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/***************************************************************************/
/*                                                                         */
/*  ftcalc.h                                                               */
/*                                                                         */
/*    Arithmetic computations (specification).                             */
/*                                                                         */
/*  Copyright 1996-2006, 2008, 2009, 2012-2014 by                          */
/*  David Turner, Robert Wilhelm, and Werner Lemberg.                      */
/*                                                                         */
/*  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.                                        */
/*                                                                         */
/***************************************************************************/


#ifndef __FTCALC_H__
#define __FTCALC_H__


#include <ft2build.h>
#include <freetype.h>


FT_BEGIN_HEADER


  /*************************************************************************/
  /*                                                                       */
  /* FT_MulDiv() and FT_MulFix() are declared in freetype.h.               */
  /*                                                                       */
  /*************************************************************************/

#ifndef  FT_CONFIG_OPTION_NO_ASSEMBLER
  /* Provide assembler fragments for performance-critical functions. */
  /* These must be defined `static __inline__' with GCC.             */

#if defined( __CC_ARM ) || defined( __ARMCC__ )  /* RVCT */

#define FT_MULFIX_ASSEMBLER  FT_MulFix_arm

  /* documentation is in freetype.h */

  static __inline FT_Int32
  FT_MulFix_arm( FT_Int32  a,
                 FT_Int32  b )
  {
    register FT_Int32  t, t2;


    __asm
    {
      smull t2, t,  b,  a           /* (lo=t2,hi=t) = a*b */
      mov   a,  t,  asr #31         /* a   = (hi >> 31) */
      add   a,  a,  #0x8000         /* a  += 0x8000 */
      adds  t2, t2, a               /* t2 += a */
      adc   t,  t,  #0              /* t  += carry */
      mov   a,  t2, lsr #16         /* a   = t2 >> 16 */
      orr   a,  a,  t,  lsl #16     /* a  |= t << 16 */
    }
    return a;
  }

#endif /* __CC_ARM || __ARMCC__ */


#ifdef __GNUC__

#if defined( __arm__ )                                 && \
    ( !defined( __thumb__ ) || defined( __thumb2__ ) ) && \
    !( defined( __CC_ARM ) || defined( __ARMCC__ ) )

#define FT_MULFIX_ASSEMBLER  FT_MulFix_arm

  /* documentation is in freetype.h */

  static __inline__ FT_Int32
  FT_MulFix_arm( FT_Int32  a,
                 FT_Int32  b )
  {
    register FT_Int32  t, t2;


    __asm__ __volatile__ (
      "smull  %1, %2, %4, %3\n\t"       /* (lo=%1,hi=%2) = a*b */
      "mov    %0, %2, asr #31\n\t"      /* %0  = (hi >> 31) */
#if defined( __clang__ ) && defined( __thumb2__ )
      "add.w  %0, %0, #0x8000\n\t"      /* %0 += 0x8000 */
#else
      "add    %0, %0, #0x8000\n\t"      /* %0 += 0x8000 */
#endif
      "adds   %1, %1, %0\n\t"           /* %1 += %0 */
      "adc    %2, %2, #0\n\t"           /* %2 += carry */
      "mov    %0, %1, lsr #16\n\t"      /* %0  = %1 >> 16 */
      "orr    %0, %0, %2, lsl #16\n\t"  /* %0 |= %2 << 16 */
      : "=r"(a), "=&r"(t2), "=&r"(t)
      : "r"(a), "r"(b)
      : "cc" );
    return a;
  }

#endif /* __arm__                      && */
       /* ( __thumb2__ || !__thumb__ ) && */
       /* !( __CC_ARM || __ARMCC__ )      */


#if defined( __i386__ )

#define FT_MULFIX_ASSEMBLER  FT_MulFix_i386

  /* documentation is in freetype.h */

  static __inline__ FT_Int32
  FT_MulFix_i386( FT_Int32  a,
                  FT_Int32  b )
  {
    register FT_Int32  result;


    __asm__ __volatile__ (
      "imul  %%edx\n"
      "movl  %%edx, %%ecx\n"
      "sarl  $31, %%ecx\n"
      "addl  $0x8000, %%ecx\n"
      "addl  %%ecx, %%eax\n"
      "adcl  $0, %%edx\n"
      "shrl  $16, %%eax\n"
      "shll  $16, %%edx\n"
      "addl  %%edx, %%eax\n"
      : "=a"(result), "=d"(b)
      : "a"(a), "d"(b)
      : "%ecx", "cc" );
    return result;
  }

#endif /* i386 */

#endif /* __GNUC__ */


#ifdef _MSC_VER /* Visual C++ */

#ifdef _M_IX86

#define FT_MULFIX_ASSEMBLER  FT_MulFix_i386

  /* documentation is in freetype.h */

  static __inline FT_Int32
  FT_MulFix_i386( FT_Int32  a,
                  FT_Int32  b )
  {
    register FT_Int32  result;

    __asm
    {
      mov eax, a
      mov edx, b
      imul edx
      mov ecx, edx
      sar ecx, 31
      add ecx, 8000h
      add eax, ecx
      adc edx, 0
      shr eax, 16
      shl edx, 16
      add eax, edx
      mov result, eax
    }
    return result;
  }

#endif /* _M_IX86 */

#endif /* _MSC_VER */


#if defined( __GNUC__ ) && defined( __x86_64__ )

#define FT_MULFIX_ASSEMBLER  FT_MulFix_x86_64

  static __inline__ FT_Int32
  FT_MulFix_x86_64( FT_Int32  a,
                    FT_Int32  b )
  {
    /* Temporarily disable the warning that C90 doesn't support */
    /* `long long'.                                             */
#if __GNUC__ > 4 || ( __GNUC__ == 4 && __GNUC_MINOR__ >= 6 )
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wlong-long"
#endif

#if 1
    /* Technically not an assembly fragment, but GCC does a really good */
    /* job at inlining it and generating good machine code for it.      */
    long long  ret, tmp;


    ret  = (long long)a * b;
    tmp  = ret >> 63;
    ret += 0x8000 + tmp;

    return (FT_Int32)( ret >> 16 );
#else

    /* For some reason, GCC 4.6 on Ubuntu 12.04 generates invalid machine  */
    /* code from the lines below.  The main issue is that `wide_a' is not  */
    /* properly initialized by sign-extending `a'.  Instead, the generated */
    /* machine code assumes that the register that contains `a' on input   */
    /* can be used directly as a 64-bit value, which is wrong most of the  */
    /* time.                                                               */
    long long  wide_a = (long long)a;
    long long  wide_b = (long long)b;
    long long  result;


    __asm__ __volatile__ (
      "imul %2, %1\n"
      "mov %1, %0\n"
      "sar $63, %0\n"
      "lea 0x8000(%1, %0), %0\n"
      "sar $16, %0\n"
      : "=&r"(result), "=&r"(wide_a)
      : "r"(wide_b)
      : "cc" );

    return (FT_Int32)result;
#endif

#if __GNUC__ > 4 || ( __GNUC__ == 4 && __GNUC_MINOR__ >= 6 )
#pragma GCC diagnostic pop
#endif
  }

#endif /* __GNUC__ && __x86_64__ */

#endif /* !FT_CONFIG_OPTION_NO_ASSEMBLER */


#ifdef FT_CONFIG_OPTION_INLINE_MULFIX
#ifdef FT_MULFIX_ASSEMBLER
#define FT_MulFix( a, b )  FT_MULFIX_ASSEMBLER( (FT_Int32)(a), (FT_Int32)(b) )
#endif
#endif


  /*************************************************************************/
  /*                                                                       */
  /* <Function>                                                            */
  /*    FT_MulDiv_No_Round                                                 */
  /*                                                                       */
  /* <Description>                                                         */
  /*    A very simple function used to perform the computation `(a*b)/c'   */
  /*    (without rounding) with maximum accuracy (it uses a 64-bit         */
  /*    intermediate integer whenever necessary).                          */
  /*                                                                       */
  /*    This function isn't necessarily as fast as some processor specific */
  /*    operations, but is at least completely portable.                   */
  /*                                                                       */
  /* <Input>                                                               */
  /*    a :: The first multiplier.                                         */
  /*    b :: The second multiplier.                                        */
  /*    c :: The divisor.                                                  */
  /*                                                                       */
  /* <Return>                                                              */
  /*    The result of `(a*b)/c'.  This function never traps when trying to */
  /*    divide by zero; it simply returns `MaxInt' or `MinInt' depending   */
  /*    on the signs of `a' and `b'.                                       */
  /*                                                                       */
  FT_BASE( FT_Long )
  FT_MulDiv_No_Round( FT_Long  a,
                      FT_Long  b,
                      FT_Long  c );


  /*
   *  A variant of FT_Matrix_Multiply which scales its result afterwards.
   *  The idea is that both `a' and `b' are scaled by factors of 10 so that
   *  the values are as precise as possible to get a correct result during
   *  the 64bit multiplication.  Let `sa' and `sb' be the scaling factors of
   *  `a' and `b', respectively, then the scaling factor of the result is
   *  `sa*sb'.
   */
  FT_BASE( void )
  FT_Matrix_Multiply_Scaled( const FT_Matrix*  a,
                             FT_Matrix        *b,
                             FT_Long           scaling );


  /*
   *  A variant of FT_Vector_Transform.  See comments for
   *  FT_Matrix_Multiply_Scaled.
   */
  FT_BASE( void )
  FT_Vector_Transform_Scaled( FT_Vector*        vector,
                              const FT_Matrix*  matrix,
                              FT_Long           scaling );


  /*
   *  Return -1, 0, or +1, depending on the orientation of a given corner.
   *  We use the Cartesian coordinate system, with positive vertical values
   *  going upwards.  The function returns +1 if the corner turns to the
   *  left, -1 to the right, and 0 for undecidable cases.
   */
  FT_BASE( FT_Int )
  ft_corner_orientation( FT_Pos  in_x,
                         FT_Pos  in_y,
                         FT_Pos  out_x,
                         FT_Pos  out_y );


  /*
   *  Return TRUE if a corner is flat or nearly flat.  This is equivalent to
   *  saying that the corner point is close to its neighbors, or inside an
   *  ellipse defined by the neighbor focal points to be more precise.
   */
  FT_BASE( FT_Int )
  ft_corner_is_flat( FT_Pos  in_x,
                     FT_Pos  in_y,
                     FT_Pos  out_x,
                     FT_Pos  out_y );


  /*
   *  Return the most significant bit index.
   */

#ifndef  FT_CONFIG_OPTION_NO_ASSEMBLER
#if defined( __GNUC__ )                                          && \
    ( __GNUC__ > 3 || ( __GNUC__ == 3 && __GNUC_MINOR__ >= 4 ) )

#if FT_SIZEOF_INT == 4

#define FT_MSB( x )  ( 31 - __builtin_clz( x ) )

#elif FT_SIZEOF_LONG == 4

#define FT_MSB( x )  ( 31 - __builtin_clzl( x ) )

#endif

#endif /* __GNUC__ */
#endif /* !FT_CONFIG_OPTION_NO_ASSEMBLER */

#ifndef FT_MSB

  FT_BASE( FT_Int )
  FT_MSB( FT_UInt32  z );

#endif


  /*
   *  Return sqrt(x*x+y*y), which is the same as `FT_Vector_Length' but uses
   *  two fixed-point arguments instead.
   */
  FT_BASE( FT_Fixed )
  FT_Hypot( FT_Fixed  x,
            FT_Fixed  y );


#if 0

  /*************************************************************************/
  /*                                                                       */
  /* <Function>                                                            */
  /*    FT_SqrtFixed                                                       */
  /*                                                                       */
  /* <Description>                                                         */
  /*    Computes the square root of a 16.16 fixed-point value.             */
  /*                                                                       */
  /* <Input>                                                               */
  /*    x :: The value to compute the root for.                            */
  /*                                                                       */
  /* <Return>                                                              */
  /*    The result of `sqrt(x)'.                                           */
  /*                                                                       */
  /* <Note>                                                                */
  /*    This function is not very fast.                                    */
  /*                                                                       */
  FT_BASE( FT_Int32 )
  FT_SqrtFixed( FT_Int32  x );

#endif /* 0 */


#define INT_TO_F26DOT6( x )    ( (FT_Long)(x) << 6  )
#define INT_TO_F2DOT14( x )    ( (FT_Long)(x) << 14 )
#define INT_TO_FIXED( x )      ( (FT_Long)(x) << 16 )
#define F2DOT14_TO_FIXED( x )  ( (FT_Long)(x) << 2  )
#define FLOAT_TO_FIXED( x )    ( (FT_Long)( x * 65536.0 ) )
#define FIXED_TO_INT( x )      ( FT_RoundFix( x ) >> 16 )

#define ROUND_F26DOT6( x )     ( x >= 0 ? (    ( (x) + 32 ) & -64 )     \
                                        : ( -( ( 32 - (x) ) & -64 ) ) )


FT_END_HEADER

#endif /* __FTCALC_H__ */


/* END */