[Git][freetype/freetype][master] 2 commits: [base] Reintroduce `FT_SqrtFixed`.

[Alexei Podtelezhnikov (@apodtele)]

Alexei Podtelezhnikov pushed to branch master at FreeType / FreeType

Commits:

• 95b0fe2a
  by Alexei Podtelezhnikov at 2023-09-19T22:26:32-04:00

  [base] Reintroduce `FT_SqrtFixed`.
  
  The general square root calculations are not necessary in FreeType.
  For vector normalization or length, FreeType uses special functions.
  It is, however, required in the legacy CFF specifications.
  
  * src/base/ftcalc.c (FT_SqrtFixed): New function that uses either
  Babylonian or bit-wise algorithm, whichever is faster for the given
  situation.
  * include/freetype/internal/ftcalc.h (FT_SqrtFixed): Declare it.
  

• c4073d82
  by Alexei Podtelezhnikov at 2023-09-19T22:29:14-04:00

  [psaux] Use `FT_SqrtFixed`.
  
  * src/psaux/cffdecode.c <cff_op_sqrt>: Call `FT_SqrtFixed`.
  * src/psaux/psintrp.c <cf2_escSQRT>: Ditto.
  

4 changed files:

• include/freetype/internal/ftcalc.h
• src/base/ftcalc.c
• src/psaux/cffdecode.c
• src/psaux/psintrp.c

Changes:

include/freetype/internal/ftcalc.h

---

...	...	@@ -489,8 +489,6 @@ FT_BEGIN_HEADER
489	489	FT_Fixed y );
490	490
491	491
492		-#if 0
493		-
494	492	/**************************************************************************
495	493	*
496	494	* @function:
...	...	@@ -507,13 +505,12 @@ FT_BEGIN_HEADER
507	505	* The result of 'sqrt(x)'.
508	506	*
509	507	* @note:
510		- * This function is not very fast.
	508	+ * This function is slow and should be avoided. Consider `FT_Hypot` or
	509	+ * `FT_Vector_NormLen' instead.
511	510	*/
512	511	FT_BASE( FT_UInt32 )
513	512	FT_SqrtFixed( FT_UInt32 x );
514	513
515		-#endif /* 0 */
516		-
517	514
518	515	#define INT_TO_F26DOT6( x ) ( (FT_Long)(x) * 64 ) /* << 6 */
519	516	#define INT_TO_F2DOT14( x ) ( (FT_Long)(x) * 16384 ) /* << 14 */

src/base/ftcalc.c

---

...	...	@@ -913,38 +913,71 @@
913	913	}
914	914
915	915
916		-#if 0
917		-
918	916	/* documentation is in ftcalc.h */
919	917
920		- /* Algorithm and code by Christophe Meessen (1993) */
921		- /* with overflow fixed. */
922	918	FT_BASE_DEF( FT_UInt32 )
923	919	FT_SqrtFixed( FT_UInt32 v )
924	920	{
925		- FT_UInt32 r = v >> 1;
926		- FT_UInt32 q = ( v & 1 ) << 15;
927		- FT_UInt32 b = 0x20000000;
928		- FT_UInt32 t;
	921	+ if ( v == 0 )
	922	+ return 0;
929	923
	924	+#ifndef FT_INT64
930	925
931		- do
	926	+ /* Algorithm by Christophe Meessen (1993) with overflow fixed and */
	927	+ /* rounding added. Any unsigned fixed 16.16 argument is acceptable. */
	928	+ /* However, this algorithm is slower than the Babylonian method with */
	929	+ /* a good initial guess. We only use it for large 32-bit values when */
	930	+ /* 64-bit computations are not desirable. */
	931	+ else if ( v > 0x10000U )
932	932	{
933		- t = q + b;
934		- if ( r >= t )
	933	+ FT_UInt32 r = v >> 1;
	934	+ FT_UInt32 q = ( v & 1 ) << 15;
	935	+ FT_UInt32 b = 0x20000000;
	936	+ FT_UInt32 t;
	937	+
	938	+
	939	+ do
935	940	{
936		- r -= t;
937		- q = t + b; /* equivalent to q += 2*b */
	941	+ t = q + b;
	942	+ if ( r >= t )
	943	+ {
	944	+ r -= t;
	945	+ q = t + b; /* equivalent to q += 2*b */
	946	+ }
	947	+ r <<= 1;
	948	+ b >>= 1;
938	949	}
939		- r <<= 1;
940		- b >>= 1;
	950	+ while ( b > 0x10 ); /* exactly 25 cycles */
	951	+
	952	+ return ( q + 0x40 ) >> 7;
941	953	}
942		- while ( b > 0x20 );
	954	+ else
	955	+ {
	956	+ FT_UInt32 r = ( v << 16 ) - 1;
943	957
944		- return q >> 7;
945		- }
	958	+#else /* FT_INT64 */
946	959
947		-#endif /* 0 */
	960	+ else
	961	+ {
	962	+ FT_UInt64 r = ( (FT_UInt64)v << 16 ) - 1;
	963	+
	964	+#endif /* FT_INT64 */
	965	+
	966	+ FT_UInt32 q = 1 << ( ( 17 + FT_MSB( v ) ) >> 1 );
	967	+ FT_UInt32 t;
	968	+
	969	+
	970	+ /* Babylonian method with rounded-up division */
	971	+ do
	972	+ {
	973	+ t = q;
	974	+ q = ( t + (FT_UInt32)( r / t ) + 1 ) >> 1;
	975	+ }
	976	+ while ( q != t ); /* less than 6 cycles */
	977	+
	978	+ return q;
	979	+ }
	980	+ }
948	981
949	982
950	983	/* documentation is in ftcalc.h */

src/psaux/cffdecode.c

---

...	...	@@ -1753,22 +1753,9 @@
1753	1753
1754	1754	/* without upper limit the loop below might not finish */
1755	1755	if ( args[0] > 0x7FFFFFFFL )
1756		- args[0] = 0xB504F3L; /* sqrt( 32768.0 ) */
	1756	+ args[0] = 0xB504F4L; /* sqrt( 32768.0044 ) */
1757	1757	else if ( args[0] > 0 )
1758		- {
1759		- FT_Fixed root = 1 << ( ( 17 + FT_MSB( args[0] ) ) >> 1 );
1760		- FT_Fixed new_root;
1761		-
1762		-
1763		- for (;;)
1764		- {
1765		- new_root = ( root + FT_DivFix( args[0], root ) + 1 ) >> 1;
1766		- if ( new_root == root )
1767		- break;
1768		- root = new_root;
1769		- }
1770		- args[0] = new_root;
1771		- }
	1758	+ args[0] = (FT_Fixed)FT_SqrtFixed( args[0] );
1772	1759	else
1773	1760	args[0] = 0;
1774	1761	args++;

src/psaux/psintrp.c

---

...	...	@@ -2276,22 +2276,7 @@
2276	2276
2277	2277	arg = cf2_stack_popFixed( opStack );
2278	2278	if ( arg > 0 )
2279		- {
2280		- /* initial guess based on the most significant bit */
2281		- FT_Fixed root = 1 << ( ( 17 + FT_MSB( arg ) ) >> 1 );
2282		- FT_Fixed new_root;
2283		-
2284		-
2285		- /* Babylonian method */
2286		- for (;;)
2287		- {
2288		- new_root = ( root + FT_DivFix( arg, root ) + 1 ) >> 1;
2289		- if ( new_root == root )
2290		- break;
2291		- root = new_root;
2292		- }
2293		- arg = new_root;
2294		- }
	2279	+ arg = (CF2_F16Dot16)FT_SqrtFixed( arg );
2295	2280	else
2296	2281	arg = 0;
2297	2282

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