/**************************************************************************** ** ** Utility program for embedding binary data into a C/C++ source code. ** It reads a binary file and generates a C array with the binary data. ** The C code is written to standard output. ** ** Created : 951017 ** ** Copyright (C) 1995-2008 Trolltech ASA. All rights reserved. ** ** Permission to use, copy, modify, and distribute this software and its ** documentation for any purpose and without fee is hereby granted, provided ** that this copyright notice appears in all copies. ** No representations are made about the suitability of this software for any ** purpose. It is provided "as is" without express or implied warranty. ** *****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include static void embedData( const TQByteArray &input, TQFile *output ); static void embedData( const uchar* input, int size, TQFile *output ); static void embedData( const TQRgb* input, int size, TQFile *output ); static TQString convertFileNameToCIdentifier( const char * ); static const char header[] = "/* Generated by qembed */\n"; struct Embed { uint size; TQString name; TQString cname; }; struct EmbedImage { int width; int height; int depth; int numColors; TQRgb* colorTable; TQString name; TQString cname; bool alpha; }; int main( int argc, char **argv ) { if ( argc < 2 ) { qWarning( "Usage:\n\t%s [--images] files", argv[0] ); return 1; } TQFile output; bool output_hdr = FALSE; bool images = FALSE; output.open( IO_WriteOnly, stdout ); TQTextStream out( &output ); TQPtrList list_image; TQPtrList list; list.setAutoDelete( TRUE ); list_image.setAutoDelete( TRUE ); long l = rand(); out << "#ifndef _TQEMBED_" << l << endl; out << "#define _TQEMBED_" << l << endl; TQStringList args; for ( int i = 1; i < argc; ++i ) { TQString file( argv[i] ); #ifdef TQ_WS_WIN // Since wildcards are not expanded automatically for us on Windows, we need to do // it ourselves if ( file.tqcontains( '*' ) || file.tqcontains( '?' ) ) { TQDir d; const TQFileInfoList *fiList = d.entryInfoList( file, TQDir::Files ); TQFileInfoListIterator it(*fiList); while ( it.current() ) { args << (*it)->filePath(); ++it; } } else #endif args << file; } for ( TQStringList::Iterator it = args.begin(); it != args.end(); ++it ) { TQString arg = (*it); if ( arg == "--images" ) { if ( !images ) { out << "#include \n"; out << "#include \n"; images = TRUE; } } else { TQFile f( *it ); if ( !f.open(IO_ReadOnly) ) { qWarning( "Cannot open file %s, ignoring it", (*it).latin1() ); continue; } TQByteArray a( f.size() ); if ( f.size() == 0 || f.readBlock(a.data(), f.size()) != (int)f.size() ) { qWarning( "Cannot read file %s, ignoring it", (*it).latin1() ); continue; } if ( images ) { TQImage img; if ( !img.loadFromData(a) ) { qWarning( "Cannot read image from file %s, ignoring it", (*it).latin1() ); continue; } EmbedImage *e = new EmbedImage; e->width = img.width(); e->height = img.height(); e->depth = img.depth(); e->numColors = img.numColors(); e->colorTable = new TQRgb[e->numColors]; e->alpha = img.hasAlphaBuffer(); memcpy(e->colorTable, img.tqcolorTable(), e->numColors*sizeof(TQRgb)); TQFileInfo fi( (*it) ); e->name = fi.baseName(); e->cname = convertFileNameToCIdentifier( e->name.latin1() ); list_image.append( e ); TQString s; if ( e->depth == 32 ) { out << s.sprintf( "static const TQRgb %s_data[] = {", (const char *)e->cname ); embedData( (TQRgb*)img.bits(), e->width*e->height, &output ); } else { if ( e->depth == 1 ) img = img.convertBitOrder(TQImage::BigEndian); out << s.sprintf( "static const unsigned char %s_data[] = {", (const char *)e->cname ); embedData( img.bits(), img.numBytes(), &output ); } out << "\n};\n\n"; if ( e->numColors ) { out << s.sprintf( "static const TQRgb %s_ctable[] = {", (const char *)e->cname ); embedData( e->colorTable, e->numColors, &output ); out << "\n};\n\n"; } } else { Embed *e = new Embed; e->size = f.size(); e->name = (*it); e->cname = convertFileNameToCIdentifier( (*it) ); list.append( e ); TQString s; out << s.sprintf( "static const unsigned int %s_len = %d;\n", (const char *)e->cname, e->size ); out << s.sprintf( "static const unsigned char %s_data[] = {", (const char *)e->cname ); embedData( a, &output ); out << "\n};\n\n"; } if ( !output_hdr ) { output_hdr = TRUE; out << header; } } } if ( list.count() > 0 ) { out << "#include \n"; if ( !images ) out << "#include \n"; out << "static struct Embed {\n" " unsigned int size;\n" " const unsigned char *data;\n" " const char *name;\n" "} embed_vec[] = {\n"; Embed *e = list.first(); while ( e ) { out << " { " << e->size << ", " << e->cname << "_data, " << "\"" << e->name << "\" },\n"; e = list.next(); } out << " { 0, 0, 0 }\n};\n"; out << "\n" "static const TQByteArray& qembed_tqfindData( const char* name )\n" "{\n" " static TQDict dict;\n" " TQByteArray* ba = dict.tqfind( name );\n" " if ( !ba ) {\n" " for ( int i = 0; embed_vec[i].data; i++ ) {\n" " if ( strcmp(embed_vec[i].name, name) == 0 ) {\n" " ba = new TQByteArray;\n" " ba->setRawData( (char*)embed_vec[i].data,\n" " embed_vec[i].size );\n" " dict.insert( name, ba );\n" " break;\n" " }\n" " }\n" " if ( !ba ) {\n" " static TQByteArray dummy;\n" " return dummy;\n" " }\n" " }\n" " return *ba;\n" "}\n\n"; } if ( list_image.count() > 0 ) { out << "static struct EmbedImage {\n" " int width, height, depth;\n" " const unsigned char *data;\n" " int numColors;\n" " const TQRgb *colorTable;\n" " bool alpha;\n" " const char *name;\n" "} embed_image_vec[] = {\n"; EmbedImage *e = list_image.first(); while ( e ) { out << " { " << e->width << ", " << e->height << ", " << e->depth << ", " << "(const unsigned char*)" << e->cname << "_data, " << e->numColors << ", "; if ( e->numColors ) out << e->cname << "_ctable, "; else out << "0, "; if ( e->alpha ) out << "TRUE, "; else out << "FALSE, "; out << "\"" << e->name << "\" },\n"; e = list_image.next(); } out << " { 0, 0, 0, 0, 0, 0, 0, 0 }\n};\n"; out << "\n" "static const TQImage& qembed_tqfindImage( const TQString& name )\n" "{\n" " static TQDict dict;\n" " TQImage* img = dict.tqfind( name );\n" " if ( !img ) {\n" " for ( int i = 0; embed_image_vec[i].data; i++ ) {\n" " if ( strcmp(embed_image_vec[i].name, name.latin1()) == 0 ) {\n" " img = new TQImage((uchar*)embed_image_vec[i].data,\n" " embed_image_vec[i].width,\n" " embed_image_vec[i].height,\n" " embed_image_vec[i].depth,\n" " (TQRgb*)embed_image_vec[i].colorTable,\n" " embed_image_vec[i].numColors,\n" " TQImage::BigEndian );\n" " if ( embed_image_vec[i].alpha )\n" " img->setAlphaBuffer( TRUE );\n" " dict.insert( name, img );\n" " break;\n" " }\n" " }\n" " if ( !img ) {\n" " static TQImage dummy;\n" " return dummy;\n" " }\n" " }\n" " return *img;\n" "}\n\n"; } out << "#endif" << endl; return 0; } TQString convertFileNameToCIdentifier( const char *s ) { TQString r = s; int len = r.length(); if ( len > 0 && !isalpha( (char)r[0].latin1() ) ) r[0] = '_'; for ( int i = 1; i < len; i++ ) { if ( !isalnum( (char)r[i].latin1() ) ) r[i] = '_'; } return r; } void embedData( const TQByteArray &input, TQFile *output ) { embedData((uchar*)input.data(), input.size(), output); } void embedData( const uchar* input, int nbytes, TQFile *output ) { static const char hexdigits[] = "0123456789abcdef"; TQString s; for ( int i=0; iwriteBlock( (const char*)s, s.length() ); s.truncate( 0 ); } uint v = input[i]; s += "0x"; s += hexdigits[(v >> 4) & 15]; s += hexdigits[v & 15]; if ( i < nbytes-1 ) s += ','; } if ( s.length() ) output->writeBlock( (const char*)s, s.length() ); } void embedData( const TQRgb* input, int n, TQFile *output ) { TQString s; for ( int i = 0; i < n; i++ ) { if ( (i % 14) == 0 ) { s += "\n "; output->writeBlock( (const char*)s, s.length() ); s.truncate( 0 ); } TQRgb v = input[i]; s += "0x"; s += TQString::number( v, 16 ); if ( i < n-1 ) s += ','; } if ( s.length() ) output->writeBlock( (const char*)s, s.length() ); }