything. return; } #elif defined(__WXMAC__) if ( m_font ) { cairo_set_font_face(ctext, m_font); cairo_set_font_size(ctext, m_size ); return; } #endif // If we get here, we must be on a platform without native font support or // we're using toy Cairo API even under wxGTK/wxMac. cairo_select_font_face(ctext, m_fontName, m_slant, m_weight ); cairo_set_font_size(ctext, m_size ); } //----------------------------------------------------------------------------- // wxCairoPathData implementation //----------------------------------------------------------------------------- wxCairoPathData::wxCairoPathData( wxGraphicsRenderer* renderer, cairo_t* pathcontext) : wxGraphicsPathData(renderer) { if (pathcontext) { m_pathContext = pathcontext; } else { cairo_surface_t* surface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32,1,1); m_pathContext = cairo_create(surface); cairo_surface_destroy (surface); } } wxCairoPathData::~wxCairoPathData() { cairo_destroy(m_pathContext); } wxGraphicsObjectRefData *wxCairoPathData::Clone() const { cairo_surface_t* surface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32,1,1); cairo_t* pathcontext = cairo_create(surface); cairo_surface_destroy (surface); cairo_path_t* path = cairo_copy_path(m_pathContext); cairo_append_path(pathcontext, path); cairo_path_destroy(path); return new wxCairoPathData( GetRenderer() ,pathcontext); } void* wxCairoPathData::GetNativePath() const { return cairo_copy_path(m_pathContext) ; } void wxCairoPathData::UnGetNativePath(void *p) const { cairo_path_destroy((cairo_path_t*)p); } // // The Primitives // void wxCairoPathData::MoveToPoint( wxDouble x , wxDouble y ) { cairo_move_to(m_pathContext,x,y); } void wxCairoPathData::AddLineToPoint( wxDouble x , wxDouble y ) { cairo_line_to(m_pathContext,x,y); } void wxCairoPathData::AddPath( const wxGraphicsPathData* path ) { cairo_path_t* p = (cairo_path_t*)path->GetNativePath(); cairo_append_path(m_pathContext, p); UnGetNativePath(p); } void wxCairoPathData::CloseSubpath() { cairo_close_path(m_pathContext); } void wxCairoPathData::AddCurveToPoint( wxDouble cx1, wxDouble cy1, wxDouble cx2, wxDouble cy2, wxDouble x, wxDouble y ) { cairo_curve_to(m_pathContext,cx1,cy1,cx2,cy2,x,y); } // gets the last point of the current path, (0,0) if not yet set void wxCairoPathData::GetCurrentPoint( wxDouble* x, wxDouble* y) const { double dx,dy; cairo_get_current_point(m_pathContext,&dx,&dy); if (x) *x = dx; if (y) *y = dy; } void wxCairoPathData::AddArc( wxDouble x, wxDouble y, wxDouble r, double startAngle, double endAngle, bool clockwise ) { // as clockwise means positive in our system (y pointing downwards) // TODO make this interpretation dependent of the // real device trans if ( clockwise||(endAngle-startAngle)>=2*M_PI) cairo_arc(m_pathContext,x,y,r,startAngle,endAngle); else cairo_arc_negative(m_pathContext,x,y,r,startAngle,endAngle); } // transforms each point of this path by the matrix void wxCairoPathData::Transform( const wxGraphicsMatrixData* matrix ) { // as we don't have a true path object, we have to apply the inverse // matrix to the context cairo_matrix_t m = *((cairo_matrix_t*) matrix->GetNativeMatrix()); cairo_matrix_invert( &m ); cairo_transform(m_pathContext,&m); } // gets the bounding box enclosing all points (possibly including control points) void wxCairoPathData::GetBox(wxDouble *x, wxDouble *y, wxDouble *w, wxDouble *h) const { double x1,y1,x2,y2; #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 6, 0) if ( cairo_version() >= CAIRO_VERSION_ENCODE(1, 6, 0) ) { cairo_path_extents(m_pathContext, &x1, &y1, &x2, &y2); } else #endif { cairo_stroke_extents(m_pathContext, &x1, &y1, &x2, &y2); } if ( x2 < x1 ) { *x = x2; *w = x1-x2; } else { *x = x1; *w = x2-x1; } if( y2 < y1 ) { *y = y2; *h = y1-y2; } else { *y = y1; *h = y2-y1; } } bool wxCairoPathData::Contains( wxDouble x, wxDouble y, wxPolygonFillMode fillStyle ) const { cairo_set_fill_rule(m_pathContext,fillStyle==wxODDEVEN_RULE ? CAIRO_FILL_RULE_EVEN_ODD : CAIRO_FILL_RULE_WINDING); return cairo_in_fill( m_pathContext, x, y) != 0; } // Convenience functions void wxCairoPathData::AddRectangle(wxDouble x, wxDouble y, wxDouble w, wxDouble h) { cairo_rectangle(m_pathContext, x, y, w, h); } void wxCairoPathData::AddCircle(wxDouble x, wxDouble y, wxDouble r) { cairo_move_to(m_pathContext, x+r, y); cairo_arc(m_pathContext, x, y, r, 0.0, 2*M_PI); cairo_close_path(m_pathContext); } void wxCairoPathData::AddEllipse(wxDouble x, wxDouble y, wxDouble w, wxDouble h) { cairo_move_to(m_pathContext, x+w, y+h/2.0); w /= 2.0; h /= 2.0; cairo_save(m_pathContext); cairo_translate(m_pathContext, x+w, y+h); cairo_scale(m_pathContext, w, h); cairo_arc(m_pathContext, 0.0, 0.0, 1.0, 0.0, 2*M_PI); cairo_restore(m_pathContext); cairo_close_path(m_pathContext); } //----------------------------------------------------------------------------- // wxCairoMatrixData implementation //----------------------------------------------------------------------------- wxCairoMatrixData::wxCairoMatrixData(wxGraphicsRenderer* renderer, const cairo_matrix_t* matrix ) : wxGraphicsMatrixData(renderer) { if ( matrix ) m_matrix = *matrix; } wxCairoMatrixData::~wxCairoMatrixData() { // nothing to do } wxGraphicsObjectRefData *wxCairoMatrixData::Clone() const { return new wxCairoMatrixData(GetRenderer(),&m_matrix); } // concatenates the matrix void wxCairoMatrixData::Concat( const wxGraphicsMatrixData *t ) { // The parameter matrix (t) is the multiplicand. cairo_matrix_multiply(&m_matrix, (cairo_matrix_t*) t->GetNativeMatrix(), &m_matrix); } // sets the matrix to the respective values void wxCairoMatrixData::Set(wxDouble a, wxDouble b, wxDouble c, wxDouble d, wxDouble tx, wxDouble ty) { cairo_matrix_init( &m_matrix, a, b, c, d, tx, ty); } // gets the component valuess of the matrix void wxCairoMatrixData::Get(wxDouble* a, wxDouble* b, wxDouble* c, wxDouble* d, wxDouble* tx, wxDouble* ty) const { if (a) *a = m_matrix.xx; if (b) *b = m_matrix.yx; if (c) *c = m_matrix.xy; if (d) *d = m_matrix.yy; if (tx) *tx= m_matrix.x0; if (ty) *ty= m_matrix.y0; } // makes this the inverse matrix void wxCairoMatrixData::Invert() { cairo_matrix_invert( &m_matrix ); } // returns true if the elements of the transformation matrix are equal ? bool wxCairoMatrixData::IsEqual( const wxGraphicsMatrixData* t) const { const cairo_matrix_t* tm = (cairo_matrix_t*) t->GetNativeMatrix(); return ( m_matrix.xx == tm->xx && m_matrix.yx == tm->yx && m_matrix.xy == tm->xy && m_matrix.yy == tm->yy && m_matrix.x0 == tm->x0 && m_matrix.y0 == tm->y0 ) ; } // return true if this is the identity matrix bool wxCairoMatrixData::IsIdentity() const { return ( m_matrix.xx == 1 && m_matrix.yy == 1 && m_matrix.yx == 0 && m_matrix.xy == 0 && m_matrix.x0 == 0 && m_matrix.y0 == 0); } // // transformation // // add the translation to this matrix void wxCairoMatrixData::Translate( wxDouble dx , wxDouble dy ) { cairo_matrix_translate( &m_matrix, dx, dy) ; } // add the scale to this matrix void wxCairoMatrixData::Scale( wxDouble xScale , wxDouble yScale ) { cairo_matrix_scale( &m_matrix, xScale, yScale) ; } // add the rotation to this matrix (radians) void wxCairoMatrixData::Rotate( wxDouble angle ) { cairo_matrix_rotate( &m_matrix, angle) ; } // // apply the transforms // // applies that matrix to the point void wxCairoMatrixData::TransformPoint( wxDouble *x, wxDouble *y ) const { double lx = *x, ly = *y ; cairo_matrix_transform_point( &m_matrix, &lx, &ly); *x = lx; *y = ly; } // applies the matrix except for translations void wxCairoMatrixData::TransformDistance( wxDouble *dx, wxDouble *dy ) const { double lx = *dx, ly = *dy ; cairo_matrix_transform_distance( &m_matrix, &lx, &ly); *dx = lx; *dy = ly; } // returns the native representation void * wxCairoMatrixData::GetNativeMatrix() const { return const_cast(&m_matrix); } // ---------------------------------------------------------------------------- // wxCairoBitmap implementation // ---------------------------------------------------------------------------- int wxCairoBitmapData::InitBuffer(int width, int height, cairo_format_t format) { wxUnusedVar(format); // Only really unused with Cairo < 1.6. // Determine the stride: use cairo_format_stride_for_width() if available // but fall back to 4*width for the earlier versions as this is what that // function always returns, even in latest Cairo, anyhow. int stride; #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 6, 0) if ( cairo_version() >= CAIRO_VERSION_ENCODE(1, 6, 0) ) { stride = cairo_format_stride_for_width(format, width); // All our code would totally break if stride were not a multiple of 4 // so ensure this is the case. if ( stride % 4 ) { wxFAIL_MSG("Unexpected Cairo image surface stride."); stride += 4 - stride % 4; } } else #endif stride = 4*width; m_width = width; m_height = height; m_buffer = new unsigned char[height*stride]; return stride; } void wxCairoBitmapData::InitSurface(cairo_format_t format, int stride) { m_surface = cairo_image_surface_create_for_data( m_buffer, format, m_width, m_height, stride); m_pattern = cairo_pattern_create_for_surface(m_surface); } wxCairoBitmapData::wxCairoBitmapData( wxGraphicsRenderer* renderer, cairo_surface_t* bitmap ) : wxGraphicsBitmapData(renderer) { m_surface = bitmap; m_pattern = cairo_pattern_create_for_surface(m_surface); m_width = cairo_image_surface_get_width(m_surface); m_height = cairo_image_surface_get_height(m_surface); m_buffer = NULL; } wxCairoBitmapData::wxCairoBitmapData( wxGraphicsRenderer* renderer, const wxBitmap& bmp ) : wxGraphicsBitmapData(renderer) { m_surface = NULL; m_pattern = NULL; m_buffer = NULL; wxCHECK_RET( bmp.IsOk(), wxT("Invalid bitmap in wxCairoContext::DrawBitmap")); #ifdef wxHAS_RAW_BITMAP // Create a surface object and copy the bitmap pixel data to it. if the // image has alpha (or a mask represented as alpha) then we'll use a // different format and iterator than if it doesn't... const bool isSrcBpp32 = bmp.GetDepth() == 32; #if defined(__WXMSW__) || defined(__WXOSX__) // Under MSW and OSX we can have 32 bpp xRGB bitmaps (without alpha). const bool hasAlpha = bmp.HasAlpha(); #endif cairo_format_t bufferFormat = // Under MSW and OSX we can have 32 bpp xRGB bitmaps (without alpha). #if defined(__WXMSW__) || defined(__WXOSX__) (isSrcBpp32 && hasAlpha) || bmp.GetMask() != NULL #else isSrcBpp32 || bmp.GetMask() != NULL #endif ? CAIRO_FORMAT_ARGB32 : CAIRO_FORMAT_RGB24; int stride = InitBuffer(bmp.GetWidth(), bmp.GetHeight(), bufferFormat); wxBitmap bmpSource = bmp; // we need a non-const instance wxUint32* data = (wxUint32*)m_buffer; if ( isSrcBpp32 ) { { // use the bitmap's alpha wxAlphaPixelData pixData(bmpSource); wxCHECK_RET( pixData, wxT("Failed to gain raw access to bitmap data.")); wxAlphaPixelData::Iterator p(pixData); for (int y=0; y < pixData.GetHeight(); y++) { wxAlphaPixelData::Iterator rowStart = p; wxUint32* const rowStartDst = data; for (int x=0; x < pixData.GetWidth(); x++) { // Each pixel in CAIRO_FORMAT_ARGB32 is a 32-bit quantity, // with alpha in the upper 8 bits, then red, then green, then // blue. The 32-bit quantities are stored native-endian. // Pre-multiplied alpha is used. #if defined (__WXMSW__) || defined(__WXOSX__) unsigned char alpha = hasAlpha ? p.Alpha() : wxALPHA_OPAQUE; // MSW and OSX bitmap pixel bits are already premultiplied. *data = (alpha << 24 | p.Red() << 16 | p.Green() << 8 | p.Blue()); #else // !__WXMSW__ , !__WXOSX__ // We always have alpha, but we need to premultiply it. unsigned char alpha = p.Alpha(); if (alpha == wxALPHA_TRANSPARENT) *data = 0; else *data = (alpha << 24 | Premultiply(alpha, p.Red()) << 16 | Premultiply(alpha, p.Green()) << 8 | Premultiply(alpha, p.Blue())); #endif // __WXMSW__, __WXOSX__ / !__WXMSW__, !__WXOSX__ ++data; ++p; } data = rowStartDst + stride / 4; p = rowStart; p.OffsetY(pixData, 1); } } #if defined(__WXMSW__) || defined(__WXOSX__) // Using wxAlphaPixelData sets (on wxMSW and wxOSX) the internal // "has alpha" flag but we want to leave it unchanged, so we need // to reset "has alpha" flag back. // (wxBitmap::UseAlpha() is used only on wxMSW and wxOSX.) bmpSource.UseAlpha(hasAlpha); #endif // __WXMSW__ || __WXOSX__ } else // no alpha { wxNativePixelData pixData(bmpSource); wxCHECK_RET( pixData, wxT("Failed to gain raw access to bitmap data.")); wxNativePixelData::Iterator p(pixData); for (int y=0; y < pixData.GetHeight(); y++) { wxNativePixelData::Iterator rowStart = p; wxUint32* const rowStartDst = data; for (int x=0; x < pixData.GetWidth(); x++) { // Each pixel in CAIRO_FORMAT_RGB24 is a 32-bit quantity, with // the upper 8 bits unused. Red, Green, and Blue are stored in // the remaining 24 bits in that order. The 32-bit quantities // are stored native-endian. *data = (wxALPHA_OPAQUE << 24 | p.Red() << 16 | p.Green() << 8 | p.Blue() ); ++data; ++p; } data = rowStartDst + stride / 4; p = rowStart; p.OffsetY(pixData, 1); } } // if there is a mask, set the alpha bytes in the target buffer to // fully transparent or retain original value if (bmp.GetMask() != NULL) { wxBitmap bmpMask = bmp.GetMask()->GetBitmap(); data = (wxUint32*)m_buffer; wxNativePixelData pixData(bmpMask); wxCHECK_RET( pixData, wxT("Failed to gain raw access to mask data.")); wxNativePixelData::Iterator p(pixData); for (int y=0; y < pixData.GetHeight(); y++) { wxNativePixelData::Iterator rowStart = p; wxUint32* const rowStartDst = data; for (int x=0; x < pixData.GetWidth(); x++) { if (p.Red()+p.Green()+p.Blue() == 0) *data = 0; ++data; ++p; } data = rowStartDst + stride / 4; p = rowStart; p.OffsetY(pixData, 1); } } InitSurface(bufferFormat, stride); #endif // wxHAS_RAW_BITMAP } #if wxUSE_IMAGE wxCairoBitmapData::wxCairoBitmapData(wxGraphicsRenderer* renderer, const wxImage& image) : wxGraphicsBitmapData(renderer) { const cairo_format_t bufferFormat = image.HasAlpha() ? CAIRO_FORMAT_ARGB32 : CAIRO_FORMAT_RGB24; int stride = InitBuffer(image.GetWidth(), image.GetHeight(), bufferFormat); // Copy wxImage data into the buffer. Notice that we work with wxUint32 // values and not bytes becase Cairo always works with buffers in native // endianness. wxUint32* dst = reinterpret_cast(m_buffer); const unsigned char* src = image.GetData(); if ( bufferFormat == CAIRO_FORMAT_ARGB32 ) { const unsigned char* alpha = image.GetAlpha(); for ( int y = 0; y < m_height; y++ ) { wxUint32* const rowStartDst = dst; for ( int x = 0; x < m_width; x++ ) { const unsigned char a = *alpha++; *dst++ = a << 24 | Premultiply(a, src[0]) << 16 | Premultiply(a, src[1]) << 8 | Premultiply(a, src[2]); src += 3; } dst = rowStartDst + stride / 4; } } else // RGB { for ( int y = 0; y < m_height; y++ ) { wxUint32* const rowStartDst = dst; for ( int x = 0; x < m_width; x++ ) { *dst++ = src[0] << 16 | src[1] << 8 | src[2]; src += 3; } dst = rowStartDst + stride / 4; } } InitSurface(bufferFormat, stride); } wxImage wxCairoBitmapData::ConvertToImage() const { wxImage image(m_width, m_height, false /* don't clear */); // Get the surface type and format. wxCHECK_MSG( cairo_surface_get_type(m_surface) == CAIRO_SURFACE_TYPE_IMAGE, wxNullImage, wxS("Can't convert non-image surface to image.") ); switch ( cairo_image_surface_get_format(m_surface) ) { case CAIRO_FORMAT_ARGB32: image.SetAlpha(); break; case CAIRO_FORMAT_RGB24: // Nothing to do, we don't use alpha by default. break; case CAIRO_FORMAT_A8: case CAIRO_FORMAT_A1: wxFAIL_MSG(wxS("Unsupported Cairo image surface type.")); return wxNullImage; default: wxFAIL_MSG(wxS("Unknown Cairo image surface type.")); return wxNullImage; } // Prepare for copying data. cairo_surface_flush(m_surface); const wxUint32* src = (wxUint32*)cairo_image_surface_get_data(m_surface); wxCHECK_MSG( src, wxNullImage, wxS("Failed to get Cairo surface data.") ); int stride = cairo_image_surface_get_stride(m_surface); wxCHECK_MSG( stride > 0, wxNullImage, wxS("Failed to get Cairo surface stride.") ); // As we work with wxUint32 pointers and not char ones, we need to adjust // the stride accordingly. This should be lossless as the stride must be a // multiple of pixel size. wxASSERT_MSG( !(stride % sizeof(wxUint32)), wxS("Unexpected stride.") ); stride /= sizeof(wxUint32); unsigned char* dst = image.GetData(); unsigned char *alpha = image.GetAlpha(); if ( alpha ) { // We need to also copy alpha and undo the pre-multiplication as Cairo // stores pre-multiplied values in this format while wxImage does not. for ( int y = 0; y < m_height; y++ ) { const wxUint32* const rowStart = src; for ( int x = 0; x < m_width; x++ ) { const wxUint32 argb = *src++; const unsigned char a = argb >> 24; *alpha++ = a; // Copy the RGB data undoing the pre-multiplication. *dst++ = Unpremultiply(a, argb >> 16); *dst++ = Unpremultiply(a, argb >> 8); *dst++ = Unpremultiply(a, argb); } src = rowStart + stride; } } else // RGB { // Things are pretty simple in this case, just copy RGB bytes. for ( int y = 0; y < m_height; y++ ) { const wxUint32* const rowStart = src; for ( int x = 0; x < m_width; x++ ) { const wxUint32 argb = *src++; *dst++ = (argb & 0x00ff0000) >> 16; *dst++ = (argb & 0x0000ff00) >> 8; *dst++ = (argb & 0x000000ff); } src = rowStart + stride; } } return image; } #endif // wxUSE_IMAGE wxCairoBitmapData::~wxCairoBitmapData() { if (m_pattern) cairo_pattern_destroy(m_pattern); if (m_surface) cairo_surface_destroy(m_surface); delete [] m_buffer; } //----------------------------------------------------------------------------- // wxCairoContext implementation //----------------------------------------------------------------------------- class wxCairoOffsetHelper { public : wxCairoOffsetHelper( cairo_t* ctx , bool offset ) { m_ctx = ctx; m_offset = offset; if ( m_offset ) cairo_translate( m_ctx, 0.5, 0.5 ); } ~wxCairoOffsetHelper( ) { if ( m_offset ) cairo_translate( m_ctx, -0.5, -0.5 ); } public : cairo_t* m_ctx; bool m_offset; } ; #if wxUSE_PRINTING_ARCHITECTURE wxCairoContext::wxCairoContext( wxGraphicsRenderer* renderer, const wxPrinterDC& dc ) : wxGraphicsContext(renderer) { #ifdef __WXMSW__ // wxMSW contexts always use MM_ANISOTROPIC, which messes up // text rendering when printing using Cairo. Switch it to MM_TEXT // map mode to avoid this problem. HDC hdc = (HDC)dc.GetHDC(); m_mswStateSavedDC = ::SaveDC(hdc); ::SetMapMode(hdc, MM_TEXT); m_mswSurface = cairo_win32_printing_surface_create(hdc); Init( cairo_create(m_mswSurface) ); wxSize sz = dc.GetSize(); m_width = sz.x; m_height = sz.y; // Transfer transformation settings from source DC to Cairo context on our own. // Since we switched from MM_ANISOTROPIC to MM_TEXT mapping mode // we have to apply rescaled DC's device origin to Cairo context. ApplyTransformFromDC(dc, Apply_scaled_dev_origin); #elif defined(__WXGTK20__) const wxDCImpl *impl = dc.GetImpl(); cairo_t* cr = static_cast(impl->GetCairoContext()); Init(cr ? cairo_reference(cr) : NULL); wxSize sz = dc.GetSize(); m_width = sz.x; m_height = sz.y; // Transfer transformation settings from source DC to Cairo context. ApplyTransformFromDC(dc); #else #warning "Constructing wxCairoContext from wxPrinterDC not implemented." wxUnusedVar(dc); #endif } #endif wxCairoContext::wxCairoContext( wxGraphicsRenderer* renderer, const wxWindowDC& dc ) : wxGraphicsContext(renderer, dc.GetWindow()) { int width, height; dc.GetSize( &width, &height ); m_width = width; m_height = height; m_enableOffset = dc.GetContentScaleFactor() <= 1; #ifdef __WXMSW__ HDC hdc = (HDC)dc.GetHDC(); m_mswStateSavedDC = ::SaveDC(hdc); m_mswSurface = cairo_win32_surface_create(hdc); Init( cairo_create(m_mswSurface) ); #endif #ifdef __WXGTK3__ cairo_t* cr = static_cast(dc.GetImpl()->GetCairoContext()); Init(cr ? cairo_reference(cr) : NULL); #elif defined __WXGTK20__ const wxGTKDCImpl* impldc = static_cast(dc.GetImpl()); Init( gdk_cairo_create( impldc->GetGDKWindow() ) ); // Transfer transformation settings from source DC to Cairo context on our own. ApplyTransformFromDC(dc); #endif // __WXGTK3__ || __WXGTK20__ #ifdef __WXX11__ cairo_t* cr = static_cast(dc.GetImpl()->GetCairoContext()); if ( cr ) Init(cairo_reference(cr)); #elif defined(__WXMAC__) CGContextRef cgcontext = (CGContextRef)dc.GetWindow()->MacGetCGContextRef(); cairo_surface_t* surface = cairo_quartz_surface_create_for_cg_context(cgcontext, width, height); Init( cairo_create( surface ) ); cairo_surface_destroy( surface ); #endif #ifdef __WXQT__ m_qtPainter = static_cast(dc.GetHandle()); // create a internal buffer (fallback if cairo_qt_surface is missing) m_qtImage = new QImage(width, height, QImage::Format_ARGB32_Premultiplied); // clear the buffer to be painted over the current contents m_qtImage->fill(Qt::transparent); m_qtSurface = cairo_image_surface_create_for_data(m_qtImage->bits(), CAIRO_FORMAT_ARGB32, width, height, m_qtImage->bytesPerLine()); Init( cairo_create( m_qtSurface ) ); #endif } wxCairoContext::wxCairoContext( wxGraphicsRenderer* renderer, const wxMemoryDC& dc ) : wxGraphicsContext(renderer) { int width, height; dc.GetSize( &width, &height ); m_width = width; m_height = height; m_enableOffset = dc.GetContentScaleFactor() <= 1; #ifdef __WXMSW__ wxBitmap bmp = dc.GetSelectedBitmap(); wxASSERT_MSG(bmp.IsOk(), wxS("Should select a bitmap before creating wxCairoContext")); HDC hdc = (HDC)dc.GetHDC(); m_mswStateSavedDC = ::SaveDC(hdc); bool hasBitmap = false; // To signal that Cairo context is created // from raw bitmap and not from DC. bool adjustTransformFromDC = false; // To signal that we have to transfer // transformation settings from source // wxDC to Cairo context on our own. // Prior to 1.15.4 creating surface from HDC could be done only with // cairo_win32_surface_create() supporting only 24 bpp RGB surface. // So, in case of a 32 bpp ARGB bitmap, it was necessary to create // a 32 bpp surface directly from bitmap data with cairo_image_surface_create_for_data(). // New API cairo_win32_surface_create_with_format() introduced in 1.15.4 // supports creating also 32 bpp ARGB surface so this function // can be used to create a surface from both RGB and ARGB bitmaps. // For 0RGB bitmaps, surface still has to be created in the old way, from // bitmap data. if ( bmp.GetDepth() == 32 && (cairo_version() < CAIRO_VERSION_ENCODE(1, 15, 4) || !bmp.HasAlpha()) ) { #if wxUSE_WXDIB // We need to convert the currently selected bitmap to a DIB // because: // 1. We need to correct alpha values if bitmap // doesn't contain real ARGB data. // 2. We need to pass location of its bit values to Cairo function. // We need to temporarily deselect this bitmap // from the memory DC before modifying it. const_cast(dc).SelectObject(wxNullBitmap); bmp.ConvertToDIB(); // Does nothing if already a DIB. if ( !bmp.HasAlpha() ) { // Initialize alpha channel, even if we don't have any alpha yet, // we should have correct (opaque) alpha values in it for Cairo // functions to work correctly. { wxAlphaPixelData data(bmp); if (data) { wxAlphaPixelData::Iterator p(data); for (int y = 0; y < data.GetHeight(); y++) { wxAlphaPixelData::Iterator rowStart = p; for (int x = 0; x < data.GetWidth(); x++) { p.Alpha() = wxALPHA_OPAQUE; ++p; } p = rowStart; p.OffsetY(data, 1); } } } // End of block modifying the bitmap. // Using wxAlphaPixelData sets the internal "has alpha" flag but we // don't really have any alpha yet, so reset it back for now. bmp.ResetAlpha(); } // Undo SelectObject() at the beginning of this block. const_cast(dc).SelectObjectAsSource(bmp); #endif // wxUSE_WXDIB // We need to pass a pointer to the location // of the bit values to Cairo function. BITMAP info; if ( ::GetObject(bmp.GetHBITMAP(), sizeof(info), &info) == sizeof(info) ) { if( info.bmBits ) { m_mswSurface = cairo_image_surface_create_for_data((unsigned char*)info.bmBits, bmp.HasAlpha() ? CAIRO_FORMAT_ARGB32 : CAIRO_FORMAT_RGB24, info.bmWidth, info.bmHeight, info.bmWidthBytes); if ( cairo_surface_status(m_mswSurface) == CAIRO_STATUS_SUCCESS ) { hasBitmap = true; // We will have to transfer transformation settings // from source wxDC to Cairo context on our own // because in this case they are not inherited // implicitly from underlying DC. adjustTransformFromDC = true; } else { cairo_surface_destroy(m_mswSurface); m_mswSurface = NULL; } } else { wxFAIL_MSG( wxS("Invalid bitmap") ); } } else { wxLogLastError( wxS("wxCairoContext ctor - GetObject") ); } } // Fallback if Cairo surface hasn't been created from bitmap data. if( !hasBitmap ) { // When x- or y-coordinate of DC origin > 0 then surface // created from DC is not fully operational (for some Cairo // operations memory access violation errors occur - see Cairo // bug 96482) so in this case we would need to pass non-transformed // DC to Cairo and to apply original DC transformation to the Cairo // context operations on our own. // Bug 96482 was fixed in Cairo 1.15.12 so this workaround needs // to be applied only for older Cairo versions. if ( cairo_version() < CAIRO_VERSION_ENCODE(1, 15, 12) ) { wxCoord orgX, orgY; dc.GetDeviceOrigin(&orgX, &orgY); if ( orgX > 0 || orgY > 0 ) { ::SetViewportOrgEx(hdc, 0, 0, NULL); ::SetViewportExtEx(hdc, 1, 1, NULL); ::SetWindowOrgEx(hdc, 0, 0, NULL); ::SetWindowExtEx(hdc, 1, 1, NULL); adjustTransformFromDC = true; } } #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 15, 4) if ( cairo_version() >= CAIRO_VERSION_ENCODE(1, 15, 4) ) { m_mswSurface = cairo_win32_surface_create_with_format(hdc, bmp.HasAlpha() ? CAIRO_FORMAT_ARGB32 : CAIRO_FORMAT_RGB24); } else #endif // Cairo >= 1.15.4 { m_mswSurface = cairo_win32_surface_create(hdc); } wxASSERT_MSG( cairo_surface_status(m_mswSurface) == CAIRO_STATUS_SUCCESS, wxS("wxCairoContext ctor - Error creating Cairo surface") ); } Init( cairo_create(m_mswSurface) ); if (hasBitmap) { // If we've created an image surface we need to flip the Y axis // so that all drawing will appear right side up. // We have to remember these operations as an internal transformation // which is not going to be exposed through e.g. GetTransform(). cairo_matrix_init(&m_internalTransform, 1.0, 0.0, 0.0, -1.0, 0.0, height); } // Transfer transformation settings from source wxDC // to Cairo context on our own, if required. if ( adjustTransformFromDC ) ApplyTransformFromDC(dc); #endif // __WXMSW__ #ifdef __WXGTK3__ cairo_t* cr = static_cast(dc.GetImpl()->GetCairoContext()); Init(cr ? cairo_reference(cr) : NULL); #elif defined __WXGTK20__ const wxGTKDCImpl* impldc = static_cast(dc.GetImpl()); Init( gdk_cairo_create( impldc->GetGDKWindow() ) ); // Transfer transformation settings from source DC to Cairo context on our own. ApplyTransformFromDC(dc); #endif // __WXGTK3__ || __WXGTK20__ #ifdef __WXX11__ cairo_t* cr = static_cast(dc.GetImpl()->GetCairoContext()); if ( cr ) Init(cairo_reference(cr)); #endif #ifdef __WXMAC__ CGContextRef cgcontext = (CGContextRef)dc.GetWindow()->MacGetCGContextRef(); cairo_surface_t* surface = cairo_quartz_surface_create_for_cg_context(cgcontext, width, height); Init( cairo_create( surface ) ); cairo_surface_destroy( surface ); #endif #ifdef __WXQT__ m_qtPainter = static_cast(dc.GetHandle()); // create a internal buffer (fallback if cairo_qt_surface is missing) m_qtImage = new QImage(width, height, QImage::Format_ARGB32_Premultiplied); // clear the buffer to be painted over the current contents m_qtImage->fill(Qt::transparent); m_qtSurface = cairo_image_surface_create_for_data(m_qtImage->bits(), CAIRO_FORMAT_ARGB32, width, height, m_qtImage->bytesPerLine()); Init( cairo_create( m_qtSurface ) ); #endif } #ifdef __WXGTK20__ wxCairoContext::wxCairoContext( wxGraphicsRenderer* renderer, GdkWindow *window ) : wxGraphicsContext(renderer) { Init( gdk_cairo_create( window ) ); #ifdef __WXGTK3__ m_width = gdk_window_get_width(window); m_height = gdk_window_get_height(window); #else int width, height; gdk_drawable_get_size(window, &width, &height); m_width = width; m_height = height; #endif } #endif #ifdef __WXMSW__ #if wxUSE_ENH_METAFILE wxCairoContext::wxCairoContext(wxGraphicsRenderer* renderer, const wxEnhMetaFileDC& dc) : wxGraphicsContext(renderer) { // wxMSW contexts always use MM_ANISOTROPIC, which messes up // text rendering when printing using Cairo. Switch it to MM_TEXT // map mode to avoid this problem. HDC hdc = (HDC)dc.GetHDC(); m_mswStateSavedDC = ::SaveDC(hdc); ::SetMapMode(hdc, MM_TEXT); m_mswSurface = cairo_win32_printing_surface_create(hdc); Init( cairo_create(m_mswSurface) ); wxSize sz = dc.GetSize(); m_width = sz.x; m_height = sz.y; // Transfer transformation settings from source DC to Cairo context on our own. // Since we switched from MM_ANISOTROPIC to MM_TEXT mapping mode // we have to apply rescaled DC's device origin to Cairo context. ApplyTransformFromDC(dc, Apply_scaled_dev_origin); } #endif // wxUSE_ENH_METAFILE wxCairoContext::wxCairoContext( wxGraphicsRenderer* renderer, HDC handle ) : wxGraphicsContext(renderer) { m_mswStateSavedDC = ::SaveDC(handle); bool adjustTransformFromDC = false; // To signal that we have to transfer // transformation settings from source // wxDC to Cairo context on our own. cairo_matrix_t dcTransform; cairo_matrix_init_identity(&dcTransform); // When x- or y-coordinate of DC origin > 0 then surface // created from DC is not fully operational (for some Cairo // operations memory access violation errors occur - see Cairo // bug 96482) so in this case we would need to pass non-transformed // DC to Cairo and to apply original DC transformation to the Cairo // context operations on our own. if ( cairo_version() < CAIRO_VERSION_ENCODE(1, 15, 12) ) { POINT devOrg; ::GetViewportOrgEx(handle, &devOrg); if ( devOrg.x > 0 || devOrg.y > 0 ) { SIZE devExt; ::GetViewportExtEx(handle, &devExt); POINT logOrg; ::GetWindowOrgEx(handle, &logOrg); SIZE logExt; ::GetWindowExtEx(handle, &logExt); double sx = (double)devExt.cx / logExt.cx; double sy = (double)devExt.cy / logExt.cy; cairo_matrix_translate(&dcTransform, devOrg.x, devOrg.y); cairo_matrix_scale(&dcTransform, sx, sy); cairo_matrix_translate(&dcTransform, -logOrg.x, -logOrg.y); ::SetViewportOrgEx(handle, 0, 0, NULL); ::SetViewportExtEx(handle, 1, 1, NULL); ::SetWindowOrgEx(handle, 0, 0, NULL); ::SetWindowExtEx(handle, 1, 1, NULL); adjustTransformFromDC = true; } } m_mswSurface = cairo_win32_surface_create(handle); Init( cairo_create(m_mswSurface) ); if ( adjustTransformFromDC ) { cairo_matrix_multiply(&m_internalTransform, &dcTransform, &m_internalTransform); cairo_set_matrix(m_context, &m_internalTransform); } m_width = 0; m_height = 0; // Try to determine DC size. if ( m_context ) { RECT r; if( ::GetClipBox(handle, &r) != ERROR ) { m_width = r.right - r.left; m_height = r.bottom - r.top; } } } wxCairoContext::wxCairoContext(wxGraphicsRenderer* renderer, HWND hWnd) : wxGraphicsContext(renderer) , m_mswWindowHDC(hWnd) { // See remarks for wxWindowBase::GetContentScaleFactor double scaleY = ::GetDeviceCaps((HDC)m_mswWindowHDC, LOGPIXELSY) / 96.0f; m_enableOffset = scaleY <= 1.0; m_mswStateSavedDC = 0; m_mswSurface = cairo_win32_surface_create((HDC)m_mswWindowHDC); Init(cairo_create(m_mswSurface)); m_width = 0; m_height = 0; if ( m_context ) { RECT r = wxGetWindowRect(hWnd); m_width = r.right - r.left; m_height = r.bottom - r.top; } } #endif // __WXMSW__ wxCairoContext::wxCairoContext( wxGraphicsRenderer* renderer, cairo_t *context ) : wxGraphicsContext(renderer) { #ifdef __WXQT__ m_qtPainter = NULL; m_qtImage = NULL; m_qtSurface = NULL; #endif #ifdef __WXMSW__ m_mswSurface = NULL; m_mswStateSavedDC = 0; #endif // __WXMSW__ Init( cairo_reference(context) ); m_width = 0; m_height = 0; } wxCairoContext::wxCairoContext( wxGraphicsRenderer* renderer, wxWindow *window) : wxGraphicsContext(renderer, window) #ifdef __WXMSW__ , m_mswWindowHDC(GetHwndOf(window)) #endif { m_enableOffset = window->GetContentScaleFactor() <= 1; #ifdef __WXGTK__ // something along these lines (copied from dcclient) // Some controls don't have m_wxwindow - like wxStaticBox, but the user // code should still be able to create wxClientDCs for them, so we will // use the parent window here then. if (window->m_wxwindow == NULL) { window = window->GetParent(); } wxASSERT_MSG( window->m_wxwindow, wxT("wxCairoContext needs a widget") ); Init(gdk_cairo_create(window->GTKGetDrawingWindow())); wxSize sz = window->GetSize(); m_width = sz.x; m_height = sz.y; #endif #ifdef __WXMSW__ m_mswStateSavedDC = 0; m_mswSurface = cairo_win32_surface_create((HDC)m_mswWindowHDC); Init(cairo_create(m_mswSurface)); wxSize sz = window->GetSize(); m_width = sz.x; m_height = sz.y; #endif // __WXMSW__ #ifdef __WXQT__ // direct m_qtSurface is not being used yet (this needs cairo qt surface) #endif } wxCairoContext::wxCairoContext(wxGraphicsRenderer* renderer) : wxGraphicsContext(renderer) { #ifdef __WXQT__ m_qtPainter = NULL; m_qtImage = NULL; m_qtSurface = NULL; #endif #ifdef __WXMSW__ m_mswSurface = NULL; m_mswStateSavedDC = 0; #endif // __WXMSW__ Init(NULL); m_width = 0; m_height = 0; } wxCairoContext::~wxCairoContext() { if ( m_context ) { PopState(); PopState(); cairo_destroy(m_context); } #ifdef __WXMSW__ if ( m_mswSurface ) { HDC hdc = cairo_win32_surface_get_dc(m_mswSurface); cairo_surface_destroy(m_mswSurface); if ( hdc && m_mswStateSavedDC != 0 ) ::RestoreDC(hdc, m_mswStateSavedDC); } #endif #ifdef __WXQT__ if ( m_qtPainter != NULL ) { // draw the internal buffered image to the widget cairo_surface_flush(m_qtSurface); m_qtPainter->drawImage( 0,0, *m_qtImage ); delete m_qtImage; cairo_surface_destroy( m_qtSurface ); } #endif } void wxCairoContext::Init(cairo_t *context) { #ifdef __WXGTK3__ // Attempt to find the system font scaling parameter (e.g. "Fonts->Scaling // Factor" in Gnome Tweaks, "Force font DPI" in KDE System Settings or // GDK_DPI_SCALE environment variable). GdkScreen* screen = gdk_screen_get_default(); m_fontScalingFactor = screen ? gdk_screen_get_resolution(screen) / 96.0 : 1.0; #endif m_context = context; if ( m_context ) { // Store initial transformation settings // of the underlying source context. cairo_get_matrix(m_context, &m_internalTransform); PushState(); PushState(); } else { cairo_matrix_init_identity(&m_internalTransform); } } void wxCairoContext::ApplyTransformFromDC(const wxDC& dc, ApplyTransformMode mode) { // Transfer transformation settings from source wxDC // to Cairo context and store them as an internal transformation // (which is not going to be exposed). double sx, sy; dc.GetUserScale(&sx, &sy); double lsx, lsy; dc.GetLogicalScale(&lsx, &lsy); sx *= lsx; sy *= lsy; wxPoint org = dc.GetDeviceOrigin(); if ( mode == Apply_scaled_dev_origin ) // This is used when mapping mode has been changed // under wxMSW from MM_ANISOTROPIC to MM_TEXT. cairo_matrix_translate(&m_internalTransform, org.x/sx, org.y/sy); else cairo_matrix_translate(&m_internalTransform, org.x, org.y); cairo_matrix_scale(&m_internalTransform, sx, sy); org = dc.GetLogicalOrigin(); cairo_matrix_translate(&m_internalTransform, -org.x, -org.y); cairo_set_matrix(m_context, &m_internalTransform); } void wxCairoContext::Clip( const wxRegion& region ) { // Create a path with all the rectangles in the region wxGraphicsPath path = GetRenderer()->CreatePath(); wxRegionIterator ri(region); while (ri) { path.AddRectangle(ri.GetX(), ri.GetY(), ri.GetW(), ri.GetH()); ++ri; } // Put it in the context cairo_path_t* cp = (cairo_path_t*) path.GetNativePath() ; cairo_append_path(m_context, cp); // clip to that path cairo_clip(m_context); path.UnGetNativePath(cp); } void wxCairoContext::Clip( wxDouble x, wxDouble y, wxDouble w, wxDouble h ) { // Create a path with this rectangle wxGraphicsPath path = GetRenderer()->CreatePath(); path.AddRectangle(x,y,w,h); // Put it in the context cairo_path_t* cp = (cairo_path_t*) path.GetNativePath() ; cairo_append_path(m_context, cp); // clip to that path cairo_clip(m_context); path.UnGetNativePath(cp); } void wxCairoContext::ResetClip() { cairo_reset_clip(m_context); } void wxCairoContext::GetClipBox(wxDouble* x, wxDouble* y, wxDouble* w, wxDouble* h) { double x1, y1, x2, y2; #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 4, 0) if ( cairo_version() >= CAIRO_VERSION_ENCODE(1, 4, 0) ) { cairo_clip_extents(m_context, &x1, &y1, &x2, &y2); // Check if we have an empty clipping box. if ( x2 - x1 <= DBL_MIN || y2 - y1 <= DBL_MIN ) x1 = x2 = y1 = y2 = 0.0; } else #endif // Cairo >= 1.4 { // There doesn't seem to be any way to get the clipping box with this // ancient version. x1 = x2 = y1 = y2 = 0.0; } if ( x ) *x = x1; if ( y ) *y = y1; if ( w ) *w = x2 - x1; if ( h ) *h = y2 - y1; } void wxCairoContext::StrokePath( const wxGraphicsPath& path ) { if ( !m_pen.IsNull() ) { wxCairoOffsetHelper helper( m_context, ShouldOffset() ) ; cairo_path_t* cp = (cairo_path_t*) path.GetNativePath() ; cairo_append_path(m_context,cp); ((wxCairoPenData*)m_pen.GetRefData())->Apply(this); cairo_stroke(m_context); path.UnGetNativePath(cp); } } void wxCairoContext::FillPath( const wxGraphicsPath& path , wxPolygonFillMode fillStyle ) { if ( !m_brush.IsNull() ) { wxCairoOffsetHelper helper( m_context, ShouldOffset() ) ; cairo_path_t* cp = (cairo_path_t*) path.GetNativePath() ; cairo_append_path(m_context,cp); ((wxCairoBrushData*)m_brush.GetRefData())->Apply(this); cairo_set_fill_rule(m_context,fillStyle==wxODDEVEN_RULE ? CAIRO_FILL_RULE_EVEN_ODD : CAIRO_FILL_RULE_WINDING); cairo_fill(m_context); path.UnGetNativePath(cp); } } void wxCairoContext::ClearRectangle( wxDouble x, wxDouble y, wxDouble w, wxDouble h ) { cairo_save(m_context); cairo_set_operator(m_context, CAIRO_OPERATOR_CLEAR); cairo_rectangle (m_context, x, y, w, h); cairo_fill (m_context); cairo_restore(m_context); } void wxCairoContext::DrawRectangle( wxDouble x, wxDouble y, wxDouble w, wxDouble h ) { if ( !m_brush.IsNull() ) { ((wxCairoBrushData*)m_brush.GetRefData())->Apply(this); cairo_rectangle(m_context, x, y, w, h); cairo_fill(m_context); } if ( !m_pen.IsNull() ) { wxCairoOffsetHelper helper( m_context, ShouldOffset() ) ; ((wxCairoPenData*)m_pen.GetRefData())->Apply(this); cairo_rectangle(m_context, x, y, w, h); cairo_stroke(m_context); } } void wxCairoContext::Rotate( wxDouble angle ) { cairo_rotate(m_context,angle); } void wxCairoContext::Translate( wxDouble dx , wxDouble dy ) { cairo_translate(m_context,dx,dy); } void wxCairoContext::Scale( wxDouble xScale , wxDouble yScale ) { cairo_scale(m_context,xScale,yScale); } // concatenates this transform with the current transform of this context void wxCairoContext::ConcatTransform( const wxGraphicsMatrix& matrix ) { cairo_transform(m_context,(const cairo_matrix_t *) matrix.GetNativeMatrix()); } // sets the transform of this context void wxCairoContext::SetTransform( const wxGraphicsMatrix& matrix ) { // To get actual transformation we need to concatenate // given transformation with internal transformation. cairo_set_matrix(m_context, &m_internalTransform); cairo_transform(m_context, (const cairo_matrix_t*)matrix.GetNativeMatrix()); } // gets the matrix of this context wxGraphicsMatrix wxCairoContext::GetTransform() const { wxGraphicsMatrix matrix = CreateMatrix(); cairo_matrix_t* transformMatrix = (cairo_matrix_t*)matrix.GetNativeMatrix(); cairo_get_matrix(m_context, transformMatrix); // Don't expose internal transformations. cairo_matrix_t intTransformMatrixRev = m_internalTransform; if ( cairo_matrix_invert(&intTransformMatrixRev) == CAIRO_STATUS_SUCCESS ) cairo_matrix_multiply(transformMatrix, transformMatrix, &intTransformMatrixRev); return matrix; } void wxCairoContext::PushState() { cairo_save(m_context); } void wxCairoContext::PopState() { cairo_restore(m_context); } void wxCairoContext::Flush() { #ifdef __WXMSW__ if ( m_mswSurface ) { cairo_surface_flush(m_mswSurface); } #endif #ifdef __WXQT__ if ( m_qtSurface ) { cairo_surface_flush(m_qtSurface); m_qtPainter->drawImage( 0,0, *m_qtImage ); } #endif } void wxCairoContext::DrawBitmap( const wxBitmap &bmp, wxDouble x, wxDouble y, wxDouble w, wxDouble h ) { wxGraphicsBitmap bitmap = GetRenderer()->CreateBitmap(bmp); DrawBitmap(bitmap, x, y, w, h); } void wxCairoContext::DrawBitmap(const wxGraphicsBitmap &bmp, wxDouble x, wxDouble y, wxDouble w, wxDouble h ) { PushState(); // In case we're scaling the image by using a width and height different // than the bitmap's size create a pattern transformation on the surface and // draw the transformed pattern. wxCairoBitmapData* data = static_cast(bmp.GetRefData()); cairo_pattern_t* pattern = data->GetCairoPattern(); wxSize size = data->GetSize(); wxDouble scaleX = w / size.GetWidth(); wxDouble scaleY = h / size.GetHeight(); // prepare to draw the image cairo_translate(m_context, x, y); cairo_scale(m_context, scaleX, scaleY); cairo_set_source(m_context, pattern); // use the original size here since the context is scaled already... cairo_rectangle(m_context, 0, 0, size.GetWidth(), size.GetHeight()); // fill the rectangle using the pattern cairo_fill(m_context); PopState(); } void wxCairoContext::DrawIcon( const wxIcon &icon, wxDouble x, wxDouble y, wxDouble w, wxDouble h ) { // An icon is a bitmap on wxGTK, so do this the easy way. When we want to // start using the Cairo backend on other platforms then we may need to // fiddle with this... DrawBitmap(icon, x, y, w, h); } void wxCairoContext::DoDrawText(const wxString& str, wxDouble x, wxDouble y) { wxCHECK_RET( !m_font.IsNull(), wxT("wxCairoContext::DrawText - no valid font set") ); if ( str.empty()) return; const wxCharBuffer data = str.utf8_str(); if ( !data ) return; wxCairoFontData* const fontData = static_cast(m_font.GetRefData()); fontData->Apply(this); #ifdef __WXGTK__ const wxFont& font = fontData->GetFont(); if ( font.IsOk() ) { wxGtkObject layout(pango_cairo_create_layout (m_context)); ApplyFont(layout, font); pango_layout_set_text(layout, data, data.length()); // Note that Pango attributes don't depend on font size, so we don't // need to use the scaled font here. font.GTKSetPangoAttrs(layout); cairo_move_to(m_context, x, y); pango_cairo_show_layout (m_context, layout); // Don't use Cairo text API, we already did everything. return; } #endif // __WXGTK__ // Cairo's x,y for drawing text is at the baseline, so we need to adjust // the position we move to by the ascent. cairo_font_extents_t fe; cairo_font_extents(m_context, &fe); cairo_move_to(m_context, x, y+fe.ascent); cairo_show_text(m_context, data); } void wxCairoContext::GetTextExtent( const wxString &str, wxDouble *width, wxDouble *height, wxDouble *descent, wxDouble *externalLeading ) const { wxCHECK_RET( !m_font.IsNull(), wxT("wxCairoContext::GetTextExtent - no valid font set") ); if ( width ) *width = 0; if ( height ) *height = 0; if ( descent ) *descent = 0; if ( externalLeading ) *externalLeading = 0; // We can skip computing the string width and height if it is empty, but // not its descent and/or external leading, which still needs to be // returned even for an empty string. if ( str.empty() && !descent && !externalLeading ) return; wxCairoFontData* const fontData = static_cast(m_font.GetRefData()); #ifdef __WXGTK__ // Use Pango instead of Cairo toy font API if we have the font. const wxFont& font = fontData->GetFont(); if ( font.IsOk() ) { // Note that there is no need to call Apply() at all in this case, it // just sets the text colour, but we don't care about this when // measuring its extent. int w, h; wxGtkObject layout(pango_cairo_create_layout (m_context)); ApplyFont(layout, font); const wxCharBuffer data = str.utf8_str(); if ( !data ) { return; } pango_layout_set_text(layout, data, data.length()); pango_layout_get_pixel_size (layout, &w, &h); if ( width ) *width = w; if ( height ) *height = h; if (descent) { PangoLayoutIter *iter = pango_layout_get_iter(layout); int baseline = pango_layout_iter_get_baseline(iter); pango_layout_iter_free(iter); *descent = h - PANGO_PIXELS(baseline); } return; } #endif // __WXGTK__ fontData->Apply(const_cast(this)); if (width) { const wxWX2MBbuf buf(str.mb_str(wxConvUTF8)); cairo_text_extents_t te; cairo_text_extents(m_context, buf, &te); *width = te.width; } if (height || descent || externalLeading) { cairo_font_extents_t fe; cairo_font_extents(m_context, &fe); // some backends have negative descents if ( fe.descent < 0 ) fe.descent = -fe.descent; if ( fe.height < (fe.ascent + fe.descent ) ) { // some backends are broken re height ... (eg currently ATSUI) fe.height = fe.ascent + fe.descent; } if (height) *height = fe.height; if ( descent ) *descent = fe.descent; if ( externalLeading ) *externalLeading = wxMax(0, fe.height - (fe.ascent + fe.descent)); } } void wxCairoContext::GetPartialTextExtents(const wxString& text, wxArrayDouble& widths) const { widths.Empty(); wxCHECK_RET( !m_font.IsNull(), wxT("wxCairoContext::GetPartialTextExtents - no valid font set") ); #ifdef __WXGTK__ const wxCharBuffer data = text.utf8_str(); int w = 0; if (data.length()) { wxGtkObject layout(pango_cairo_create_layout(m_context)); const wxFont& font = static_cast(m_font.GetRefData())->GetFont(); ApplyFont(layout, font); pango_layout_set_text(layout, data, data.length()); PangoLayoutIter* iter = pango_layout_get_iter(layout); PangoRectangle rect; do { pango_layout_iter_get_cluster_extents(iter, NULL, &rect); w += rect.width; widths.Add(PANGO_PIXELS(w)); } while (pango_layout_iter_next_cluster(iter)); pango_layout_iter_free(iter); } size_t i = widths.GetCount(); const size_t len = text.length(); while (i++ < len) widths.Add(PANGO_PIXELS(w)); #else for (size_t i = 0; i < text.Length(); i++) { const wxCharBuffer data = text.SubString(0, i).utf8_str(); cairo_text_extents_t te; cairo_text_extents(m_context, (const char*)data, &te); widths.push_back(te.width); } #endif } void * wxCairoContext::GetNativeContext() { return m_context; } bool wxCairoContext::SetAntialiasMode(wxAntialiasMode antialias) { if (m_antialias == antialias) return true; m_antialias = antialias; cairo_antialias_t antialiasMode; switch (antialias) { case wxANTIALIAS_DEFAULT: antialiasMode = CAIRO_ANTIALIAS_DEFAULT; break; case wxANTIALIAS_NONE: antialiasMode = CAIRO_ANTIALIAS_NONE; break; default: return false; } cairo_set_antialias(m_context, antialiasMode); return true; } bool wxCairoContext::SetInterpolationQuality(wxInterpolationQuality WXUNUSED(interpolation)) { // placeholder return false; } bool wxCairoContext::SetCompositionMode(wxCompositionMode op) { if ( m_composition == op ) return true; m_composition = op; cairo_operator_t cop; switch (op) { case wxCOMPOSITION_CLEAR: cop = CAIRO_OPERATOR_CLEAR; break; case wxCOMPOSITION_SOURCE: cop = CAIRO_OPERATOR_SOURCE; break; case wxCOMPOSITION_OVER: cop = CAIRO_OPERATOR_OVER; break; case wxCOMPOSITION_IN: cop = CAIRO_OPERATOR_IN; break; case wxCOMPOSITION_OUT: cop = CAIRO_OPERATOR_OUT; break; case wxCOMPOSITION_ATOP: cop = CAIRO_OPERATOR_ATOP; break; case wxCOMPOSITION_DEST: cop = CAIRO_OPERATOR_DEST; break; case wxCOMPOSITION_DEST_OVER: cop = CAIRO_OPERATOR_DEST_OVER; break; case wxCOMPOSITION_DEST_IN: cop = CAIRO_OPERATOR_DEST_IN; break; case wxCOMPOSITION_DEST_OUT: cop = CAIRO_OPERATOR_DEST_OUT; break; case wxCOMPOSITION_DEST_ATOP: cop = CAIRO_OPERATOR_DEST_ATOP; break; case wxCOMPOSITION_XOR: cop = CAIRO_OPERATOR_XOR; break; case wxCOMPOSITION_ADD: cop = CAIRO_OPERATOR_ADD; break; default: return false; } cairo_set_operator(m_context, cop); return true; } void wxCairoContext::BeginLayer(wxDouble opacity) { m_layerOpacities.push_back(opacity); cairo_push_group(m_context); } void wxCairoContext::EndLayer() { float opacity = m_layerOpacities.back(); m_layerOpacities.pop_back(); cairo_pop_group_to_source(m_context); cairo_paint_with_alpha(m_context,opacity); } //----------------------------------------------------------------------------- // wxCairoRenderer declaration //----------------------------------------------------------------------------- class WXDLLIMPEXP_CORE wxCairoRenderer : public wxGraphicsRenderer { public : wxCairoRenderer() {} virtual ~wxCairoRenderer() {} // Context virtual wxGraphicsContext * CreateContext( const wxWindowDC& dc) wxOVERRIDE; virtual wxGraphicsContext * CreateContext( const wxMemoryDC& dc) wxOVERRIDE; #if wxUSE_PRINTING_ARCHITECTURE virtual wxGraphicsContext * CreateContext( const wxPrinterDC& dc) wxOVERRIDE; #endif virtual wxGraphicsContext * CreateContextFromNativeContext( void * context ) wxOVERRIDE; virtual wxGraphicsContext * CreateContextFromNativeWindow( void * window ) wxOVERRIDE; #ifdef __WXMSW__ virtual wxGraphicsContext * CreateContextFromNativeHDC(WXHDC dc) wxOVERRIDE; #endif #if wxUSE_IMAGE virtual wxGraphicsContext * CreateContextFromImage(wxImage& image) wxOVERRIDE; #endif // wxUSE_IMAGE virtual wxGraphicsContext * CreateContext( wxWindow* window ) wxOVERRIDE; virtual wxGraphicsContext * CreateMeasuringContext() wxOVERRIDE; #ifdef __WXMSW__ #if wxUSE_ENH_METAFILE virtual wxGraphicsContext * CreateContext( const wxEnhMetaFileDC& dc); #endif #endif // Path virtual wxGraphicsPath CreatePath() wxOVERRIDE; // Matrix virtual wxGraphicsMatrix CreateMatrix( wxDouble a=1.0, wxDouble b=0.0, wxDouble c=0.0, wxDouble d=1.0, wxDouble tx=0.0, wxDouble ty=0.0) wxOVERRIDE; virtual wxGraphicsPen CreatePen(const wxGraphicsPenInfo& info) wxOVERRIDE ; virtual wxGraphicsBrush CreateBrush(const wxBrush& brush ) wxOVERRIDE ; virtual wxGraphicsBrush CreateLinearGradientBrush(wxDouble x1, wxDouble y1, wxDouble x2, wxDouble y2, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix = wxNullGraphicsMatrix) wxOVERRIDE; virtual wxGraphicsBrush CreateRadialGradientBrush(wxDouble startX, wxDouble startY, wxDouble endX, wxDouble endY, wxDouble radius, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix = wxNullGraphicsMatrix) wxOVERRIDE; // sets the font virtual wxGraphicsFont CreateFont( const wxFont &font , const wxColour &col = *wxBLACK ) wxOVERRIDE ; virtual wxGraphicsFont CreateFont(double sizeInPixels, const wxString& facename, int flags = wxFONTFLAG_DEFAULT, const wxColour& col = *wxBLACK) wxOVERRIDE; virtual wxGraphicsFont CreateFontAtDPI(const wxFont& font, const wxRealPoint& dpi, const wxColour& col) wxOVERRIDE; // create a native bitmap representation virtual wxGraphicsBitmap CreateBitmap( const wxBitmap &bitmap ) wxOVERRIDE; #if wxUSE_IMAGE virtual wxGraphicsBitmap CreateBitmapFromImage(const wxImage& image) wxOVERRIDE; virtual wxImage CreateImageFromBitmap(const wxGraphicsBitmap& bmp) wxOVERRIDE; #endif // wxUSE_IMAGE // create a graphics bitmap from a native bitmap virtual wxGraphicsBitmap CreateBitmapFromNativeBitmap( void* bitmap ) wxOVERRIDE; // create a subimage from a native image representation virtual wxGraphicsBitmap CreateSubBitmap( const wxGraphicsBitmap &bitmap, wxDouble x, wxDouble y, wxDouble w, wxDouble h ) wxOVERRIDE; virtual wxString GetName() const wxOVERRIDE; virtual void GetVersion(int *major, int *minor, int *micro) const wxOVERRIDE; wxDECLARE_DYNAMIC_CLASS_NO_COPY(wxCairoRenderer); } ; //----------------------------------------------------------------------------- // wxCairoRenderer implementation //----------------------------------------------------------------------------- wxIMPLEMENT_DYNAMIC_CLASS(wxCairoRenderer,wxGraphicsRenderer); static wxCairoRenderer gs_cairoGraphicsRenderer; #ifdef __WXGTK__ #define ENSURE_LOADED_OR_RETURN(returnOnFail) #else #define ENSURE_LOADED_OR_RETURN(returnOnFail) \ if (!wxCairoInit()) \ return returnOnFail #endif wxGraphicsContext * wxCairoRenderer::CreateContext( const wxWindowDC& dc) { ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoContext(this,dc); } wxGraphicsContext * wxCairoRenderer::CreateContext( const wxMemoryDC& dc) { ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoContext(this,dc); } #if wxUSE_PRINTING_ARCHITECTURE wxGraphicsContext * wxCairoRenderer::CreateContext( const wxPrinterDC& dc) { ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoContext(this, dc); } #endif #if defined(__WXMSW__) && wxUSE_ENH_METAFILE wxGraphicsContext * wxCairoRenderer::CreateContext(const wxEnhMetaFileDC& dc) { ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoContext(this, dc); } #endif // __WXMSW__ && wxUSE_ENH_METAFILE wxGraphicsContext * wxCairoRenderer::CreateContextFromNativeContext(void * context) { ENSURE_LOADED_OR_RETURN(NULL); #ifdef __WXMSW__ DWORD objType = ::GetObjectType((HGDIOBJ)context); if (objType == 0) return new wxCairoContext(this, (cairo_t*)context); if (objType == OBJ_DC || objType == OBJ_MEMDC) return new wxCairoContext(this, (HDC)context); return NULL; #else return new wxCairoContext(this,(cairo_t*)context); #endif } wxGraphicsContext * wxCairoRenderer::CreateContextFromNativeWindow( void * window ) { ENSURE_LOADED_OR_RETURN(NULL); #ifdef __WXGTK__ return new wxCairoContext(this, static_cast(window)); #elif defined(__WXMSW__) return new wxCairoContext(this, static_cast(window)); #else wxUnusedVar(window); return NULL; #endif } #ifdef __WXMSW__ wxGraphicsContext * wxCairoRenderer::CreateContextFromNativeHDC(WXHDC dc) { ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoContext(this, (HDC)dc); } #endif #if wxUSE_IMAGE wxGraphicsContext * wxCairoRenderer::CreateContextFromImage(wxImage& image) { ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoImageContext(this, image); } #endif // wxUSE_IMAGE wxGraphicsContext * wxCairoRenderer::CreateMeasuringContext() { #ifdef __WXGTK__ return CreateContextFromNativeWindow(gdk_get_default_root_window()); #elif defined(__WXMSW__) ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoMeasuringContext(this); #else return NULL; // TODO #endif } wxGraphicsContext * wxCairoRenderer::CreateContext( wxWindow* window ) { ENSURE_LOADED_OR_RETURN(NULL); return new wxCairoContext(this, window ); } // Path wxGraphicsPath wxCairoRenderer::CreatePath() { wxGraphicsPath path; ENSURE_LOADED_OR_RETURN(path); path.SetRefData( new wxCairoPathData(this) ); return path; } // Matrix wxGraphicsMatrix wxCairoRenderer::CreateMatrix( wxDouble a, wxDouble b, wxDouble c, wxDouble d, wxDouble tx, wxDouble ty) { wxGraphicsMatrix m; ENSURE_LOADED_OR_RETURN(m); wxCairoMatrixData* data = new wxCairoMatrixData( this ); data->Set( a,b,c,d,tx,ty ) ; m.SetRefData(data); return m; } wxGraphicsPen wxCairoRenderer::CreatePen(const wxGraphicsPenInfo& info) { wxGraphicsPen p; ENSURE_LOADED_OR_RETURN(p); if (info.GetStyle() != wxPENSTYLE_TRANSPARENT) { p.SetRefData(new wxCairoPenData( this, info )); } return p; } wxGraphicsBrush wxCairoRenderer::CreateBrush(const wxBrush& brush ) { wxGraphicsBrush p; ENSURE_LOADED_OR_RETURN(p); if (brush.IsOk() && brush.GetStyle() != wxBRUSHSTYLE_TRANSPARENT) { p.SetRefData(new wxCairoBrushData( this, brush )); } return p; } wxGraphicsBrush wxCairoRenderer::CreateLinearGradientBrush(wxDouble x1, wxDouble y1, wxDouble x2, wxDouble y2, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix) { wxGraphicsBrush p; ENSURE_LOADED_OR_RETURN(p); wxCairoBrushData* d = new wxCairoBrushData( this ); d->CreateLinearGradientPattern(x1, y1, x2, y2, stops, matrix); p.SetRefData(d); return p; } wxGraphicsBrush wxCairoRenderer::CreateRadialGradientBrush(wxDouble startX, wxDouble startY, wxDouble endX, wxDouble endY, wxDouble r, const wxGraphicsGradientStops& stops, const wxGraphicsMatrix& matrix) { wxGraphicsBrush p; ENSURE_LOADED_OR_RETURN(p); wxCairoBrushData* d = new wxCairoBrushData( this ); d->CreateRadialGradientPattern(startX, startY, endX, endY, r, stops, matrix); p.SetRefData(d); return p; } wxGraphicsFont wxCairoRenderer::CreateFont( const wxFont &font , const wxColour &col ) { wxGraphicsFont p; ENSURE_LOADED_OR_RETURN(p); if ( font.IsOk() ) { p.SetRefData(new wxCairoFontData( this , font, col )); } return p; } wxGraphicsFont wxCairoRenderer::CreateFont(double sizeInPixels, const wxString& facename, int flags, const wxColour& col) { wxGraphicsFont font; ENSURE_LOADED_OR_RETURN(font); font.SetRefData(new wxCairoFontData(this, sizeInPixels, facename, flags, col)); return font; } wxGraphicsFont wxCairoRenderer::CreateFontAtDPI(const wxFont& font, const wxRealPoint& WXUNUSED(dpi), const wxColour& col) { return CreateFont(font, col); } wxGraphicsBitmap wxCairoRenderer::CreateBitmap( const wxBitmap& bmp ) { wxGraphicsBitmap p; ENSURE_LOADED_OR_RETURN(p); if ( bmp.IsOk() ) { p.SetRefData(new wxCairoBitmapData( this , bmp )); } return p; } #if wxUSE_IMAGE wxGraphicsBitmap wxCairoRenderer::CreateBitmapFromImage(const wxImage& image) { wxGraphicsBitmap bmp; ENSURE_LOADED_OR_RETURN(bmp); if ( image.IsOk() ) { bmp.SetRefData(new wxCairoBitmapData(this, image)); } return bmp; } wxImage wxCairoRenderer::CreateImageFromBitmap(const wxGraphicsBitmap& bmp) { wxImage image; ENSURE_LOADED_OR_RETURN(image); const wxCairoBitmapData* const data = static_cast(bmp.GetGraphicsData()); if (data) image = data->ConvertToImage(); return image; } #endif // wxUSE_IMAGE wxGraphicsBitmap wxCairoRenderer::CreateBitmapFromNativeBitmap( void* bitmap ) { wxGraphicsBitmap p; ENSURE_LOADED_OR_RETURN(p); if ( bitmap != NULL ) { p.SetRefData(new wxCairoBitmapData( this , (cairo_surface_t*) bitmap )); } return p; } wxGraphicsBitmap wxCairoRenderer::CreateSubBitmap(const wxGraphicsBitmap& bitmap, wxDouble x, wxDouble y, wxDouble w, wxDouble h) { ENSURE_LOADED_OR_RETURN(wxNullGraphicsBitmap); wxCHECK_MSG(!bitmap.IsNull(), wxNullGraphicsBitmap, wxS("Invalid bitmap")); wxCairoBitmapData* dataSrc = static_cast(bitmap.GetRefData()); cairo_surface_t* srcSurface = dataSrc->GetCairoSurface(); wxCHECK_MSG(srcSurface, wxNullGraphicsBitmap, wxS("Invalid bitmap")); int srcWidth = cairo_image_surface_get_width(srcSurface); int srcHeight = cairo_image_surface_get_height(srcSurface); int dstWidth = wxRound(w); int dstHeight = wxRound(h); wxCHECK_MSG( x >= 0.0 && y >= 0.0 && dstWidth > 0 && dstHeight > 0 && x + dstWidth <= srcWidth && y + dstHeight <= srcHeight, wxNullGraphicsBitmap, wxS("Invalid bitmap region")); cairo_surface_t* dstSurface; #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 12, 0) if ( cairo_version() >= CAIRO_VERSION_ENCODE(1, 12, 0) ) { dstSurface = cairo_surface_create_similar_image(srcSurface, cairo_image_surface_get_format(srcSurface), dstWidth, dstHeight); } else #endif // Cairo 1.12 { dstSurface = cairo_surface_create_similar(srcSurface, CAIRO_CONTENT_COLOR_ALPHA, dstWidth, dstHeight); } cairo_t* cr = cairo_create(dstSurface); cairo_set_source_surface(cr, srcSurface, -x, -y); cairo_rectangle(cr, 0.0, 0.0, dstWidth, dstHeight); cairo_set_operator(cr, CAIRO_OPERATOR_SOURCE); cairo_fill(cr); cairo_destroy(cr); wxGraphicsBitmap bmpRes; bmpRes.SetRefData(new wxCairoBitmapData(this, dstSurface)); return bmpRes; } wxString wxCairoRenderer::GetName() const { return "cairo"; } void wxCairoRenderer::GetVersion(int *major, int *minor, int *micro) const { int dummy; sscanf(cairo_version_string(), "%d.%d.%d", major ? major : &dummy, minor ? minor : &dummy, micro ? micro : &dummy); } wxGraphicsRenderer* wxGraphicsRenderer::GetCairoRenderer() { return &gs_cairoGraphicsRenderer; } #else // !wxUSE_CAIRO wxGraphicsRenderer* wxGraphicsRenderer::GetCairoRenderer() { return NULL; } #endif // wxUSE_CAIRO/!wxUSE_CAIRO // MSW and OS X and Qt on Windows have their own native default renderers, but the other ports // use Cairo by default. #if !(defined(__WXMSW__) || defined(__WXOSX__) || (defined(__WXQT__) && defined(__WIN32__))) wxGraphicsRenderer* wxGraphicsRenderer::GetDefaultRenderer() { return GetCairoRenderer(); } #endif // !(__WXMSW__ || __WXOSX__ || (defined(__WXQT__) && defined(__WIN32__))) #endif // wxUSE_GRAPHICS_CONTEXT