src/tools/test_bbox.c - third_party/freetype2 - Git at Google

 #include <freetype/freetype.h>
 #include <freetype/ftbbox.h>


 #include <time.h>    /* for clock() */

 /* SunOS 4.1.* does not define CLOCKS_PER_SEC, so include <sys/param.h> */
 /* to get the HZ macro which is the equivalent.                         */
 #if defined(__sun__) && !defined(SVR4) && !defined(__SVR4)
 #include <sys/param.h>
 #define CLOCKS_PER_SEC HZ
 #endif

   static long
   get_time( void )
   {
     return clock() * 10000L / CLOCKS_PER_SEC;
   }


   /* test bbox computations */

 #define  XSCALE    65536
 #define  XX(x)     ((FT_Pos)(x*XSCALE))
 #define  XVEC(x,y)  { XX(x), XX(y) }
 #define  XVAL(x)   ((x)/(1.0*XSCALE))

   /* dummy outline #1 */
   static FT_Vector  dummy_vec_1[4] =
   {
 #if 1
     XVEC( 408.9111, 535.3164 ),
     XVEC( 455.8887, 634.396  ),
     XVEC( -37.8765, 786.2207 ),
     XVEC( 164.6074, 535.3164 )
 #else
     { (FT_Int32)0x0198E93DL , (FT_Int32)0x021750FFL },  /* 408.9111, 535.3164 */
     { (FT_Int32)0x01C7E312L , (FT_Int32)0x027A6560L },  /* 455.8887, 634.3960 */
     { (FT_Int32)0xFFDA1F9EL , (FT_Int32)0x0312387FL },  /* -37.8765, 786.2207 */
     { (FT_Int32)0x00A49B7EL , (FT_Int32)0x021750FFL }   /* 164.6074, 535.3164 */
 #endif
    };

   static char  dummy_tag_1[4] =
   {
     FT_CURVE_TAG_ON,
     FT_CURVE_TAG_CUBIC,
     FT_CURVE_TAG_CUBIC,
     FT_CURVE_TAG_ON
   };

   static short  dummy_contour_1[1] =
   {
     3
   };

   static FT_Outline  dummy_outline_1 =
   {
     1,
     4,
     dummy_vec_1,
     dummy_tag_1,
     dummy_contour_1,
     0
   };


   /* dummy outline #2 */
   static FT_Vector  dummy_vec_2[4] =
   {
     XVEC( 100.0, 100.0 ),
     XVEC( 100.0, 200.0 ),
     XVEC( 200.0, 200.0 ),
     XVEC( 200.0, 133.0 )
   };

   static FT_Outline  dummy_outline_2 =
   {
     1,
     4,
     dummy_vec_2,
     dummy_tag_1,
     dummy_contour_1,
     0
   };


   /* dummy outline #3 with bbox of [0 100 128 128] precisely */
   static FT_Vector  dummy_vec_3[4] =
   {
     XVEC( 100.0, 127.0 ),
     XVEC( 200.0, 127.0 ),
     XVEC(   0.0, 136.0 ),
     XVEC(   0.0, 100.0 )
   };

   static FT_Outline  dummy_outline_3 =
   {
     1,
     4,
     dummy_vec_3,
     dummy_tag_1,
     dummy_contour_1,
     0
   };


   static void
   dump_outline( FT_Outline*  outline )
   {
     FT_BBox  bbox;

     /* compute and display cbox */
     FT_Outline_Get_CBox( outline, &bbox );
     printf( "cbox = [%.2f %.2f %.2f %.2f]\n",
              XVAL( bbox.xMin ),
              XVAL( bbox.yMin ),
              XVAL( bbox.xMax ),
              XVAL( bbox.yMax ) );

     /* compute and display bbox */
     FT_Outline_Get_BBox( outline, &bbox );
     printf( "bbox = [%.2f %.2f %.2f %.2f]\n",
              XVAL( bbox.xMin ),
              XVAL( bbox.yMin ),
              XVAL( bbox.xMax ),
              XVAL( bbox.yMax ) );
   }


   static void
   profile_outline( FT_Outline*   outline,
                    long          repeat )
   {
     FT_BBox  bbox;
     long     count;
     long     time0;

     time0 = get_time();
     for ( count = repeat; count > 0; count-- )
       FT_Outline_Get_CBox( outline, &bbox );

     time0 = get_time() - time0;
     printf( "time = %6.3f cbox = [%8.4f %8.4f %8.4f %8.4f]\n",
              ((double)time0/10000.0),
              XVAL( bbox.xMin ),
              XVAL( bbox.yMin ),
              XVAL( bbox.xMax ),
              XVAL( bbox.yMax ) );
     printf( "cbox_hex = [%08X %08X %08X %08X]\n",
              bbox.xMin, bbox.yMin, bbox.xMax, bbox.yMax );


     time0 = get_time();
     for ( count = repeat; count > 0; count-- )
       FT_Outline_Get_BBox( outline, &bbox );

     time0 = get_time() - time0;
     printf( "time = %6.3f bbox = [%8.4f %8.4f %8.4f %8.4f]\n",
              ((double)time0/10000.0),
              XVAL( bbox.xMin ),
              XVAL( bbox.yMin ),
              XVAL( bbox.xMax ),
              XVAL( bbox.yMax ) );
     printf( "bbox_hex = [%08X %08X %08X %08X]\n",
              bbox.xMin, bbox.yMin, bbox.xMax, bbox.yMax );
   }

 #define REPEAT  1000000L

   int  main( int  argc, char**  argv )
   {
     printf( "outline #1\n" );
     profile_outline( &dummy_outline_1, REPEAT );

     printf( "outline #2\n" );
     profile_outline( &dummy_outline_2, REPEAT );

     printf( "outline #3\n" );
     profile_outline( &dummy_outline_3, REPEAT );

     return 0;
   }
	#include <freetype/freetype.h>
	#include <freetype/ftbbox.h>


	#include <time.h> /* for clock() */

	/* SunOS 4.1.* does not define CLOCKS_PER_SEC, so include <sys/param.h> */
	/* to get the HZ macro which is the equivalent. */
	#if defined(__sun__) && !defined(SVR4) && !defined(__SVR4)
	#include <sys/param.h>
	#define CLOCKS_PER_SEC HZ
	#endif

	static long
	get_time( void )
	{
	return clock() * 10000L / CLOCKS_PER_SEC;
	}




	/* test bbox computations */

	#define XSCALE 65536
	#define XX(x) ((FT_Pos)(x*XSCALE))
	#define XVEC(x,y) { XX(x), XX(y) }
	#define XVAL(x) ((x)/(1.0*XSCALE))

	/* dummy outline #1 */
	static FT_Vector dummy_vec_1[4] =
	{
	#if 1
	XVEC( 408.9111, 535.3164 ),
	XVEC( 455.8887, 634.396 ),
	XVEC( -37.8765, 786.2207 ),
	XVEC( 164.6074, 535.3164 )
	#else
	{ (FT_Int32)0x0198E93DL , (FT_Int32)0x021750FFL }, /* 408.9111, 535.3164 */
	{ (FT_Int32)0x01C7E312L , (FT_Int32)0x027A6560L }, /* 455.8887, 634.3960 */
	{ (FT_Int32)0xFFDA1F9EL , (FT_Int32)0x0312387FL }, /* -37.8765, 786.2207 */
	{ (FT_Int32)0x00A49B7EL , (FT_Int32)0x021750FFL } /* 164.6074, 535.3164 */
	#endif
	};

	static char dummy_tag_1[4] =
	{
	FT_CURVE_TAG_ON,
	FT_CURVE_TAG_CUBIC,
	FT_CURVE_TAG_CUBIC,
	FT_CURVE_TAG_ON
	};

	static short dummy_contour_1[1] =
	{
	3
	};

	static FT_Outline dummy_outline_1 =
	{
	1,
	4,
	dummy_vec_1,
	dummy_tag_1,
	dummy_contour_1,
	0
	};


	/* dummy outline #2 */
	static FT_Vector dummy_vec_2[4] =
	{
	XVEC( 100.0, 100.0 ),
	XVEC( 100.0, 200.0 ),
	XVEC( 200.0, 200.0 ),
	XVEC( 200.0, 133.0 )
	};

	static FT_Outline dummy_outline_2 =
	{
	1,
	4,
	dummy_vec_2,
	dummy_tag_1,
	dummy_contour_1,
	0
	};


	/* dummy outline #3 with bbox of [0 100 128 128] precisely */
	static FT_Vector dummy_vec_3[4] =
	{
	XVEC( 100.0, 127.0 ),
	XVEC( 200.0, 127.0 ),
	XVEC( 0.0, 136.0 ),
	XVEC( 0.0, 100.0 )
	};

	static FT_Outline dummy_outline_3 =
	{
	1,
	4,
	dummy_vec_3,
	dummy_tag_1,
	dummy_contour_1,
	0
	};


	static void
	dump_outline( FT_Outline* outline )
	{
	FT_BBox bbox;

	/* compute and display cbox */
	FT_Outline_Get_CBox( outline, &bbox );
	printf( "cbox = [%.2f %.2f %.2f %.2f]\n",
	XVAL( bbox.xMin ),
	XVAL( bbox.yMin ),
	XVAL( bbox.xMax ),
	XVAL( bbox.yMax ) );

	/* compute and display bbox */
	FT_Outline_Get_BBox( outline, &bbox );
	printf( "bbox = [%.2f %.2f %.2f %.2f]\n",
	XVAL( bbox.xMin ),
	XVAL( bbox.yMin ),
	XVAL( bbox.xMax ),
	XVAL( bbox.yMax ) );
	}



	static void
	profile_outline( FT_Outline* outline,
	long repeat )
	{
	FT_BBox bbox;
	long count;
	long time0;

	time0 = get_time();
	for ( count = repeat; count > 0; count-- )
	FT_Outline_Get_CBox( outline, &bbox );

	time0 = get_time() - time0;
	printf( "time = %6.3f cbox = [%8.4f %8.4f %8.4f %8.4f]\n",
	((double)time0/10000.0),
	XVAL( bbox.xMin ),
	XVAL( bbox.yMin ),
	XVAL( bbox.xMax ),
	XVAL( bbox.yMax ) );
	printf( "cbox_hex = [%08X %08X %08X %08X]\n",
	bbox.xMin, bbox.yMin, bbox.xMax, bbox.yMax );


	time0 = get_time();
	for ( count = repeat; count > 0; count-- )
	FT_Outline_Get_BBox( outline, &bbox );

	time0 = get_time() - time0;
	printf( "time = %6.3f bbox = [%8.4f %8.4f %8.4f %8.4f]\n",
	((double)time0/10000.0),
	XVAL( bbox.xMin ),
	XVAL( bbox.yMin ),
	XVAL( bbox.xMax ),
	XVAL( bbox.yMax ) );
	printf( "bbox_hex = [%08X %08X %08X %08X]\n",
	bbox.xMin, bbox.yMin, bbox.xMax, bbox.yMax );
	}

	#define REPEAT 1000000L

	int main( int argc, char** argv )
	{
	printf( "outline #1\n" );
	profile_outline( &dummy_outline_1, REPEAT );

	printf( "outline #2\n" );
	profile_outline( &dummy_outline_2, REPEAT );

	printf( "outline #3\n" );
	profile_outline( &dummy_outline_3, REPEAT );

	return 0;
	}