/* This file is (c) 2008-2009 Konstantin Isakov * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ // This program generates the required .cc files to perform Unicode foldings, // parsing the Unicode standards' text files. // Normally, we issue rebuilds manually in case either the generator or // the data files were updated to avoid the hurdles an end user might get // into while compiling the program. #include #include #include using std::map; using std::wstring; struct Node { map< wchar_t, Node > nodes; wchar_t tail; Node(): tail( 0 ) {} }; void indent( FILE * outf, size_t steps ) { for( unsigned x = steps; x--; ) fprintf( outf, " " ); } void handleForest( FILE * outf, map< wchar_t, Node > const & forest, size_t prev, size_t steps ) { indent( outf, steps ); fprintf( outf, "if ( size > %u )\n", prev ); indent( outf, steps ); fprintf( outf, "{\n" ); indent( outf, steps + 1 ); fprintf( outf, "switch( in[ %u ] )\n", prev ); indent( outf, steps + 1 ); fprintf( outf, "{\n" ); for( map< wchar_t, Node >::const_iterator i = forest.begin(); i != forest.end(); ++i ) { indent( outf, steps + 2 ); fprintf( outf, "case 0x%x:\n", i->first ); if ( i->second.nodes.size() ) handleForest( outf, i->second.nodes, prev + 1, steps + 3 ); indent( outf, steps + 3 ); if ( i->second.tail ) fprintf( outf, "consumed = %u; return 0x%x;\n", prev + 1, i->second.tail ); else fprintf( outf, "consumed = 1; return *in;\n" ); } indent( outf, steps + 1 ); fprintf( outf, "}\n" ); indent( outf, steps ); fprintf( outf, "}\n" ); } int main() { // Case folding { FILE * inf = fopen( "CaseFolding.txt", "r" ); if ( !inf ) { fprintf( stderr, "Failed to open CaseFolding.txt\n" ); return 1; } char buf[ 4096 ]; map< wchar_t, wstring > foldTable; map< wchar_t, wchar_t > simpleFoldTable; while( fgets( buf, sizeof( buf ), inf ) ) { if ( *buf == '#' ) continue; // A comment unsigned long in, out[ 4 ]; char type; unsigned totalOut; if ( sscanf( buf, "%lx; %c; %lx %lx %lx %lx;", &in, &type, out, out + 1, out + 2, out + 3 ) == 6 ) { fprintf( stderr, "Four output chars ecountered in CaseFolding.txt, which we expected" "the file didn't have, make changes into the program.\n" ); return 1; } if ( sscanf( buf, "%lx; %c; %lx %lx %lx;", &in, &type, out, out + 1, out + 2 ) == 5 ) totalOut = 3; else if ( sscanf( buf, "%lx; %c; %lx %lx;", &in, &type, out, out + 1 ) == 4 ) totalOut = 2; else if ( sscanf( buf, "%lx; %c; %lx;", &in, &type, out ) == 3 ) totalOut = 1; else { fprintf( stderr, "Erroneous input in CaseFolding.txt: %s\n", buf ); return 1; } switch( type ) { case 'C': if ( totalOut != 1 ) { fprintf( stderr, "C-record has more than one output char in CaseFolding.txt: %s\n", buf ); return 1; } simpleFoldTable[ in ] = out[ 0 ]; // fall-through case 'F': { wstring result( totalOut, 0 ); for( unsigned x = 0; x < totalOut; ++x ) { result[ x ] = out[ x ]; } foldTable[ in ] = result; } break; case 'S': { if ( totalOut != 1 ) { fprintf( stderr, "S-record has more than one output char in CaseFolding.txt: %s\n", buf ); return 1; } simpleFoldTable[ in ] = out[ 0 ]; } break; case 'T': // Ignore special foldings break; default: fprintf( stderr, "Unknown folding type encountered: %c\n", type ); return 1; } } fclose( inf ); // Create an outfile FILE * outf = fopen( "../inc_case_folding.hh", "w" ); if ( !outf ) { fprintf( stderr, "Failed to create outfile\n" ); return 1; } fprintf( outf, "// This file was generated automatically. Do not edit directly.\n\n" ); fprintf( outf, "enum { foldCaseMaxOut = 3 };\n\n" ); fprintf( outf, "size_t foldCase( wchar in, wchar * out )\n{\n switch( in )\n {\n" ); for( map< wchar_t, wstring >::const_iterator i = foldTable.begin(); i != foldTable.end(); ++i ) { if ( i->second.size() == 1 ) fprintf( outf, " case 0x%x: *out = 0x%x; return 1;\n", i->first, i->second[ 0 ] ); else { fprintf( outf, " case 0x%x: ", i->first ); for( unsigned x = 0; x < i->second.size(); ++x ) fprintf( outf, "out[ %u ] = 0x%x; ", x, i->second[ x ] ); fprintf( outf, "return %u;\n", i->second.size() ); } } fprintf( outf, " default: *out = in; return 1;\n" ); fprintf( outf, " }\n}\n\n" ); fprintf( outf, "wchar foldCaseSimple( wchar in )\n{\n switch( in )\n {\n" ); for( map< wchar_t, wchar_t >::const_iterator i = simpleFoldTable.begin(); i != simpleFoldTable.end(); ++i ) fprintf( outf, " case 0x%x: return 0x%x;\n", i->first, i->second ); fprintf( outf, " default: return in;\n" ); fprintf( outf, " }\n}\n" ); fclose( outf ); } // Diacritic folding { FILE * inf = fopen( "DiacriticFolding.txt", "r" ); if ( !inf ) { fprintf( stderr, "Failed to open DiacriticFolding.txt\n" ); return 1; } char buf[ 4096 ]; map< wchar_t, Node > forest; while( fgets( buf, sizeof( buf ), inf ) ) { if ( *buf == '#' || *buf == '\n' ) continue; // A comment or a whiteline unsigned long in[ 4 ], out; unsigned totalIn; if ( sscanf( buf, "%lx %lx %lx %lx; %lx", in, in + 1, in + 2, in + 3, &out ) == 5 ) { fprintf( stderr, "Four input chars ecountered in DiacriticFolding.txt, which we expected" "the file didn't have, make changes into the program.\n" ); return 1; } else if ( sscanf( buf, "%lx %lx %lx; %lx", in, in + 1, in + 2, &out ) == 4 ) totalIn = 3; else if ( sscanf( buf, "%lx %lx; %lx", in, in + 1, &out ) == 3 ) totalIn = 2; else if ( sscanf( buf, "%lx; %lx", in, &out ) == 2 ) totalIn = 1; else { fprintf( stderr, "Erroneous input in DiacriticFolding.txt: %s\n", buf ); return 1; } map< wchar_t, Node > * cur = &forest; for( unsigned x = 0; x < totalIn - 1; ++x ) { //printf( "%x ", in[ x ] ); cur = &( (*cur)[ in[ x ] ].nodes ); } //printf( "%x\n", in[ totalIn - 1 ] ); if ( (*cur)[ in[ totalIn - 1 ] ].tail ) { fprintf( stderr, "Ambiguity in DiacriticFolding.txt\n" ); return 1; } (*cur)[ in[ totalIn - 1 ] ].tail = out; } fclose( inf ); // Create an outfile FILE * outf = fopen( "../inc_diacritic_folding.hh", "w" ); if ( !outf ) { fprintf( stderr, "Failed to create outfile\n" ); return 1; } fprintf( outf, "// This file was generated automatically. Do not edit directly.\n\n" ); fprintf( outf, "enum { foldDiacriticMaxIn = 3 };\n\n" ); fprintf( outf, "wchar foldDiacritic( wchar const * in, size_t size, size_t & consumed )\n{\n" ); handleForest( outf, forest, 0, 1 ); fprintf( outf, " if ( size )\n" " {\n" " consumed = 1; return *in;\n" " }\n" " consumed = 0; return 0;\n" "}\n" ); fclose( outf ); } return 0; }