ref: cb4a943bc4d24d48eeb5d1515c5acd880c4a82ab
dir: /src/tools/apinames.c/
/* * This little program is used to parse the FreeType headers and * find the declaration of all public APIs. This is easy, because * they all look like the following: * * FT_EXPORT( return_type ) * function_name( function arguments ); * * You must pass the list of header files as arguments. Wildcards are * accepted if you are using GCC for compilation (and probably by * other compilers too). * * Author: FreeType team, 2005-2019 * * This code is explicitly placed into the public domain. * */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <ctype.h> #define PROGRAM_NAME "apinames" #define PROGRAM_VERSION "0.3" #define LINEBUFF_SIZE 1024 typedef enum OutputFormat_ { OUTPUT_LIST = 0, /* output the list of names, one per line */ OUTPUT_WINDOWS_DEF, /* output a Windows .DEF file for Visual C++ or Mingw */ OUTPUT_BORLAND_DEF, /* output a Windows .DEF file for Borland C++ */ OUTPUT_WATCOM_LBC, /* output a Watcom Linker Command File */ OUTPUT_NETWARE_IMP, /* output a NetWare ImportFile */ OUTPUT_GNU_VERMAP /* output a version map for GNU or Solaris linker */ } OutputFormat; static void panic( const char* message ) { fprintf( stderr, "PANIC: %s\n", message ); exit(2); } typedef struct NameRec_ { char* name; unsigned int hash; } NameRec, *Name; static Name the_names; static int num_names; static int max_names; static void names_add( const char* name, const char* end ) { unsigned int h; int nn, len; Name nm; if ( end <= name ) return; /* compute hash value */ len = (int)( end - name ); h = 0; for ( nn = 0; nn < len; nn++ ) h = h * 33 + name[nn]; /* check for an pre-existing name */ for ( nn = 0; nn < num_names; nn++ ) { nm = the_names + nn; if ( (int)nm->hash == h && memcmp( name, nm->name, len ) == 0 && nm->name[len] == 0 ) return; } /* add new name */ if ( num_names >= max_names ) { max_names += ( max_names >> 1 ) + 4; the_names = (NameRec*)realloc( the_names, sizeof ( the_names[0] ) * max_names ); if ( !the_names ) panic( "not enough memory" ); } nm = &the_names[num_names++]; nm->hash = h; nm->name = (char*)malloc( len + 1 ); if ( !nm->name ) panic( "not enough memory" ); memcpy( nm->name, name, len ); nm->name[len] = 0; } static int name_compare( const void* name1, const void* name2 ) { Name n1 = (Name)name1; Name n2 = (Name)name2; return strcmp( n1->name, n2->name ); } static void names_sort( void ) { qsort( the_names, (size_t)num_names, sizeof ( the_names[0] ), name_compare ); } static void names_dump( FILE* out, OutputFormat format, const char* dll_name ) { int nn; switch ( format ) { case OUTPUT_WINDOWS_DEF: if ( dll_name ) fprintf( out, "LIBRARY %s\n", dll_name ); fprintf( out, "DESCRIPTION FreeType 2 DLL\n" ); fprintf( out, "EXPORTS\n" ); for ( nn = 0; nn < num_names; nn++ ) fprintf( out, " %s\n", the_names[nn].name ); break; case OUTPUT_BORLAND_DEF: if ( dll_name ) fprintf( out, "LIBRARY %s\n", dll_name ); fprintf( out, "DESCRIPTION FreeType 2 DLL\n" ); fprintf( out, "EXPORTS\n" ); for ( nn = 0; nn < num_names; nn++ ) fprintf( out, " _%s\n", the_names[nn].name ); break; case OUTPUT_WATCOM_LBC: { const char* dot; char temp[512]; if ( !dll_name ) { fprintf( stderr, "you must provide a DLL name with the -d option!\n" ); exit( 4 ); } /* we must omit the `.dll' suffix from the library name */ dot = strchr( dll_name, '.' ); if ( dot ) { int len = dot - dll_name; if ( len > (int)( sizeof ( temp ) - 1 ) ) len = sizeof ( temp ) - 1; memcpy( temp, dll_name, len ); temp[len] = 0; dll_name = (const char*)temp; } for ( nn = 0; nn < num_names; nn++ ) fprintf( out, "++_%s.%s.%s\n", the_names[nn].name, dll_name, the_names[nn].name ); } break; case OUTPUT_NETWARE_IMP: if ( dll_name ) fprintf( out, " (%s)\n", dll_name ); for ( nn = 0; nn < num_names - 1; nn++ ) fprintf( out, " %s,\n", the_names[nn].name ); fprintf( out, " %s\n", the_names[num_names - 1].name ); break; case OUTPUT_GNU_VERMAP: fprintf( out, "{\n\tglobal:\n" ); for ( nn = 0; nn < num_names; nn++ ) fprintf( out, "\t\t%s;\n", the_names[nn].name ); fprintf( out, "\tlocal:\n\t\t*;\n};\n" ); break; default: /* LIST */ for ( nn = 0; nn < num_names; nn++ ) fprintf( out, "%s\n", the_names[nn].name ); break; } } /* states of the line parser */ typedef enum State_ { STATE_START = 0, /* waiting for FT_EXPORT keyword and return type */ STATE_TYPE /* type was read, waiting for function name */ } State; static int read_header_file( FILE* file, int verbose ) { static char buff[LINEBUFF_SIZE + 1]; State state = STATE_START; while ( !feof( file ) ) { char* p; if ( !fgets( buff, LINEBUFF_SIZE, file ) ) break; p = buff; /* skip leading whitespace */ while ( *p && ( *p == ' ' || *p == '\\' ) ) p++; /* skip empty lines */ if ( *p == '\n' || *p == '\r' ) continue; switch ( state ) { case STATE_START: if ( memcmp( p, "FT_EXPORT(", 10 ) != 0 ) break; p += 10; for (;;) { if ( *p == 0 || *p == '\n' || *p == '\r' ) goto NextLine; if ( *p == ')' ) { p++; break; } p++; } state = STATE_TYPE; /* * Sometimes, the name is just after `FT_EXPORT(...)', so skip * whitespace and fall-through if we find an alphanumeric character. */ while ( *p == ' ' || *p == '\t' ) p++; if ( !isalpha( *p ) ) break; /* fall-through */ case STATE_TYPE: { char* name = p; while ( isalnum( *p ) || *p == '_' ) p++; if ( p > name ) { if ( verbose ) fprintf( stderr, ">>> %.*s\n", (int)( p - name ), name ); names_add( name, p ); } state = STATE_START; } break; default: ; } NextLine: ; } /* end of while loop */ return 0; } static void usage( void ) { static const char* const format = "%s %s: extract FreeType API names from header files\n" "\n" "This program extracts the list of public FreeType API functions.\n" "It receives a list of header files as an argument and\n" "generates a sorted list of unique identifiers in various formats.\n" "\n" "usage: %s header1 [options] [header2 ...]\n" "\n" "options: - parse the contents of stdin, ignore arguments\n" " -v verbose mode, output sent to standard error\n" " -oFILE write output to FILE instead of standard output\n" " -dNAME indicate DLL file name, 'freetype.dll' by default\n" " -w output .DEF file for Visual C++ and Mingw\n" " -wB output .DEF file for Borland C++\n" " -wW output Watcom Linker Response File\n" " -wN output NetWare Import File\n" " -wL output version map for GNU or Solaris linker\n" "\n"; fprintf( stderr, format, PROGRAM_NAME, PROGRAM_VERSION, PROGRAM_NAME ); exit( 1 ); } int main( int argc, const char* const* argv ) { int from_stdin = 0; int verbose = 0; OutputFormat format = OUTPUT_LIST; /* the default */ FILE* out = stdout; const char* library_name = NULL; if ( argc < 2 ) usage(); /* `-' used as a single argument means read source file from stdin */ while ( argc > 1 && argv[1][0] == '-' ) { const char* arg = argv[1]; switch ( arg[1] ) { case 'v': verbose = 1; break; case 'o': if ( arg[2] == 0 ) { if ( argc < 2 ) usage(); arg = argv[2]; argv++; argc--; } else arg += 2; out = fopen( arg, "wt" ); if ( !out ) { fprintf( stderr, "could not open '%s' for writing\n", arg ); exit( 3 ); } break; case 'd': if ( arg[2] == 0 ) { if ( argc < 2 ) usage(); arg = argv[2]; argv++; argc--; } else arg += 2; library_name = arg; break; case 'w': format = OUTPUT_WINDOWS_DEF; switch ( arg[2] ) { case 'B': format = OUTPUT_BORLAND_DEF; break; case 'W': format = OUTPUT_WATCOM_LBC; break; case 'N': format = OUTPUT_NETWARE_IMP; break; case 'L': format = OUTPUT_GNU_VERMAP; break; case 0: break; default: usage(); } break; case 0: from_stdin = 1; break; default: usage(); } argc--; argv++; } /* end of while loop */ if ( from_stdin ) read_header_file( stdin, verbose ); else { for ( --argc, argv++; argc > 0; argc--, argv++ ) { FILE* file = fopen( argv[0], "rb" ); if ( !file ) fprintf( stderr, "unable to open '%s'\n", argv[0] ); else { if ( verbose ) fprintf( stderr, "opening '%s'\n", argv[0] ); read_header_file( file, verbose ); fclose( file ); } } } if ( num_names == 0 ) panic( "could not find exported functions\n" ); names_sort(); names_dump( out, format, library_name ); if ( out != stdout ) fclose( out ); return 0; } /* END */