///////////////////////////////////////////////////////////////////////////// // Name: src/dfb/bitmap.cpp // Purpose: wxBitmap implementation // Author: Vaclav Slavik // Created: 2006-08-04 // Copyright: (c) 2006 REA Elektronik GmbH // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #ifndef WX_PRECOMP #include "wx/app.h" #include "wx/log.h" #endif #include "wx/bitmap.h" #include "wx/colour.h" #include "wx/image.h" #include "wx/rawbmp.h" #include "wx/dfb/private.h" //----------------------------------------------------------------------------- // helpers for translating between wx and DFB pixel formats //----------------------------------------------------------------------------- namespace { // NB: Most of this conversion code is needed because of differences between // wxImage and wxDFB's wxBitmap representations: // (1) wxImage uses RGB order, while DirectFB uses BGR // (2) wxImage has alpha channel in a separate plane, while DirectFB puts // all components into single BGRA plane // pitch = stride = # of bytes between the start of N-th line and (N+1)-th line // {Src,Dst}PixSize = # of bytes used to represent one pixel template void CopyPixelsAndSwapRGB(unsigned w, unsigned h, const unsigned char *src, unsigned src_pitch, unsigned char *dst, unsigned dst_pitch) { unsigned src_advance = src_pitch - SrcPixSize * w; unsigned dst_advance = dst_pitch - DstPixSize * w; for ( unsigned y = 0; y < h; y++, src += src_advance, dst += dst_advance ) { for ( unsigned x = 0; x < w; x++, src += SrcPixSize, dst += DstPixSize ) { // copy with RGB -> BGR translation: dst[0] = src[2]; dst[1] = src[1]; dst[2] = src[0]; } } } void CopySurfaceToImage(const wxIDirectFBSurfacePtr& surface, wxImage& image) { wxIDirectFBSurface::Locked locked(surface, DSLF_READ); wxCHECK_RET( locked.ptr, "failed to lock surface" ); const unsigned width = image.GetWidth(); const unsigned height = image.GetHeight(); const DFBSurfacePixelFormat format = surface->GetPixelFormat(); // copy RGB data from the surface: switch ( format ) { case DSPF_RGB24: CopyPixelsAndSwapRGB<3,3> ( width, height, (unsigned char*)locked.ptr, locked.pitch, image.GetData(), width * 3 ); break; case DSPF_RGB32: case DSPF_ARGB: CopyPixelsAndSwapRGB<4,3> ( width, height, (unsigned char*)locked.ptr, locked.pitch, image.GetData(), width * 3 ); break; default: wxFAIL_MSG( "unexpected pixel format" ); return; } // extract alpha channel if the bitmap has it: if ( format == DSPF_ARGB ) { // create alpha plane: image.SetAlpha(); // and copy alpha data to it: const unsigned advance = locked.pitch - 4 * width; unsigned char *alpha = image.GetAlpha(); // NB: "+3" is to get pointer to alpha component const unsigned char *src = ((unsigned char*)locked.ptr) + 3; for ( unsigned y = 0; y < height; y++, src += advance ) for ( unsigned x = 0; x < width; x++, src += 4 ) *(alpha++) = *src; } } void CopyImageToSurface(const wxImage& image, const wxIDirectFBSurfacePtr& surface) { wxIDirectFBSurface::Locked locked(surface, DSLF_WRITE); wxCHECK_RET( locked.ptr, "failed to lock surface" ); const unsigned width = image.GetWidth(); const unsigned height = image.GetHeight(); const DFBSurfacePixelFormat format = surface->GetPixelFormat(); // copy RGB data to the surface: switch ( format ) { case DSPF_RGB24: CopyPixelsAndSwapRGB<3,3> ( width, height, image.GetData(), width * 3, (unsigned char*)locked.ptr, locked.pitch ); break; case DSPF_RGB32: case DSPF_ARGB: CopyPixelsAndSwapRGB<3,4> ( width, height, image.GetData(), width * 3, (unsigned char*)locked.ptr, locked.pitch ); break; default: wxFAIL_MSG( "unexpected pixel format" ); return; } // if the image has alpha channel, merge it in: if ( format == DSPF_ARGB ) { wxCHECK_RET( image.HasAlpha(), "logic error - ARGB, but no alpha" ); const unsigned advance = locked.pitch - 4 * width; const unsigned char *alpha = image.GetAlpha(); // NB: "+3" is to get pointer to alpha component unsigned char *dest = ((unsigned char*)locked.ptr) + 3; for ( unsigned y = 0; y < height; y++, dest += advance ) for ( unsigned x = 0; x < width; x++, dest += 4 ) *dest = *(alpha++); } } wxIDirectFBSurfacePtr CreateSurfaceWithFormat(int w, int h, DFBSurfacePixelFormat format) { DFBSurfaceDescription desc; desc.flags = (DFBSurfaceDescriptionFlags) (DSDESC_CAPS | DSDESC_WIDTH | DSDESC_HEIGHT); desc.caps = DSCAPS_NONE; desc.width = w; desc.height = h; if ( format != DSPF_UNKNOWN ) { desc.flags = (DFBSurfaceDescriptionFlags)( desc.flags | DSDESC_PIXELFORMAT); desc.pixelformat = format; } return wxIDirectFB::Get()->CreateSurface(&desc); } // Creates a surface that will use wxImage's pixel data (RGB only) wxIDirectFBSurfacePtr CreateSurfaceForImage(const wxImage& image) { wxCHECK_MSG( image.IsOk(), NULL, "invalid image" ); // FIXME_DFB: implement alpha handling by merging alpha buffer with RGB // into a temporary RGBA surface wxCHECK_MSG( !image.HasAlpha(), NULL, "alpha channel not supported" ); // NB: wxImage uses RGB order of bytes while DirectFB uses BGR, so we // cannot use preallocated surface that shares data with wxImage, we // have to copy the data to temporary surface instead return CreateSurfaceWithFormat(image.GetWidth(), image.GetHeight(), DSPF_RGB24); } bool ConvertSurfaceToFormat(wxIDirectFBSurfacePtr& surface, DFBSurfacePixelFormat format) { if ( surface->GetPixelFormat() == format ) return true; int w, h; surface->GetSize(&w, &h); wxIDirectFBSurfacePtr s = CreateSurfaceWithFormat(w, h, format); if ( !s ) return false; if ( !s->SetBlittingFlags(DSBLIT_NOFX) ) return false; if ( !s->Blit(surface->GetRaw(), NULL, 0, 0) ) return false; surface = s; return true; } DFBSurfacePixelFormat DepthToFormat(int depth) { switch ( depth ) { case 24: return DSPF_RGB24; case 32: // NB: we treat depth=32 as requesting ARGB for consistency with // other ports return DSPF_ARGB; default: wxFAIL_MSG( "unsupported depth requested" ); // fall through case -1: return DSPF_UNKNOWN; } } // ---------------------------------------------------------------------------- // monochrome bitmap functions // ---------------------------------------------------------------------------- // this function works with destination buffer of type T and not char (where T // is typically wxUint32 for RGB32, wxUint16 for RGB16 &c) as we don't need // access to the individual pixel components -- and so it's not suitable for // the pixel formats with pixel size not equal to 8, 16 or 32 template void CopyBits(int width, int height, const unsigned char *src, const wxIDirectFBSurface::Locked locked) { static const int BITS_PER_BYTE = 8; // extra padding to add to dst at the end of each row: this works on the // assumption that all rows are aligned at multiples of T (and usually 4 // bytes) boundary so check for it (and change the code if this assert is // ever triggered) wxASSERT_MSG( !(locked.pitch % sizeof(T)), "image rows not aligned?" ); const int padDst = (locked.pitch - width*sizeof(T))/sizeof(T); int x = 0; // position in the current bitmap row // a single char in src corresponds to 8 destination pixels and the last // char in the row contains padding if necessary, i.e. there is always an // integer number of chars per row const unsigned char * const srcEnd = src + ((width + BITS_PER_BYTE - 1)/BITS_PER_BYTE)*height; // we operate with sizeof(T), not 1, bytes at once T *dst = static_cast(locked.ptr); while ( src < srcEnd ) { unsigned char val = *src++; for ( int bit = 0; bit < BITS_PER_BYTE; bit++ ) { *dst++ = val & 1 ? White : Black; val >>= 1; if ( ++x == width ) { dst += padDst; x = 0; break; } } } } bool CopyBitsToSurface(const unsigned char *bits, int width, int height, wxIDirectFBSurfacePtr& surface) { wxIDirectFBSurface::Locked locked(surface, DSLF_WRITE); wxCHECK_MSG( locked.ptr, false, "failed to lock surface" ); const DFBSurfacePixelFormat format = surface->GetPixelFormat(); switch ( format ) { case DSPF_LUT8: // we suppose that these indices correspond to the palette entries // for white and black, respectively, but a better idea would be to // use IDirectFBPalette::FindBestMatch() to determine them CopyBits(width, height, bits, locked); break; case DSPF_RGB16: CopyBits(width, height, bits, locked); break; case DSPF_RGB32: CopyBits(width, height, bits, locked); break; default: // we don't really have time to implement efficient support for all // the other formats so simply (and awfully slowly, of course...) // convert everything else from RGB32 surface = CreateSurfaceWithFormat(width, height, DSPF_RGB32); if ( !surface ) return false; if ( !CopyBitsToSurface(bits, width, height, surface) ) return false; if ( !ConvertSurfaceToFormat(surface, format) ) return false; } return true; } } // anonymous namespace //----------------------------------------------------------------------------- // wxBitmapRefData //----------------------------------------------------------------------------- class wxBitmapRefData: public wxGDIRefData { public: wxBitmapRefData() { m_mask = NULL; #if wxUSE_PALETTE m_palette = NULL; #endif } wxBitmapRefData(const wxBitmapRefData& data) { m_surface = data.m_surface ? data.m_surface->Clone() : NULL; m_mask = data.m_mask ? new wxMask(*data.m_mask) : NULL; #if wxUSE_PALETTE m_palette = data.m_palette ? new wxPalette(*data.m_palette) : NULL; #endif } virtual ~wxBitmapRefData() { delete m_mask; #if wxUSE_PALETTE delete m_palette; #endif } virtual bool IsOk() const { return m_surface; } wxIDirectFBSurfacePtr m_surface; wxMask *m_mask; #if wxUSE_PALETTE wxPalette *m_palette; #endif }; #define M_BITMAP ((wxBitmapRefData *)m_refData) //----------------------------------------------------------------------------- // wxBitmap //----------------------------------------------------------------------------- IMPLEMENT_DYNAMIC_CLASS(wxBitmap, wxBitmapBase) bool wxBitmap::Create(const wxIDirectFBSurfacePtr& surface) { UnRef(); wxCHECK_MSG( surface, false, "invalid surface" ); m_refData = new wxBitmapRefData(); M_BITMAP->m_surface = surface; return true; } bool wxBitmap::Create(int width, int height, int depth) { return CreateWithFormat(width, height, DepthToFormat(depth)); } bool wxBitmap::CreateWithFormat(int width, int height, int dfbFormat) { UnRef(); wxCHECK_MSG( width > 0 && height > 0, false, wxT("invalid bitmap size") ); return Create(CreateSurfaceWithFormat(width, height, DFBSurfacePixelFormat(dfbFormat))); } #if wxUSE_IMAGE wxBitmap::wxBitmap(const wxImage& imageOrig, int depth) { wxCHECK_RET( imageOrig.IsOk(), wxT("invalid image") ); wxImage image(imageOrig); // convert mask to alpha channel, because wxMask isn't implemented yet // FIXME: don't do this, implement proper wxMask support if ( image.HasMask() ) image.InitAlpha(); DFBSurfacePixelFormat format = DepthToFormat(depth); if ( format == DSPF_UNKNOWN && image.HasAlpha() ) format = DSPF_ARGB; // create surface in screen's format (unless we need alpha channel, // in which case use ARGB): if ( !CreateWithFormat(image.GetWidth(), image.GetHeight(), format) ) return; // then copy the image to it: wxIDirectFBSurfacePtr dst = M_BITMAP->m_surface; switch ( dst->GetPixelFormat() ) { case DSPF_RGB24: case DSPF_RGB32: case DSPF_ARGB: CopyImageToSurface(image, dst); break; default: { // wxBitmap uses different pixel format, so we have to use a // temporary surface and blit to the bitmap via it: wxIDirectFBSurfacePtr src(CreateSurfaceForImage(image)); CopyImageToSurface(image, src); if ( !dst->SetBlittingFlags(DSBLIT_NOFX) ) return; if ( !dst->Blit(src->GetRaw(), NULL, 0, 0) ) return; } } } wxImage wxBitmap::ConvertToImage() const { wxCHECK_MSG( IsOk(), wxNullImage, wxT("invalid bitmap") ); wxImage img(GetWidth(), GetHeight()); wxIDirectFBSurfacePtr src = M_BITMAP->m_surface; switch ( src->GetPixelFormat() ) { case DSPF_RGB24: case DSPF_RGB32: case DSPF_ARGB: CopySurfaceToImage(src, img); break; default: { // wxBitmap uses different pixel format, so we have to use a // temporary surface and blit to the bitmap via it: wxIDirectFBSurfacePtr dst(CreateSurfaceForImage(img)); if ( !dst->SetBlittingFlags(DSBLIT_NOFX) ) return wxNullImage; if ( !dst->Blit(src->GetRaw(), NULL, 0, 0) ) return wxNullImage; CopySurfaceToImage(dst, img); } } // FIXME: implement mask setting in the image wxASSERT_MSG( GetMask() == NULL, "bitmap masks are ignored for now" ); return img; } #endif // wxUSE_IMAGE void *wxBitmap::GetRawData(wxPixelDataBase& data, int bpp) { wxCHECK_MSG( IsOk(), NULL, "invalid bitmap" ); AllocExclusive(); DFBSurfacePixelFormat format; if ( bpp == 32 ) format = DSPF_ARGB; else format = DSPF_RGB24; // convert the bitmap into format compatible with requested raw access; // note that we don't bother converting the bitmap back in UngetRawData(), // as unpacked formats (RGB24, RGB32) are the common case and converting // between them while blitting is fast enough (FIXME?) if ( !ConvertSurfaceToFormat(M_BITMAP->m_surface, format) ) return NULL; void *bits = NULL; if ( !M_BITMAP->m_surface->Lock ( (DFBSurfaceLockFlags)(DSLF_READ | DSLF_WRITE), &bits, &data.m_stride ) ) return NULL; M_BITMAP->m_surface->GetSize(&data.m_width, &data.m_height); return bits; } void wxBitmap::UngetRawData(wxPixelDataBase& WXUNUSED(data)) { M_BITMAP->m_surface->Unlock(); } bool wxBitmap::HasAlpha() const { wxCHECK_MSG( IsOk(), false, "invalid bitmap" ); return M_BITMAP->m_surface->GetPixelFormat() == DSPF_ARGB; } wxBitmap::wxBitmap(const wxString &filename, wxBitmapType type) { LoadFile(filename, type); } wxBitmap::wxBitmap(const char bits[], int width, int height, int depth) { wxCHECK_RET( depth == 1, wxT("can only create mono bitmap from XBM data") ); // create bitmap in the device-dependent format if ( !CreateWithFormat(width, height, DSPF_UNKNOWN) ) return; if ( !CopyBitsToSurface((const unsigned char *)bits, width, height, M_BITMAP->m_surface) ) UnRef(); } int wxBitmap::GetHeight() const { wxCHECK_MSG( IsOk(), -1, wxT("invalid bitmap") ); int h = -1; M_BITMAP->m_surface->GetSize(NULL, &h); return h; } int wxBitmap::GetWidth() const { wxCHECK_MSG( IsOk(), -1, wxT("invalid bitmap") ); int w = -1; M_BITMAP->m_surface->GetSize(&w, NULL); return w; } int wxBitmap::GetDepth() const { wxCHECK_MSG( IsOk(), -1, wxT("invalid bitmap") ); return M_BITMAP->m_surface->GetDepth(); } wxMask *wxBitmap::GetMask() const { wxCHECK_MSG( IsOk(), NULL, wxT("invalid bitmap") ); return M_BITMAP->m_mask; } void wxBitmap::SetMask(wxMask *mask) { wxCHECK_RET( IsOk(), wxT("invalid bitmap") ); AllocExclusive(); delete M_BITMAP->m_mask; M_BITMAP->m_mask = mask; } bool wxBitmap::CopyFromIcon(const wxIcon& icon) { *this = *((wxBitmap*)(&icon)); return true; } wxBitmap wxBitmap::GetSubBitmap(const wxRect& rect) const { wxCHECK_MSG( IsOk() && rect.x >= 0 && rect.y >= 0 && rect.x+rect.width <= GetWidth() && rect.y+rect.height <= GetHeight(), wxNullBitmap, wxT("invalid bitmap or bitmap region") ); // NB: DirectFB subsurfaces share the same pixels buffer, so we must // clone the obtained subsurface DFBRectangle r = { rect.x, rect.y, rect.width, rect.height }; return wxBitmap(M_BITMAP->m_surface->GetSubSurface(&r)->Clone()); } #warning "to common code" bool wxBitmap::LoadFile(const wxString &name, wxBitmapType type) { UnRef(); wxBitmapHandler *handler = FindHandler(type); if ( handler == NULL ) { wxImage image; if ( !image.LoadFile(name, type) || !image.IsOk() ) { wxLogError(_("No bitmap handler for type %d defined."), type); return false; } else { *this = wxBitmap(image); return true; } } m_refData = new wxBitmapRefData(); return handler->LoadFile(this, name, type, -1, -1); } #warning "to common code" bool wxBitmap::SaveFile(const wxString& filename, wxBitmapType type, const wxPalette *palette) const { wxCHECK_MSG( IsOk(), false, wxT("invalid bitmap") ); wxBitmapHandler *handler = FindHandler(type); if ( handler == NULL ) { wxImage image = ConvertToImage(); #if wxUSE_PALETTE if ( palette ) image.SetPalette(*palette); #endif // wxUSE_PALETTE if ( image.IsOk() ) return image.SaveFile(filename, type); else { wxLogError(_("No bitmap handler for type %d defined."), type); return false; } } return handler->SaveFile(this, filename, type, palette); } #if wxUSE_PALETTE wxPalette *wxBitmap::GetPalette() const { wxCHECK_MSG( IsOk(), NULL, wxT("invalid bitmap") ); return M_BITMAP->m_palette; } void wxBitmap::SetPalette(const wxPalette& palette) { wxCHECK_RET( IsOk(), wxT("invalid bitmap") ); wxCHECK_RET( GetDepth() > 1 && GetDepth() <= 8, wxT("cannot set palette for bitmap of this depth") ); AllocExclusive(); wxDELETE(M_BITMAP->m_palette); if ( !palette.IsOk() ) return; M_BITMAP->m_palette = new wxPalette(palette); } #endif // wxUSE_PALETTE void wxBitmap::SetHeight(int height) { AllocExclusive(); wxFAIL_MSG( "SetHeight not implemented" ); } void wxBitmap::SetWidth(int width) { AllocExclusive(); wxFAIL_MSG( "SetWidth not implemented" ); } void wxBitmap::SetDepth(int depth) { DFBSurfacePixelFormat format = DepthToFormat(depth); if ( M_BITMAP->m_surface->GetPixelFormat() == format ) return; AllocExclusive(); int w, h; M_BITMAP->m_surface->GetSize(&w, &h); wxIDirectFBSurfacePtr s = CreateSurfaceWithFormat(w, h, format); if ( !s ) return; if ( !s->SetBlittingFlags(DSBLIT_NOFX) ) return; if ( !s->Blit(M_BITMAP->m_surface->GetRaw(), NULL, 0, 0) ) return; M_BITMAP->m_surface = s; } wxIDirectFBSurfacePtr wxBitmap::GetDirectFBSurface() const { wxCHECK_MSG( IsOk(), NULL, wxT("invalid bitmap") ); return M_BITMAP->m_surface; } wxGDIRefData *wxBitmap::CreateGDIRefData() const { return new wxBitmapRefData; } wxGDIRefData *wxBitmap::CloneGDIRefData(const wxGDIRefData *data) const { return new wxBitmapRefData(*(wxBitmapRefData *)data); } /*static*/ void wxBitmap::InitStandardHandlers() { // not wxBitmap handlers, we rely on wxImage }