///////////////////////////////////////////////////////////////////////////// // Name: image.cpp // Purpose: wxImage // Author: Robert Roebling // RCS-ID: $Id$ // Copyright: (c) Robert Roebling // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #ifdef __GNUG__ #pragma implementation "image.h" #endif // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #include "wx/image.h" #include "wx/bitmap.h" #include "wx/debug.h" #include "wx/log.h" #include "wx/app.h" #ifdef wxUSE_LIBPNG #include "../png/png.h" #endif #include "wx/filefn.h" #include "wx/wfstream.h" #include "wx/intl.h" #ifdef __SALFORDC__ #ifdef FAR #undef FAR #endif #endif #ifdef __WXMSW__ #include #endif //----------------------------------------------------------------------------- // wxImage //----------------------------------------------------------------------------- class wxImageRefData: public wxObjectRefData { public: wxImageRefData(void); ~wxImageRefData(void); int m_width; int m_height; unsigned char *m_data; bool m_hasMask; unsigned char m_maskRed,m_maskGreen,m_maskBlue; bool m_ok; }; wxImageRefData::wxImageRefData(void) { m_width = 0; m_height = 0; m_data = (unsigned char*) NULL; m_ok = FALSE; m_maskRed = 0; m_maskGreen = 0; m_maskBlue = 0; m_hasMask = FALSE; } wxImageRefData::~wxImageRefData(void) { if (m_data) free( m_data ); } wxList wxImage::sm_handlers; //----------------------------------------------------------------------------- #define M_IMGDATA ((wxImageRefData *)m_refData) #if !USE_SHARED_LIBRARIES IMPLEMENT_DYNAMIC_CLASS(wxImage, wxObject) #endif wxImage::wxImage() { } wxImage::wxImage( int width, int height ) { Create( width, height ); } wxImage::wxImage( const wxString& name, long type ) { LoadFile( name, type ); } #if wxUSE_STREAM wxImage::wxImage( wxInputStream& stream, long type ) { LoadFile( stream, type ); } #endif // wxUSE_STREAM wxImage::wxImage( const wxImage& image ) { Ref(image); } wxImage::wxImage( const wxImage* image ) { if (image) Ref(*image); } void wxImage::Create( int width, int height ) { m_refData = new wxImageRefData(); M_IMGDATA->m_data = (unsigned char *) malloc( width*height*3 ); if (M_IMGDATA->m_data) { for (int l = 0; l < width*height*3; l++) M_IMGDATA->m_data[l] = 0; M_IMGDATA->m_width = width; M_IMGDATA->m_height = height; M_IMGDATA->m_ok = TRUE; } else { UnRef(); } } void wxImage::Destroy() { UnRef(); } wxImage wxImage::Scale( int width, int height ) { wxImage image; wxCHECK_MSG( Ok(), image, "invlaid image" ); wxCHECK_MSG( (width > 0) && (height > 0), image, "invalid image size" ); image.Create( width, height ); char unsigned *data = image.GetData(); wxCHECK_MSG( data, image, "unable to create image" ); if (M_IMGDATA->m_hasMask) image.SetMaskColour( M_IMGDATA->m_maskRed, M_IMGDATA->m_maskGreen, M_IMGDATA->m_maskBlue ); double xscale = (double)width / (double)M_IMGDATA->m_width; double yscale = (double)height / (double)M_IMGDATA->m_height; for (int j = 0; j < height; j++) { for (int i = 0; i < width; i++) { int new_pos = 3*(j*width + i); int old_pos = 3*((long)(j/yscale)*M_IMGDATA->m_width + (long)(i/xscale)); data[ new_pos ] = M_IMGDATA->m_data[ old_pos ]; data[ new_pos+1 ] = M_IMGDATA->m_data[ old_pos+1 ]; data[ new_pos+2 ] = M_IMGDATA->m_data[ old_pos+2 ]; } } return image; } void wxImage::SetRGB( int x, int y, unsigned char r, unsigned char g, unsigned char b ) { wxCHECK_RET( Ok(), "invalid image" ); int w = M_IMGDATA->m_width; int h = M_IMGDATA->m_height; wxCHECK_RET( (x>=0) && (y>=0) && (xm_data[ pos ] = r; M_IMGDATA->m_data[ pos+1 ] = g; M_IMGDATA->m_data[ pos+2 ] = b; } unsigned char wxImage::GetRed( int x, int y ) { wxCHECK_MSG( Ok(), 0, "invalid image" ); int w = M_IMGDATA->m_width; int h = M_IMGDATA->m_height; wxCHECK_MSG( (x>=0) && (y>=0) && (xm_data[pos]; } unsigned char wxImage::GetGreen( int x, int y ) { wxCHECK_MSG( Ok(), 0, "invalid image" ); int w = M_IMGDATA->m_width; int h = M_IMGDATA->m_height; wxCHECK_MSG( (x>=0) && (y>=0) && (xm_data[pos+1]; } unsigned char wxImage::GetBlue( int x, int y ) { wxCHECK_MSG( Ok(), 0, "invalid image" ); int w = M_IMGDATA->m_width; int h = M_IMGDATA->m_height; wxCHECK_MSG( (x>=0) && (y>=0) && (xm_data[pos+2]; } bool wxImage::Ok() const { return (M_IMGDATA && M_IMGDATA->m_ok); } char unsigned *wxImage::GetData() const { wxCHECK_MSG( Ok(), (char unsigned *)NULL, "invalid image" ); return M_IMGDATA->m_data; } void wxImage::SetData( char unsigned *WXUNUSED(data) ) { wxCHECK_RET( Ok(), "invalid image" ); } void wxImage::SetMaskColour( unsigned char r, unsigned char g, unsigned char b ) { wxCHECK_RET( Ok(), "invalid image" ); M_IMGDATA->m_maskRed = r; M_IMGDATA->m_maskGreen = g; M_IMGDATA->m_maskBlue = b; M_IMGDATA->m_hasMask = TRUE; } unsigned char wxImage::GetMaskRed() const { wxCHECK_MSG( Ok(), 0, "invalid image" ); return M_IMGDATA->m_maskRed; } unsigned char wxImage::GetMaskGreen() const { wxCHECK_MSG( Ok(), 0, "invalid image" ); return M_IMGDATA->m_maskGreen; } unsigned char wxImage::GetMaskBlue() const { wxCHECK_MSG( Ok(), 0, "invalid image" ); return M_IMGDATA->m_maskBlue; } void wxImage::SetMask( bool mask ) { wxCHECK_RET( Ok(), "invalid image" ); M_IMGDATA->m_hasMask = mask; } bool wxImage::HasMask() const { wxCHECK_MSG( Ok(), FALSE, "invalid image" ); return M_IMGDATA->m_hasMask; } int wxImage::GetWidth() const { wxCHECK_MSG( Ok(), 0, "invalid image" ); return M_IMGDATA->m_width; } int wxImage::GetHeight() const { wxCHECK_MSG( Ok(), 0, "invalid image" ); return M_IMGDATA->m_height; } bool wxImage::LoadFile( const wxString& filename, long type ) { #if wxUSE_STREAM if (wxFileExists(filename)) { wxFileInputStream stream(filename); return LoadFile(stream, type); } else { wxLogError( "Can't load image from file '%s': file does not exist.", filename.c_str() ); return FALSE; } #else // !wxUSE_STREAM return FALSE; #endif // wxUSE_STREAM } bool wxImage::SaveFile( const wxString& filename, int type ) { #if wxUSE_STREAM wxFileOutputStream stream(filename); if ( stream.LastError() == wxStream_NOERROR ) return SaveFile(stream, type); else #endif // wxUSE_STREAM return FALSE; } #if wxUSE_STREAM bool wxImage::LoadFile( wxInputStream& stream, long type ) { UnRef(); m_refData = new wxImageRefData; wxImageHandler *handler = FindHandler(type); if (handler == NULL) { wxLogWarning( "No image handler for type %d defined.", type ); return FALSE; } return handler->LoadFile( this, stream ); } bool wxImage::SaveFile( wxOutputStream& stream, int type ) { wxCHECK_MSG( Ok(), FALSE, "invalid image" ); wxImageHandler *handler = FindHandler(type); if (handler == NULL) { wxLogWarning( "No image handler for type %d defined.", type ); return FALSE; } return handler->SaveFile( this, stream ); } #endif // wxUSE_STREAM void wxImage::AddHandler( wxImageHandler *handler ) { // make sure that the memory will be freed at the program end sm_handlers.DeleteContents(TRUE); sm_handlers.Append( handler ); } void wxImage::InsertHandler( wxImageHandler *handler ) { // make sure that the memory will be freed at the program end sm_handlers.DeleteContents(TRUE); sm_handlers.Insert( handler ); } bool wxImage::RemoveHandler( const wxString& name ) { wxImageHandler *handler = FindHandler(name); if (handler) { sm_handlers.DeleteObject(handler); return TRUE; } else return FALSE; } wxImageHandler *wxImage::FindHandler( const wxString& name ) { wxNode *node = sm_handlers.First(); while (node) { wxImageHandler *handler = (wxImageHandler*)node->Data(); if (handler->GetName().Cmp(name) == 0) return handler; node = node->Next(); } return (wxImageHandler *)NULL; } wxImageHandler *wxImage::FindHandler( const wxString& extension, long bitmapType ) { wxNode *node = sm_handlers.First(); while (node) { wxImageHandler *handler = (wxImageHandler*)node->Data(); if ( (handler->GetExtension().Cmp(extension) == 0) && (bitmapType == -1 || handler->GetType() == bitmapType) ) return handler; node = node->Next(); } return (wxImageHandler*)NULL; } wxImageHandler *wxImage::FindHandler( long bitmapType ) { wxNode *node = sm_handlers.First(); while (node) { wxImageHandler *handler = (wxImageHandler *)node->Data(); if (handler->GetType() == bitmapType) return handler; node = node->Next(); } return NULL; } void wxImage::InitStandardHandlers() { AddHandler( new wxBMPHandler ); #ifdef wxUSE_LIBPNG AddHandler( new wxPNGHandler ); #endif } void wxImage::CleanUpHandlers() { wxNode *node = sm_handlers.First(); while (node) { wxImageHandler *handler = (wxImageHandler *)node->Data(); wxNode *next = node->Next(); delete handler; delete node; node = next; } } //----------------------------------------------------------------------------- // wxImageHandler //----------------------------------------------------------------------------- #if !USE_SHARED_LIBRARIES IMPLEMENT_DYNAMIC_CLASS(wxImageHandler,wxObject) #endif #if wxUSE_STREAM bool wxImageHandler::LoadFile( wxImage *WXUNUSED(image), wxInputStream& WXUNUSED(stream) ) { return FALSE; } bool wxImageHandler::SaveFile( wxImage *WXUNUSED(image), wxOutputStream& WXUNUSED(stream) ) { return FALSE; } #endif // wxUSE_STREAM //----------------------------------------------------------------------------- // wxPNGHandler //----------------------------------------------------------------------------- #ifdef wxUSE_LIBPNG #if !USE_SHARED_LIBRARIES IMPLEMENT_DYNAMIC_CLASS(wxPNGHandler,wxImageHandler) #endif #if wxUSE_STREAM static void _PNG_stream_reader( png_structp png_ptr, png_bytep data, png_size_t length ) { ((wxInputStream*) png_get_io_ptr( png_ptr )) -> Read(data, length); } static void _PNG_stream_writer( png_structp png_ptr, png_bytep data, png_size_t length ) { ((wxOutputStream*) png_get_io_ptr( png_ptr )) -> Write(data, length); } bool wxPNGHandler::LoadFile( wxImage *image, wxInputStream& stream ) { // VZ: as this function uses setjmp() the only fool proof error handling // method is to use goto (setjmp is not really C++ dtors friendly...) unsigned char **lines = (unsigned char **) NULL; unsigned int i; png_infop info_ptr = (png_infop) NULL; image->Destroy(); png_structp png_ptr = png_create_read_struct( PNG_LIBPNG_VER_STRING, (voidp) NULL, (png_error_ptr) NULL, (png_error_ptr) NULL ); if (!png_ptr) goto error; info_ptr = png_create_info_struct( png_ptr ); if (!info_ptr) goto error; if (setjmp(png_ptr->jmpbuf)) goto error; if (info_ptr->color_type == PNG_COLOR_TYPE_RGB_ALPHA) goto error; png_set_read_fn( png_ptr, &stream, _PNG_stream_reader); png_uint_32 width,height; int bit_depth,color_type,interlace_type; png_read_info( png_ptr, info_ptr ); png_get_IHDR( png_ptr, info_ptr, &width, &height, &bit_depth, &color_type, &interlace_type, (int*) NULL, (int*) NULL ); if (color_type == PNG_COLOR_TYPE_PALETTE) png_set_expand( png_ptr ); png_set_strip_16( png_ptr ); png_set_packing( png_ptr ); if (png_get_valid( png_ptr, info_ptr, PNG_INFO_tRNS)) png_set_expand( png_ptr ); png_set_filler( png_ptr, 0xff, PNG_FILLER_AFTER ); image->Create( width, height ); if (!image->Ok()) goto error; lines = (unsigned char **)malloc( height * sizeof(unsigned char *) ); if (lines == NULL) goto error; for (i = 0; i < height; i++) { if ((lines[i] = (unsigned char *)malloc(width * (sizeof(unsigned char) * 4))) == NULL) { for ( unsigned int n = 0; n < i; n++ ) free( lines[n] ); goto error; } } // loaded successfully! { int transp = 0; png_read_image( png_ptr, lines ); png_destroy_read_struct( &png_ptr, &info_ptr, (png_infopp) NULL ); unsigned char *ptr = image->GetData(); if ((color_type == PNG_COLOR_TYPE_GRAY) || (color_type == PNG_COLOR_TYPE_GRAY_ALPHA)) { for (unsigned int y = 0; y < height; y++) { unsigned char *ptr2 = lines[y]; for (unsigned int x = 0; x < width; x++) { unsigned char r = *ptr2++; unsigned char a = *ptr2++; if (a < 128) { *ptr++ = 255; *ptr++ = 0; *ptr++ = 255; transp = 1; } else { *ptr++ = r; *ptr++ = r; *ptr++ = r; } } } } else { for (unsigned int y = 0; y < height; y++) { unsigned char *ptr2 = lines[y]; for (unsigned int x = 0; x < width; x++) { unsigned char r = *ptr2++; unsigned char g = *ptr2++; unsigned char b = *ptr2++; unsigned char a = *ptr2++; if (a < 128) { *ptr++ = 255; *ptr++ = 0; *ptr++ = 255; transp = 1; } else { if ((r == 255) && (g == 0) && (b == 255)) r = 254; *ptr++ = r; *ptr++ = g; *ptr++ = b; } } } } for ( unsigned int j = 0; j < height; j++ ) free( lines[j] ); free( lines ); if (transp) { image->SetMaskColour( 255, 0, 255 ); } else { image->SetMask( FALSE ); } } return TRUE; error: wxLogError(_("Couldn't load a PNG image - probably file is corrupted.")); if ( image->Ok() ) { image->Destroy(); } if ( lines ) { free( lines ); } if ( png_ptr ) { if ( info_ptr ) { png_destroy_read_struct( &png_ptr, &info_ptr, (png_infopp) NULL ); free(info_ptr); } else png_destroy_read_struct( &png_ptr, (png_infopp) NULL, (png_infopp) NULL ); } return FALSE; } bool wxPNGHandler::SaveFile( wxImage *image, wxOutputStream& stream ) { { png_structp png_ptr = png_create_write_struct( PNG_LIBPNG_VER_STRING, NULL, NULL, NULL); if (!png_ptr) { return FALSE; } png_infop info_ptr = png_create_info_struct(png_ptr); if (info_ptr == NULL) { png_destroy_write_struct( &png_ptr, (png_infopp)NULL ); return FALSE; } if (setjmp(png_ptr->jmpbuf)) { png_destroy_write_struct( &png_ptr, (png_infopp)NULL ); return FALSE; } png_set_write_fn( png_ptr, &stream, _PNG_stream_writer, NULL); png_set_IHDR( png_ptr, info_ptr, image->GetWidth(), image->GetHeight(), 8, PNG_COLOR_TYPE_RGB_ALPHA, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_BASE, PNG_FILTER_TYPE_BASE); png_color_8 sig_bit; sig_bit.red = 8; sig_bit.green = 8; sig_bit.blue = 8; sig_bit.alpha = 8; png_set_sBIT( png_ptr, info_ptr, &sig_bit ); png_write_info( png_ptr, info_ptr ); png_set_shift( png_ptr, &sig_bit ); png_set_packing( png_ptr ); unsigned char *data = (unsigned char *)malloc( image->GetWidth()*4 ); if (!data) { png_destroy_write_struct( &png_ptr, (png_infopp)NULL ); return FALSE; } for (int y = 0; y < image->GetHeight(); y++) { unsigned char *ptr = image->GetData() + (y * image->GetWidth() * 3); for (int x = 0; x < image->GetWidth(); x++) { data[(x << 2) + 0] = *ptr++; data[(x << 2) + 1] = *ptr++; data[(x << 2) + 2] = *ptr++; if ((data[(x << 2) + 0] == image->GetMaskRed()) && (data[(x << 2) + 1] == image->GetMaskGreen()) && (data[(x << 2) + 2] == image->GetMaskBlue())) { data[(x << 2) + 3] = 0; } else { data[(x << 2) + 3] = 255; } } png_bytep row_ptr = data; png_write_rows( png_ptr, &row_ptr, 1 ); } free(data); png_write_end( png_ptr, info_ptr ); png_destroy_write_struct( &png_ptr, (png_infopp)&info_ptr ); } return TRUE; } #endif // wxUSE_STREAM #endif // wxUSE_LIBPNG //----------------------------------------------------------------------------- // wxBMPHandler //----------------------------------------------------------------------------- #if !USE_SHARED_LIBRARIES IMPLEMENT_DYNAMIC_CLASS(wxBMPHandler,wxImageHandler) #endif #if wxUSE_STREAM bool wxBMPHandler::LoadFile( wxImage *image, wxInputStream& stream ) { unsigned char *data, *ptr; int done, i, bpp, planes, comp, ncolors, line, column, linesize, linepos, rshift = 0, gshift = 0, bshift = 0; unsigned char aByte; short int word; long int dbuf[4], dword, rmask = 0, gmask = 0, bmask = 0, offset, size; off_t start_offset = stream.TellI(); signed char bbuf[4]; struct _cmap { unsigned char r, g, b; } *cmap = NULL; #ifndef BI_RGB #define BI_RGB 0 #define BI_RLE8 1 #define BI_RLE4 2 #endif #ifndef BI_BITFIELDS #define BI_BITFIELDS 3 #endif image->Destroy(); done = 0; /* * Reading the bmp header */ stream.Read(&bbuf, 2); stream.Read(dbuf, 4 * 4); size = dbuf[0]; offset = dbuf[2]; stream.Read(dbuf, 4 * 2); int width = (int)dbuf[0]; int height = (int)dbuf[1]; if (width > 32767) { wxLogError( "Image width > 32767 pixels for file\n" ); return FALSE; } if (height > 32767) { wxLogError( "Image height > 32767 pixels for file\n" ); return FALSE; } stream.Read(&word, 2); planes = (int)word; stream.Read(&word, 2); bpp = (int)word; if (bpp != 1 && bpp != 4 && bpp != 8 && bpp && 16 && bpp != 24 && bpp != 32) { wxLogError( "unknown bitdepth in file\n" ); return FALSE; } stream.Read(dbuf, 4 * 4); comp = (int)dbuf[0]; if (comp != BI_RGB && comp != BI_RLE4 && comp != BI_RLE8 && comp != BI_BITFIELDS) { wxLogError( "unknown encoding in Windows BMP file\n" ); return FALSE; } stream.Read(dbuf, 4 * 2); ncolors = (int)dbuf[0]; if (ncolors == 0) ncolors = 1 << bpp; /* some more sanity checks */ if (((comp == BI_RLE4) && (bpp != 4)) || ((comp == BI_RLE8) && (bpp != 8)) || ((comp == BI_BITFIELDS) && (bpp != 16 && bpp != 32))) { wxLogError( "encoding of BMP doesn't match bitdepth\n" ); return FALSE; } if (bpp < 16) { cmap = (struct _cmap *)malloc(sizeof(struct _cmap) * ncolors); if (!cmap) { wxLogError( "Cannot allocate RAM for color map in BMP file\n" ); return FALSE; } } else cmap = NULL; image->Create( width, height ); ptr = image->GetData(); if (!ptr) { wxLogError( "Cannot allocate RAM for RGB data in file\n" ); if (cmap) free(cmap); return FALSE; } /* * Reading the palette, if it exists. */ if (bpp < 16 && ncolors != 0) { for (i = 0; i < ncolors; i++) { stream.Read(bbuf, 4); cmap[i].b = bbuf[0]; cmap[i].g = bbuf[1]; cmap[i].r = bbuf[2]; } } else if (bpp == 16 || bpp == 32) { if (comp == BI_BITFIELDS) { int bit = 0; stream.Read(dbuf, 4 * 3); bmask = dbuf[0]; gmask = dbuf[1]; rmask = dbuf[2]; /* find shift amount.. ugly, but i can't think of a better way */ for (bit = 0; bit < bpp; bit++) { if (bmask & (1 << bit)) bshift = bit; if (gmask & (1 << bit)) gshift = bit; if (rmask & (1 << bit)) rshift = bit; } } else if (bpp == 16) { rmask = 0x7C00; gmask = 0x03E0; bmask = 0x001F; rshift = 10; gshift = 5; bshift = 0; } else if (bpp == 32) { rmask = 0x00FF0000; gmask = 0x0000FF00; bmask = 0x000000FF; rshift = 16; gshift = 8; bshift = 0; } } /* * Reading the image data */ stream.SeekI(start_offset + offset); data = ptr; /* set the whole image to the background color */ if (bpp < 16 && (comp == BI_RLE4 || comp == BI_RLE8)) { for (i = 0; i < width * height; i++) { *ptr++ = cmap[0].r; *ptr++ = cmap[0].g; *ptr++ = cmap[0].b; } ptr = data; } line = 0; column = 0; #define poffset (line * width * 3 + column * 3) /* * BMPs are stored upside down... hmmmmmmmmmm.... */ linesize = ((width * bpp + 31) / 32) * 4; for (line = (height - 1); line >= 0; line--) { linepos = 0; for (column = 0; column < width;) { if (bpp < 16) { int index; linepos++; aByte = stream.GetC(); if (bpp == 1) { int bit = 0; for (bit = 0; bit < 8; bit++) { index = ((aByte & (0x80 >> bit)) ? 1 : 0); ptr[poffset] = cmap[index].r; ptr[poffset + 1] = cmap[index].g; ptr[poffset + 2] = cmap[index].b; column++; } } else if (bpp == 4) { if (comp == BI_RLE4) { wxLogError( "can't deal with 4bit encoded yet.\n"); image->Destroy(); free(cmap); return FALSE; } else { int nibble = 0; for (nibble = 0; nibble < 2; nibble++) { index = ((aByte & (0xF0 >> nibble * 4)) >> (!nibble * 4)); if (index >= 16) index = 15; ptr[poffset] = cmap[index].r; ptr[poffset + 1] = cmap[index].g; ptr[poffset + 2] = cmap[index].b; column++; } } } else if (bpp == 8) { if (comp == BI_RLE8) { unsigned char first; first = aByte; aByte = stream.GetC(); if (first == 0) { if (aByte == 0) { /* column = width; */ } else if (aByte == 1) { column = width; line = -1; } else if (aByte == 2) { aByte = stream.GetC(); column += aByte; linepos = column * bpp / 8; aByte = stream.GetC(); line += aByte; } else { int absolute = aByte; for (i = 0; i < absolute; i++) { linepos++; aByte = stream.GetC(); ptr[poffset] = cmap[aByte].r; ptr[poffset + 1] = cmap[aByte].g; ptr[poffset + 2] = cmap[aByte].b; column++; } if (absolute & 0x01) aByte = stream.GetC(); } } else { for (i = 0; i < first; i++) { ptr[poffset] = cmap[aByte].r; ptr[poffset + 1] = cmap[aByte].g; ptr[poffset + 2] = cmap[aByte].b; column++; linepos++; } } } else { ptr[poffset] = cmap[aByte].r; ptr[poffset + 1] = cmap[aByte].g; ptr[poffset + 2] = cmap[aByte].b; column++; linepos += size; } } } else if (bpp == 24) { stream.Read(&bbuf, 3); linepos += 3; ptr[poffset] = (unsigned char)bbuf[2]; ptr[poffset + 1] = (unsigned char)bbuf[1]; ptr[poffset + 2] = (unsigned char)bbuf[0]; column++; } else if (bpp == 16) { unsigned char temp; stream.Read(&word, 2); linepos += 2; temp = (word & rmask) >> rshift; ptr[poffset] = temp; temp = (word & gmask) >> gshift; ptr[poffset + 1] = temp; temp = (word & bmask) >> gshift; ptr[poffset + 2] = temp; column++; } else { unsigned char temp; stream.Read(&dword, 4); linepos += 4; temp = (dword & rmask) >> rshift; ptr[poffset] = temp; temp = (dword & gmask) >> gshift; ptr[poffset + 1] = temp; temp = (dword & bmask) >> bshift; ptr[poffset + 2] = temp; column++; } } while ((linepos < linesize) && (comp != 1) && (comp != 2)) { stream.Read(&aByte, 1); linepos += 1; if (stream.LastError() != wxStream_NOERROR) break; } } if (cmap) free(cmap); image->SetMask( FALSE ); return TRUE; } #endif // wxUSE_STREAM #ifdef __WXMSW__ wxBitmap wxImage::ConvertToBitmap() const { // sizeLimit is the MS upper limit for the DIB size int sizeLimit = 1024*768*3; // width and height of the device-dependent bitmap int width = GetWidth(); int bmpHeight = GetHeight(); // calc the number of bytes per scanline and padding int bytePerLine = width*3; int sizeDWORD = sizeof( DWORD ); div_t lineBoundary = div( bytePerLine, sizeDWORD ); int padding = 0; if( lineBoundary.rem > 0 ) { padding = sizeDWORD - lineBoundary.rem; bytePerLine += padding; } // calc the number of DIBs and heights of DIBs int numDIB = 1; int hRemain = 0; int height = sizeLimit/bytePerLine; if( height >= bmpHeight ) height = bmpHeight; else { div_t result = div( bmpHeight, height ); numDIB = result.quot; hRemain = result.rem; if( hRemain >0 ) numDIB++; } // set bitmap parameters wxBitmap bitmap; wxCHECK_MSG( Ok(), bitmap, "invalid image" ); bitmap.SetWidth( width ); bitmap.SetHeight( bmpHeight ); bitmap.SetDepth( wxDisplayDepth() ); // create a DIB header int headersize = sizeof(BITMAPINFOHEADER); LPBITMAPINFO lpDIBh = (BITMAPINFO *) malloc( headersize ); wxCHECK_MSG( lpDIBh, bitmap, "could not allocate memory for DIB header" ); // Fill in the DIB header lpDIBh->bmiHeader.biSize = headersize; lpDIBh->bmiHeader.biWidth = (DWORD)width; lpDIBh->bmiHeader.biHeight = (DWORD)(-height); lpDIBh->bmiHeader.biSizeImage = bytePerLine*height; // the general formula for biSizeImage: // ( ( ( ((DWORD)width*24) +31 ) & ~31 ) >> 3 ) * height; lpDIBh->bmiHeader.biPlanes = 1; lpDIBh->bmiHeader.biBitCount = 24; lpDIBh->bmiHeader.biCompression = BI_RGB; lpDIBh->bmiHeader.biClrUsed = 0; // These seem not really needed for our purpose here. lpDIBh->bmiHeader.biClrImportant = 0; lpDIBh->bmiHeader.biXPelsPerMeter = 0; lpDIBh->bmiHeader.biYPelsPerMeter = 0; // memory for DIB data unsigned char *lpBits; lpBits = (unsigned char *)malloc( lpDIBh->bmiHeader.biSizeImage ); if( !lpBits ) { wxFAIL_MSG( "could not allocate memory for DIB" ); free( lpDIBh ); return bitmap; } // create and set the device-dependent bitmap HDC hdc = ::GetDC(NULL); HDC memdc = ::CreateCompatibleDC( hdc ); HBITMAP hbitmap; hbitmap = ::CreateCompatibleBitmap( hdc, width, bmpHeight ); ::SelectObject( memdc, hbitmap); // copy image data into DIB data and then into DDB (in a loop) unsigned char *data = GetData(); int i, j, n; int origin = 0; unsigned char *ptdata = data; unsigned char *ptbits; for( n=0; n 1 && n == numDIB-1 && hRemain > 0 ) { // redefine height and size of the (possibly) last smaller DIB // memory is not reallocated height = hRemain; lpDIBh->bmiHeader.biHeight = (DWORD)(-height); lpDIBh->bmiHeader.biSizeImage = bytePerLine*height; } ptbits = lpBits; for( j=0; jbmiHeader), CBM_INIT, lpBits, lpDIBh, DIB_RGB_COLORS ); // The above line is equivalent to the following two lines. // hbitmap = ::CreateCompatibleBitmap( hdc, width, height ); // ::SetDIBits( hdc, hbitmap, 0, height, lpBits, lpDIBh, DIB_RGB_COLORS); // or the following lines // hbitmap = ::CreateCompatibleBitmap( hdc, width, height ); // HDC memdc = ::CreateCompatibleDC( hdc ); // ::SelectObject( memdc, hbitmap); // ::SetDIBitsToDevice( memdc, 0, 0, width, height, // 0, 0, 0, height, (void *)lpBits, lpDIBh, DIB_RGB_COLORS); // ::SelectObject( memdc, 0 ); // ::DeleteDC( memdc ); } bitmap.SetHBITMAP( (WXHBITMAP) hbitmap ); // similarly, created an mono-bitmap for the possible mask if( HasMask() ) { hbitmap = ::CreateBitmap( (WORD)width, (WORD)bmpHeight, 1, 1, NULL ); ::SelectObject( memdc, hbitmap); if( numDIB == 1 ) height = bmpHeight; else height = sizeLimit/bytePerLine; lpDIBh->bmiHeader.biHeight = (DWORD)(-height); lpDIBh->bmiHeader.biSizeImage = bytePerLine*height; origin = 0; unsigned char r = GetMaskRed(); unsigned char g = GetMaskGreen(); unsigned char b = GetMaskBlue(); unsigned char zero = 0, one = 255; ptdata = data; for( n=0; n 1 && n == numDIB - 1 && hRemain > 0 ) { // redefine height and size of the (possibly) last smaller DIB // memory is not reallocated height = hRemain; lpDIBh->bmiHeader.biHeight = (DWORD)(-height); lpDIBh->bmiHeader.biSizeImage = bytePerLine*height; } ptbits = lpBits; for( int j=0; jSetMaskBitmap( (WXHBITMAP) hbitmap ); bitmap.SetMask( mask ); // It will be deleted when the wxBitmap object is deleted (as of 01/1999) /* The following can also be used but is slow to run wxColour colour( GetMaskRed(), GetMaskGreen(), GetMaskBlue()); wxMask *mask = new wxMask( bitmap, colour ); bitmap.SetMask( mask ); */ } // free allocated resources ::SelectObject( memdc, 0 ); ::DeleteDC( memdc ); ::ReleaseDC(NULL, hdc); free(lpDIBh); free(lpBits); // check the wxBitmap object if( bitmap.GetHBITMAP() ) bitmap.SetOk( TRUE ); else bitmap.SetOk( FALSE ); return bitmap; } wxImage::wxImage( const wxBitmap &bitmap ) { // check the bitmap if( !bitmap.Ok() ) { wxFAIL_MSG( "invalid bitmap" ); return; } // create an wxImage object int width = bitmap.GetWidth(); int height = bitmap.GetHeight(); Create( width, height ); unsigned char *data = GetData(); if( !data ) { wxFAIL_MSG( "could not allocate data for image" ); return; } // calc the number of bytes per scanline and padding in the DIB int bytePerLine = width*3; int sizeDWORD = sizeof( DWORD ); div_t lineBoundary = div( bytePerLine, sizeDWORD ); int padding = 0; if( lineBoundary.rem > 0 ) { padding = sizeDWORD - lineBoundary.rem; bytePerLine += padding; } // create a DIB header int headersize = sizeof(BITMAPINFOHEADER); LPBITMAPINFO lpDIBh = (BITMAPINFO *) malloc( headersize ); if( !lpDIBh ) { wxFAIL_MSG( "could not allocate data for DIB header" ); free( data ); return; } // Fill in the DIB header lpDIBh->bmiHeader.biSize = headersize; lpDIBh->bmiHeader.biWidth = width; lpDIBh->bmiHeader.biHeight = -height; lpDIBh->bmiHeader.biSizeImage = bytePerLine * height; lpDIBh->bmiHeader.biPlanes = 1; lpDIBh->bmiHeader.biBitCount = 24; lpDIBh->bmiHeader.biCompression = BI_RGB; lpDIBh->bmiHeader.biClrUsed = 0; // These seem not really needed for our purpose here. lpDIBh->bmiHeader.biClrImportant = 0; lpDIBh->bmiHeader.biXPelsPerMeter = 0; lpDIBh->bmiHeader.biYPelsPerMeter = 0; // memory for DIB data unsigned char *lpBits; lpBits = (unsigned char *) malloc( lpDIBh->bmiHeader.biSizeImage ); if( !lpBits ) { wxFAIL_MSG( "could not allocate data for DIB" ); free( data ); free( lpDIBh ); return; } // copy data from the device-dependent bitmap to the DIB HDC hdc = ::GetDC(NULL); HBITMAP hbitmap; hbitmap = (HBITMAP) bitmap.GetHBITMAP(); ::GetDIBits( hdc, hbitmap, 0, height, lpBits, lpDIBh, DIB_RGB_COLORS ); // copy DIB data into the wxImage object int i, j; unsigned char *ptdata = data; unsigned char *ptbits = lpBits; for( i=0; iGetMaskBitmap() ) { hbitmap = (HBITMAP) bitmap.GetMask()->GetMaskBitmap(); // memory DC created, color set, data copied, and memory DC deleted HDC memdc = ::CreateCompatibleDC( hdc ); ::SetTextColor( memdc, RGB( 0, 0, 0 ) ); ::SetBkColor( memdc, RGB( 255, 255, 255 ) ); ::GetDIBits( memdc, hbitmap, 0, height, lpBits, lpDIBh, DIB_RGB_COLORS ); ::DeleteDC( memdc ); // background color set to RGB(16,16,16) in consistent with wxGTK unsigned char r=16, g=16, b=16; ptdata = data; ptbits = lpBits; for( i=0; i> 3)+8) * height ); mask_image = gdk_image_new_bitmap( gdk_visual_get_system(), mask_data, width, height ); wxMask *mask = new wxMask(); mask->m_bitmap = gdk_pixmap_new( (GdkWindow*)&gdk_root_parent, width, height, 1 ); bitmap.SetMask( mask ); } // Retrieve depth GdkVisual *visual = gdk_window_get_visual( bitmap.GetPixmap() ); if (visual == NULL) visual = gdk_window_get_visual( (GdkWindow*) &gdk_root_parent ); int bpp = visual->depth; bitmap.SetDepth( bpp ); if ((bpp == 16) && (visual->red_mask != 0xf800)) bpp = 15; if (bpp < 8) bpp = 8; // Render enum byte_order { RGB, RBG, BRG, BGR, GRB, GBR }; byte_order b_o = RGB; if (bpp >= 24) { GdkVisual *visual = gdk_visual_get_system(); if ((visual->red_mask > visual->green_mask) && (visual->green_mask > visual->blue_mask)) b_o = RGB; else if ((visual->red_mask > visual->blue_mask) && (visual->blue_mask > visual->green_mask)) b_o = RGB; else if ((visual->blue_mask > visual->red_mask) && (visual->red_mask > visual->green_mask)) b_o = BRG; else if ((visual->blue_mask > visual->green_mask) && (visual->green_mask > visual->red_mask)) b_o = BGR; else if ((visual->green_mask > visual->red_mask) && (visual->red_mask > visual->blue_mask)) b_o = GRB; else if ((visual->green_mask > visual->blue_mask) && (visual->blue_mask > visual->red_mask)) b_o = GBR; } int r_mask = GetMaskRed(); int g_mask = GetMaskGreen(); int b_mask = GetMaskBlue(); unsigned char* data = GetData(); int index = 0; for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { int r = data[index]; index++; int g = data[index]; index++; int b = data[index]; index++; if (HasMask()) { if ((r == r_mask) && (b == b_mask) && (g == g_mask)) gdk_image_put_pixel( mask_image, x, y, 1 ); else gdk_image_put_pixel( mask_image, x, y, 0 ); } if (HasMask()) { if ((r == r_mask) && (b == b_mask) && (g == g_mask)) gdk_image_put_pixel( mask_image, x, y, 1 ); else gdk_image_put_pixel( mask_image, x, y, 0 ); } switch (bpp) { case 8: { int pixel = -1; if (wxTheApp->m_colorCube) { pixel = wxTheApp->m_colorCube[ ((r & 0xf8) << 7) + ((g & 0xf8) << 2) + ((b & 0xf8) >> 3) ]; } else { GdkColormap *cmap = gtk_widget_get_default_colormap(); GdkColor *colors = cmap->colors; int max = 3 * (65536); for (int i = 0; i < cmap->size; i++) { int rdiff = (r << 8) - colors[i].red; int gdiff = (g << 8) - colors[i].green; int bdiff = (b << 8) - colors[i].blue; int sum = ABS (rdiff) + ABS (gdiff) + ABS (bdiff); if (sum < max) { pixel = i; max = sum; } } } gdk_image_put_pixel( data_image, x, y, pixel ); break; } case 15: { guint32 pixel = ((r & 0xf8) << 7) | ((g & 0xf8) << 2) | ((b & 0xf8) >> 3); gdk_image_put_pixel( data_image, x, y, pixel ); break; } case 16: { guint32 pixel = ((r & 0xf8) << 8) | ((g & 0xfc) << 3) | ((b & 0xf8) >> 3); gdk_image_put_pixel( data_image, x, y, pixel ); break; } case 32: case 24: { guint32 pixel = 0; switch (b_o) { case RGB: pixel = (r << 16) | (g << 8) | b; break; case RBG: pixel = (r << 16) | (b << 8) | g; break; case BRG: pixel = (b << 16) | (r << 8) | g; break; case BGR: pixel = (b << 16) | (g << 8) | r; break; case GRB: pixel = (g << 16) | (r << 8) | b; break; case GBR: pixel = (g << 16) | (b << 8) | r; break; } gdk_image_put_pixel( data_image, x, y, pixel ); } default: break; } } // for } // for // Blit picture GdkGC *data_gc = gdk_gc_new( bitmap.GetPixmap() ); gdk_draw_image( bitmap.GetPixmap(), data_gc, data_image, 0, 0, 0, 0, width, height ); gdk_image_destroy( data_image ); gdk_gc_unref( data_gc ); // Blit mask if (HasMask()) { GdkGC *mask_gc = gdk_gc_new( bitmap.GetMask()->GetBitmap() ); gdk_draw_image( bitmap.GetMask()->GetBitmap(), mask_gc, mask_image, 0, 0, 0, 0, width, height ); gdk_image_destroy( mask_image ); gdk_gc_unref( mask_gc ); } return bitmap; } wxImage::wxImage( const wxBitmap &bitmap ) { wxCHECK_RET( bitmap.Ok(), "invalid bitmap" ); GdkImage *gdk_image = gdk_image_get( bitmap.GetPixmap(), 0, 0, bitmap.GetWidth(), bitmap.GetHeight() ); wxCHECK_RET( gdk_image, "couldn't create image" ); Create( bitmap.GetWidth(), bitmap.GetHeight() ); char unsigned *data = GetData(); if (!data) { gdk_image_destroy( gdk_image ); wxFAIL_MSG( "couldn't create image" ); return; } GdkImage *gdk_image_mask = (GdkImage*) NULL; if (bitmap.GetMask()) { gdk_image_mask = gdk_image_get( bitmap.GetMask()->GetBitmap(), 0, 0, bitmap.GetWidth(), bitmap.GetHeight() ); SetMaskColour( 16, 16, 16 ); // anything unlikely and dividable } GdkVisual *visual = gdk_window_get_visual( bitmap.GetPixmap() ); if (visual == NULL) visual = gdk_window_get_visual( (GdkWindow*) &gdk_root_parent ); int bpp = visual->depth; if ((bpp == 16) && (visual->red_mask != 0xf800)) bpp = 15; GdkColormap *cmap = gtk_widget_get_default_colormap(); long pos = 0; for (int j = 0; j < bitmap.GetHeight(); j++) { for (int i = 0; i < bitmap.GetWidth(); i++) { int pixel = gdk_image_get_pixel( gdk_image, i, j ); if (bpp <= 8) { data[pos] = cmap->colors[pixel].red >> 8; data[pos+1] = cmap->colors[pixel].green >> 8; data[pos+2] = cmap->colors[pixel].blue >> 8; } else if (bpp == 15) { data[pos] = (pixel >> 7) & 0xf8; data[pos+1] = (pixel >> 2) & 0xf8; data[pos+2] = (pixel << 3) & 0xf8; } else if (bpp == 16) { data[pos] = (pixel >> 8) & 0xf8; data[pos+1] = (pixel >> 3) & 0xfc; data[pos+2] = (pixel << 3) & 0xf8; } else { data[pos] = (pixel >> 16) & 0xff; data[pos+1] = (pixel >> 8) & 0xff; data[pos+2] = pixel & 0xff; } if (gdk_image_mask) { int mask_pixel = gdk_image_get_pixel( gdk_image_mask, i, j ); if (mask_pixel == 0) { data[pos] = 16; data[pos+1] = 16; data[pos+2] = 16; } } pos += 3; } } gdk_image_destroy( gdk_image ); if (gdk_image_mask) gdk_image_destroy( gdk_image_mask ); } #endif #ifdef __WXMOTIF__ #include #include "wx/utils.h" #include wxBitmap wxImage::ConvertToBitmap() const { wxBitmap bitmap; wxCHECK_MSG( Ok(), bitmap, "invalid image" ); int width = GetWidth(); int height = GetHeight(); bitmap.SetHeight( height ); bitmap.SetWidth( width ); Display *dpy = (Display*) wxGetDisplay(); Visual* vis = DefaultVisual( dpy, DefaultScreen( dpy ) ); int bpp = DefaultDepth( dpy, DefaultScreen( dpy ) ); // Create image XImage *data_image = XCreateImage( dpy, vis, bpp, ZPixmap, 0, 0, width, height, 32, 0 ); data_image->data = new char[ data_image->bytes_per_line * data_image->height ]; bitmap.Create( width, height, bpp ); /* // Create mask GdkImage *mask_image = (GdkImage*) NULL; if (HasMask()) { unsigned char *mask_data = (unsigned char*)malloc( ((width >> 3)+8) * height ); mask_image = gdk_image_new_bitmap( gdk_visual_get_system(), mask_data, width, height ); wxMask *mask = new wxMask(); mask->m_bitmap = gdk_pixmap_new( (GdkWindow*)&gdk_root_parent, width, height, 1 ); bitmap.SetMask( mask ); } */ // Retrieve depth info XVisualInfo vinfo_template; XVisualInfo *vi; vinfo_template.visual = vis; vinfo_template.visualid = XVisualIDFromVisual( vis ); vinfo_template.depth = bpp; int nitem = 0; vi = XGetVisualInfo( dpy, VisualIDMask|VisualDepthMask, &vinfo_template, &nitem ); if (!vi) { printf("no visual.\n" ); return wxNullBitmap; } XFree( vi ); if ((bpp == 16) && (vi->red_mask != 0xf800)) bpp = 15; if (bpp < 8) bpp = 8; // Render enum byte_order { RGB, RBG, BRG, BGR, GRB, GBR }; byte_order b_o = RGB; if (bpp >= 24) { if ((vi->red_mask > vi->green_mask) && (vi->green_mask > vi->blue_mask)) b_o = RGB; else if ((vi->red_mask > vi->blue_mask) && (vi->blue_mask > vi->green_mask)) b_o = RGB; else if ((vi->blue_mask > vi->red_mask) && (vi->red_mask > vi->green_mask)) b_o = BRG; else if ((vi->blue_mask > vi->green_mask) && (vi->green_mask > vi->red_mask)) b_o = BGR; else if ((vi->green_mask > vi->red_mask) && (vi->red_mask > vi->blue_mask)) b_o = GRB; else if ((vi->green_mask > vi->blue_mask) && (vi->blue_mask > vi->red_mask)) b_o = GBR; } /* int r_mask = GetMaskRed(); int g_mask = GetMaskGreen(); int b_mask = GetMaskBlue(); */ XColor colors[256]; if (bpp == 8) { Colormap cmap = (Colormap) wxTheApp->GetMainColormap( dpy ); for (int i = 0; i < 256; i++) colors[i].pixel = i; XQueryColors( dpy, cmap, colors, 256 ); } unsigned char* data = GetData(); int index = 0; for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { int r = data[index]; index++; int g = data[index]; index++; int b = data[index]; index++; /* if (HasMask()) { if ((r == r_mask) && (b == b_mask) && (g == g_mask)) gdk_image_put_pixel( mask_image, x, y, 1 ); else gdk_image_put_pixel( mask_image, x, y, 0 ); } */ switch (bpp) { case 8: { int pixel = -1; /* if (wxTheApp->m_colorCube) { pixel = wxTheApp->m_colorCube [ ((r & 0xf8) << 7) + ((g & 0xf8) << 2) + ((b & 0xf8) >> 3) ]; } else { */ int max = 3 * (65536); for (int i = 0; i < 256; i++) { int rdiff = (r << 8) - colors[i].red; int gdiff = (g << 8) - colors[i].green; int bdiff = (b << 8) - colors[i].blue; int sum = abs (rdiff) + abs (gdiff) + abs (bdiff); if (sum < max) { pixel = i; max = sum; } } /* } */ XPutPixel( data_image, x, y, pixel ); break; } case 15: { int pixel = ((r & 0xf8) << 7) | ((g & 0xf8) << 2) | ((b & 0xf8) >> 3); XPutPixel( data_image, x, y, pixel ); break; } case 16: { int pixel = ((r & 0xf8) << 8) | ((g & 0xfc) << 3) | ((b & 0xf8) >> 3); XPutPixel( data_image, x, y, pixel ); break; } case 32: case 24: { int pixel = 0; switch (b_o) { case RGB: pixel = (r << 16) | (g << 8) | b; break; case RBG: pixel = (r << 16) | (b << 8) | g; break; case BRG: pixel = (b << 16) | (r << 8) | g; break; case BGR: pixel = (b << 16) | (g << 8) | r; break; case GRB: pixel = (g << 16) | (r << 8) | b; break; case GBR: pixel = (g << 16) | (b << 8) | r; break; } XPutPixel( data_image, x, y, pixel ); } default: break; } } // for } // for // Blit picture XGCValues gcvalues; gcvalues.foreground = BlackPixel( dpy, DefaultScreen( dpy ) ); GC gc = XCreateGC( dpy, RootWindow ( dpy, DefaultScreen(dpy) ), GCForeground, &gcvalues ); XPutImage( dpy, (Drawable)bitmap.GetPixmap(), gc, data_image, 0, 0, 0, 0, width, height ); XDestroyImage( data_image ); XFreeGC( dpy, gc ); /* // Blit mask if (HasMask()) { GdkGC *mask_gc = gdk_gc_new( bitmap.GetMask()->GetBitmap() ); gdk_draw_image( bitmap.GetMask()->GetBitmap(), mask_gc, mask_image, 0, 0, 0, 0, width, height ); gdk_image_destroy( mask_image ); gdk_gc_unref( mask_gc ); } */ return bitmap; } wxImage::wxImage( const wxBitmap &bitmap ) { wxCHECK_RET( bitmap.Ok(), "invalid bitmap" ); Display *dpy = (Display*) wxGetDisplay(); Visual* vis = DefaultVisual( dpy, DefaultScreen( dpy ) ); int bpp = DefaultDepth( dpy, DefaultScreen( dpy ) ); XImage *ximage = XGetImage( dpy, (Drawable)bitmap.GetPixmap(), 0, 0, bitmap.GetWidth(), bitmap.GetHeight(), AllPlanes, ZPixmap ); wxCHECK_RET( ximage, "couldn't create image" ); Create( bitmap.GetWidth(), bitmap.GetHeight() ); char unsigned *data = GetData(); if (!data) { XDestroyImage( ximage ); wxFAIL_MSG( "couldn't create image" ); return; } /* GdkImage *gdk_image_mask = (GdkImage*) NULL; if (bitmap.GetMask()) { gdk_image_mask = gdk_image_get( bitmap.GetMask()->GetBitmap(), 0, 0, bitmap.GetWidth(), bitmap.GetHeight() ); SetMaskColour( 16, 16, 16 ); // anything unlikely and dividable } */ // Retrieve depth info XVisualInfo vinfo_template; XVisualInfo *vi; vinfo_template.visual = vis; vinfo_template.visualid = XVisualIDFromVisual( vis ); vinfo_template.depth = bpp; int nitem = 0; vi = XGetVisualInfo( dpy, VisualIDMask|VisualDepthMask, &vinfo_template, &nitem ); if (!vi) { printf("no visual.\n" ); return; } if ((bpp == 16) && (vi->red_mask != 0xf800)) bpp = 15; XFree( vi ); XColor colors[256]; if (bpp == 8) { Colormap cmap = (Colormap)wxTheApp->GetMainColormap( dpy ); for (int i = 0; i < 256; i++) colors[i].pixel = i; XQueryColors( dpy, cmap, colors, 256 ); } long pos = 0; for (int j = 0; j < bitmap.GetHeight(); j++) { for (int i = 0; i < bitmap.GetWidth(); i++) { int pixel = XGetPixel( ximage, i, j ); if (bpp <= 8) { data[pos] = colors[pixel].red >> 8; data[pos+1] = colors[pixel].green >> 8; data[pos+2] = colors[pixel].blue >> 8; } else if (bpp == 15) { data[pos] = (pixel >> 7) & 0xf8; data[pos+1] = (pixel >> 2) & 0xf8; data[pos+2] = (pixel << 3) & 0xf8; } else if (bpp == 16) { data[pos] = (pixel >> 8) & 0xf8; data[pos+1] = (pixel >> 3) & 0xfc; data[pos+2] = (pixel << 3) & 0xf8; } else { data[pos] = (pixel >> 16) & 0xff; data[pos+1] = (pixel >> 8) & 0xff; data[pos+2] = pixel & 0xff; } /* if (gdk_image_mask) { int mask_pixel = gdk_image_get_pixel( gdk_image_mask, i, j ); if (mask_pixel == 0) { data[pos] = 16; data[pos+1] = 16; data[pos+2] = 16; } } */ pos += 3; } } XDestroyImage( ximage ); /* if (gdk_image_mask) gdk_image_destroy( gdk_image_mask ); */ } #endif