src/sdf/ftsdfcommon.c - third_party/freetype2 - Git at Google

 /****************************************************************************
  *
  * ftsdfcommon.c
  *
  *   Auxiliary data for Signed Distance Field support (body).
  *
  * Copyright (C) 2020-2022 by
  * David Turner, Robert Wilhelm, and Werner Lemberg.
  *
  * Written by Anuj Verma.
  *
  * This file is part of the FreeType project, and may only be used,
  * modified, and distributed under the terms of the FreeType project
  * license, LICENSE.TXT.  By continuing to use, modify, or distribute
  * this file you indicate that you have read the license and
  * understand and accept it fully.
  *
  */


 #include "ftsdf.h"
 #include "ftsdfcommon.h"


   /**************************************************************************
    *
    * common functions
    *
    */

   /*
    * Original algorithm:
    *
    *   https://github.com/chmike/fpsqrt
    *
    * Use this to compute the square root of a 16.16 fixed point number.
    */
   FT_LOCAL_DEF( FT_16D16 )
   square_root( FT_16D16  val )
   {
     FT_ULong  t, q, b, r;


     r = (FT_ULong)val;
     b = 0x40000000L;
     q = 0;

     while ( b > 0x40L )
     {
       t = q + b;

       if ( r >= t )
       {
         r -= t;
         q  = t + b;
       }

       r <<= 1;
       b >>= 1;
     }

     q >>= 8;

     return (FT_16D16)q;
   }


   /**************************************************************************
    *
    * format and sign manipulating functions
    *
    */

   /*
    * Convert 16.16 fixed point values to the desired output format.
    * In this case we reduce 16.16 fixed point values to normalized
    * 8-bit values.
    *
    * The `max_value` in the parameter is the maximum value in the
    * distance field map and is equal to the spread.  We normalize
    * the distances using this value instead of computing the maximum
    * value for the entire bitmap.
    *
    * You can use this function to map the 16.16 signed values to any
    * format required.  Do note that the output buffer is 8-bit, so only
    * use an 8-bit format for `FT_SDFFormat`, or increase the buffer size in
    * `ftsdfrend.c`.
    */
   FT_LOCAL_DEF( FT_SDFFormat )
   map_fixed_to_sdf( FT_16D16  dist,
                     FT_16D16  max_value )
   {
     FT_SDFFormat  out;
     FT_16D16      udist;


     /* normalize the distance values */
     dist = FT_DivFix( dist, max_value );

     udist = dist < 0 ? -dist : dist;

     /* Reduce the distance values to 8 bits.                   */
     /*                                                         */
     /* Since +1/-1 in 16.16 takes the 16th bit, we right-shift */
     /* the number by 9 to make it fit into the 7-bit range.    */
     /*                                                         */
     /* One bit is reserved for the sign.                       */
     udist >>= 9;

     /* Since `char` can only store a maximum positive value    */
     /* of 127 we need to make sure it does not wrap around and */
     /* give a negative value.                                  */
     if ( dist > 0 && udist > 127 )
       udist = 127;
     if ( dist < 0 && udist > 128 )
       udist = 128;

     /* Output the data; negative values are from [0, 127] and positive    */
     /* from [128, 255].  One important thing is that negative values      */
     /* are inverted here, that means [0, 128] maps to [-128, 0] linearly. */
     /* More on that in `freetype.h` near the documentation of             */
     /* `FT_RENDER_MODE_SDF`.                                              */
     out = dist < 0 ? 128 - (FT_SDFFormat)udist
                    : (FT_SDFFormat)udist + 128;

     return out;
   }


   /*
    * Invert the signed distance packed into the corresponding format.
    * So if the values are negative they will become positive in the
    * chosen format.
    *
    * [Note]: This function should only be used after converting the
    *         16.16 signed distance values to `FT_SDFFormat`.  If that
    *         conversion has not been done, then simply invert the sign
    *         and use the above function to pack the values.
    */
   FT_LOCAL_DEF( FT_SDFFormat )
   invert_sign( FT_SDFFormat  dist )
   {
     return 255 - dist;
   }


 /* END */
	/****************************************************************************
	*
	* ftsdfcommon.c
	*
	* Auxiliary data for Signed Distance Field support (body).
	*
	* Copyright (C) 2020-2022 by
	* David Turner, Robert Wilhelm, and Werner Lemberg.
	*
	* Written by Anuj Verma.
	*
	* This file is part of the FreeType project, and may only be used,
	* modified, and distributed under the terms of the FreeType project
	* license, LICENSE.TXT. By continuing to use, modify, or distribute
	* this file you indicate that you have read the license and
	* understand and accept it fully.
	*
	*/


	#include "ftsdf.h"
	#include "ftsdfcommon.h"


	/**************************************************************************
	*
	* common functions
	*
	*/

	/*
	* Original algorithm:
	*
	* https://github.com/chmike/fpsqrt
	*
	* Use this to compute the square root of a 16.16 fixed point number.
	*/
	FT_LOCAL_DEF( FT_16D16 )
	square_root( FT_16D16 val )
	{
	FT_ULong t, q, b, r;


	r = (FT_ULong)val;
	b = 0x40000000L;
	q = 0;

	while ( b > 0x40L )
	{
	t = q + b;

	if ( r >= t )
	{
	r -= t;
	q = t + b;
	}

	r <<= 1;
	b >>= 1;
	}

	q >>= 8;

	return (FT_16D16)q;
	}


	/**************************************************************************
	*
	* format and sign manipulating functions
	*
	*/

	/*
	* Convert 16.16 fixed point values to the desired output format.
	* In this case we reduce 16.16 fixed point values to normalized
	* 8-bit values.
	*
	* The `max_value` in the parameter is the maximum value in the
	* distance field map and is equal to the spread. We normalize
	* the distances using this value instead of computing the maximum
	* value for the entire bitmap.
	*
	* You can use this function to map the 16.16 signed values to any
	* format required. Do note that the output buffer is 8-bit, so only
	* use an 8-bit format for `FT_SDFFormat`, or increase the buffer size in
	* `ftsdfrend.c`.
	*/
	FT_LOCAL_DEF( FT_SDFFormat )
	map_fixed_to_sdf( FT_16D16 dist,
	FT_16D16 max_value )
	{
	FT_SDFFormat out;
	FT_16D16 udist;


	/* normalize the distance values */
	dist = FT_DivFix( dist, max_value );

	udist = dist < 0 ? -dist : dist;

	/* Reduce the distance values to 8 bits. */
	/* */
	/* Since +1/-1 in 16.16 takes the 16th bit, we right-shift */
	/* the number by 9 to make it fit into the 7-bit range. */
	/* */
	/* One bit is reserved for the sign. */
	udist >>= 9;

	/* Since `char` can only store a maximum positive value */
	/* of 127 we need to make sure it does not wrap around and */
	/* give a negative value. */
	if ( dist > 0 && udist > 127 )
	udist = 127;
	if ( dist < 0 && udist > 128 )
	udist = 128;

	/* Output the data; negative values are from [0, 127] and positive */
	/* from [128, 255]. One important thing is that negative values */
	/* are inverted here, that means [0, 128] maps to [-128, 0] linearly. */
	/* More on that in `freetype.h` near the documentation of */
	/* `FT_RENDER_MODE_SDF`. */
	out = dist < 0 ? 128 - (FT_SDFFormat)udist
	: (FT_SDFFormat)udist + 128;

	return out;
	}


	/*
	* Invert the signed distance packed into the corresponding format.
	* So if the values are negative they will become positive in the
	* chosen format.
	*
	* [Note]: This function should only be used after converting the
	* 16.16 signed distance values to `FT_SDFFormat`. If that
	* conversion has not been done, then simply invert the sign
	* and use the above function to pack the values.
	*/
	FT_LOCAL_DEF( FT_SDFFormat )
	invert_sign( FT_SDFFormat dist )
	{
	return 255 - dist;
	}


	/* END */