ref: 968f0c3749d3910c312bf57fd74750d35b399e08
dir: /demos/src/memtest.c/
/* memtest.c */ #include <freetype/freetype.h> #include <freetype/internal/ftobjs.h> #include <stdio.h> #include <stdlib.h> FT_Error error; FT_Library library; FT_Face face; FT_Size size; FT_GlyphSlot slot; unsigned int num_glyphs; int ptsize; int Fail; int Num; /****************************************************************************/ /****************************************************************************/ /****************************************************************************/ /****************************************************************************/ /* Our own memory allocator. To check that a single block isn't freed */ /* several time, we simply do not call "free".. */ #define MAX_RECORDED_BLOCKS 1638400 #define CHECK_DUPLICATES typedef struct MyBlock { void* base; long size; } MyBlock; static MyBlock my_blocks[ MAX_RECORDED_BLOCKS ]; static int num_my_blocks = 0; /* record a new block in the table, check for duplicates too */ static void record_my_block( void* base, long size ) { if (size <= 0) { fprintf( stderr, "adding a block with non-positive length - should not happen \n" ); exit(1); } if ( num_my_blocks < MAX_RECORDED_BLOCKS ) { MyBlock* block; #ifdef CHECK_DUPLICATES MyBlock* limit; block = my_blocks; limit = block + num_my_blocks; for ( ; block < limit; block++ ) { if ( block->base == base && block->size != 0 ) { fprintf( stderr, "duplicate memory block at %08lx\n", (long)block->base ); exit(1); } } #endif block = my_blocks + num_my_blocks++; block->base = base; block->size = size; } else { fprintf( stderr, "Too many memory blocks -- test exited !!\n" ); exit(1); } } /* forget a block, and check that it isn't part of our table already */ static void forget_my_block( void* base ) { MyBlock* block = my_blocks + num_my_blocks-1; /* we scan in reverse, because transient blocks are always located */ /* at the end of the table.. (it supposedly faster then..) */ for ( ; block >= my_blocks; block-- ) { if ( block->base == base ) { if (block->size > 0) { block->size = 0; return; } else { fprintf( stderr, "Block at %08lx released twice \n", (long)base ); exit(1); } } } fprintf( stderr, "Trying to release an unallocated block at %08lx\n", (long)base ); exit(1); } static void* my_alloc( FT_Memory memory, long size ) { void* p = malloc(size); if (p) record_my_block(p,size); return p; } static void my_free( FT_Memory memory, void* block ) { forget_my_block(block); free(block); } static void* my_realloc( FT_Memory memory, long cur_size, long new_size, void* block ) { void* p; p = my_alloc( memory, new_size ); if (p) { my_free( memory, block ); record_my_block( p, new_size ); } return p; } struct FT_MemoryRec_ my_memory = { 0, my_alloc, my_free, my_realloc }; static void dump_mem( void ) { MyBlock* block = my_blocks + num_my_blocks-1; int bad = 0; printf( "total allocated blocks = %d\n", num_my_blocks ); /* we scan in reverse, because transient blocks are always located */ /* at the end of the table.. (it supposedly faster then..) */ for ( ; block >= my_blocks; block-- ) { if (block->size > 0) { fprintf( stderr, "%08lx (%6ld bytes) leaked !!\n", (long)block->base, (long)block->size ); bad = 1; } } if (!bad) fprintf( stderr, "no leaked memory block, congratulations ;-)" ); } /****************************************************************************/ /****************************************************************************/ /****************************************************************************/ /****************************************************************************/ static void Usage( char* name ) { printf( "memtest: simple memory tester -- part of the FreeType project\n" ); printf( "-------------------------------------------------------------\n" ); printf( "\n" ); printf( "Usage: %s ppem fontname[.ttf|.ttc] [fontname2..]\n", name ); printf( "\n" ); exit( 1 ); } static void Panic( const char* message ) { fprintf( stderr, "%s\n error code = 0x%04x\n", message, error ); exit(1); } int main( int argc, char** argv ) { int i, file_index; unsigned int id; char filename[128 + 4]; char alt_filename[128 + 4]; char* execname; char* fname; execname = argv[0]; if ( argc < 3 ) Usage( execname ); if ( sscanf( argv[1], "%d", &ptsize ) != 1 ) Usage( execname ); /* Create a new library with our own memory manager */ error = FT_New_Library( &my_memory, &library ); if (error) Panic( "Could not create library object" ); /* the new library has no drivers in it, add the default ones */ /* (implemented in ftinit.c).. */ FT_Default_Drivers(library); /* Now check all files */ for ( file_index = 2; file_index < argc; file_index++ ) { fname = argv[file_index]; i = strlen( fname ); while ( i > 0 && fname[i] != '\\' && fname[i] != '/' ) { if ( fname[i] == '.' ) i = 0; i--; } filename[128] = '\0'; alt_filename[128] = '\0'; strncpy( filename, fname, 128 ); strncpy( alt_filename, fname, 128 ); #ifndef macintosh if ( i >= 0 ) { strncpy( filename + strlen( filename ), ".ttf", 4 ); strncpy( alt_filename + strlen( alt_filename ), ".ttc", 4 ); } #endif i = strlen( filename ); fname = filename; while ( i >= 0 ) #ifndef macintosh if ( filename[i] == '/' || filename[i] == '\\' ) #else if ( filename[i] == ':' ) #endif { fname = filename + i + 1; i = -1; } else i--; printf( "%s: ", fname ); /* Load face */ error = FT_New_Face( library, filename, 0, &face ); if (error) { if (error == FT_Err_Invalid_File_Format) printf( "unknown format\n" ); else printf( "could not find/open file (error: %d)\n", error ); continue; } if (error) Panic( "Could not open file" ); num_glyphs = face->num_glyphs; error = FT_Set_Char_Size( face, ptsize << 6, ptsize << 6, 72, 72 ); if (error) Panic( "Could not set character size" ); Fail = 0; { for ( id = 0; id < num_glyphs; id++ ) { error = FT_Load_Glyph( face, id, FT_LOAD_DEFAULT ); if (error) { if ( Fail < 10 ) printf( "glyph %4u: 0x%04x\n" , id, error ); Fail++; } } } if ( Fail == 0 ) printf( "OK.\n" ); else if ( Fail == 1 ) printf( "1 fail.\n" ); else printf( "%d fails.\n", Fail ); FT_Done_Face( face ); } FT_Done_FreeType(library); dump_mem(); exit( 0 ); /* for safety reasons */ return 0; /* never reached */ }