#ifndef _SIMD_H_
#define _SIMD_H_

#include "simd_common.h"

#pragma warning(push)
#pragma warning(disable:4799)
#pragma warning(disable:4309)
#pragma warning(disable:4700)

#define MMX_INSTRUCTION(instruction,function) \
 static __forceinline void instruction(__m64 &dst,const __m64   &src) {dst=function(dst,          src);} \
 static __forceinline void instruction(__m64 &dst,const void    *src) {dst=function(dst,*(__m64*) src);} \
 static __forceinline void instruction(__m64 &dst,const __int64 &src) {dst=function(dst,*(__m64*)&src);}

#define SSE2I_INSTRUCTION(instruction,function) \
 static __forceinline void instruction(__m128i &dst,const __m128i &src) {dst=function(dst,           src);} \
 static __forceinline void instruction(__m128i &dst,const void    *src) {dst=function(dst,*(__m128i*)src);}

#include "simd_instructions.h"

#undef MMX_INSTRUCTION
#undef SSE2I_INSTRUCTION

static __forceinline void movq(__m64 &dst,const __m64 &src) {dst=src;}
static __forceinline void movq(__m64 &dst,const void *src) {dst=*(__m64*)src;}
static __forceinline void movq(__m64 &dst,const __int64 &src) {dst=*(__m64*)&src;}
static __forceinline void movq(void *dst,const __m64 &src) {*(__m64*)dst=src;}
static __forceinline void movntq(void *dst,const __m64 &src) {_mm_stream_pi((__m64*)dst,src);}

static __forceinline void movdqu(__m64 &dst,const void *src) {dst=*(__m64*)src;}

static __forceinline void movd(__m64 &dst,int src) {dst=_mm_cvtsi32_si64(src);}
static __forceinline void movd(int &dst,const __m64 &src) {dst=_mm_cvtsi64_si32(src);}
static __forceinline void movd(__m64 &dst,const void *src) {dst=_mm_cvtsi32_si64(*(const int*)src);}
static __forceinline void movd(void *dst,const __m64 &src) {*(int*)dst=_mm_cvtsi64_si32(src);}

static __forceinline void psllq(__m64 &dst,int i) {dst=_mm_slli_si64(dst,i);}
static __forceinline void pslld(__m64 &dst,int i) {dst=_mm_slli_pi32(dst,i);}
static __forceinline void psllw(__m64 &dst,int i) {dst=_mm_slli_pi16(dst,i);}
static __forceinline void psrlq(__m64 &dst,int i) {dst=_mm_srli_si64(dst,i);}
static __forceinline void psrld(__m64 &dst,int i) {dst=_mm_srli_pi32(dst,i);}
static __forceinline void psrlw(__m64 &dst,int i) {dst=_mm_srli_pi16(dst,i);}
static __forceinline void psraw(__m64 &dst,int i) {dst=_mm_srai_pi16(dst,i);}
static __forceinline void psraw(__m64 &dst,const __m64 &src) {dst=_mm_sra_pi16(dst,src);}
static __forceinline void psrad(__m64 &dst,int i) {dst=_mm_srai_pi32(dst,i);}

static __forceinline void prefetcht0(const void *a) {_mm_prefetch((char*)a,_MM_HINT_T0);}

static __forceinline void movaps(__m128 &dst,const __m128 &src) {dst=src;}
static __forceinline void movaps(void *dst,const __m128 &src) {*(__m128*)dst=src;}
static __forceinline void movups(__m128 &dst,const void *src) {dst=_mm_loadu_ps((float*)src);}
static __forceinline void movups(void *dst,const __m128 &src) {_mm_storeu_ps((float*)dst,src);}
static __forceinline void movss(__m128 &dst,const void *src) {dst=_mm_load_ss((float*)src);}
static __forceinline void movss(void *dst,const __m128 &src) {_mm_store_ss((float*)dst,src);}
static __forceinline void movhlps(__m128 &dst,const __m128 &src) {dst=_mm_movehl_ps(dst,src);}
static __forceinline void movlhps(__m128 &dst,const __m128 &src) {dst=_mm_movelh_ps(dst,src);}
static __forceinline void movlps(__m128 &dst,const void *src) {dst=_mm_loadl_pi(dst,(const __m64*)src);}
static __forceinline void movlps(void *dst,const __m128 &src) {_mm_storel_pi((__m64*)dst,src);}
static __forceinline void movhps(__m128 &dst,const void *src) {dst=_mm_loadh_pi(dst,(const __m64*)src);}
static __forceinline void movhps(void *dst,const __m128 &src) {_mm_storeh_pi((__m64*)dst,src);}

static __forceinline void xorps(__m128 &dst,const __m128 &src) {dst=_mm_xor_ps(dst,src);}
static __forceinline void addps(__m128 &dst,const __m128 &src) {dst=_mm_add_ps(dst,src);}
static __forceinline void addss(__m128 &dst,const __m128 &src) {dst=_mm_add_ss(dst,src);}
static __forceinline void mulps(__m128 &dst,const __m128 &src) {dst=_mm_mul_ps(dst,src);}
static __forceinline void mulss(__m128 &dst,const __m128 &src) {dst=_mm_mul_ss(dst,src);}
static __forceinline void minps(__m128 &dst,const __m128 &src) {dst=_mm_min_ps(dst,src);}
static __forceinline void cvtps2pi(__m64 &dst,const __m128 &src) {dst=_mm_cvtps_pi32(src);}
static __forceinline void cmpnltps(__m128 &dst,const __m128 &src) {dst=_mm_cmpnlt_ps(dst,src);}
static __forceinline void cvtpi2ps(__m128 &dst,const __m64 &src) {dst=_mm_cvtpi32_ps(dst,src);}

static __forceinline void movq(__m128i &dst,const __m128i &src) {dst=src;}
static __forceinline void movq(__m128i &dst,const void *src) {dst=*(__m128i*)src;}
static __forceinline void movq(const void *dst,__m128i &src) {*(__m128i*)dst=src;}
static __forceinline void movd(__m128i &dst,const void *src) {dst=_mm_loadl_epi64((__m128i*)src);}
static __forceinline void movd(void *dst,const __m128i &src) {_mm_storel_epi64((__m128i*)dst,src);}

static __forceinline void movdqu(__m128i &dst,const void *src) {dst=_mm_loadu_si128((__m128i*)src);}
static __forceinline void movdqu(__m128i &dst,const __m128i &src) {dst=_mm_loadu_si128(&src);}
static __forceinline void movdqa(__m128i &dst,const __m128i &src) {dst=src;}
static __forceinline void movdqa(__m128i &dst,const void * src) {dst=_mm_load_si128((__m128i*)src);}
static __forceinline void movdqa(void *dst,const __m128i &src) {_mm_store_si128((__m128i*)dst,src);}
static __forceinline void movntdq(void *dst,const __m128i &src) {_mm_stream_si128((__m128i*)dst,src);}
static __forceinline void movdq2q(__m64 &dst,const __m128i &src) {dst=_mm_movepi64_pi64(src);}

static __forceinline void psrlw(__m128i &dst,int i) {dst=_mm_srli_epi16(dst,i);}
static __forceinline void psrlq(__m128i &dst,int i) {dst=_mm_srli_epi64(dst,i);}
static __forceinline void psrad(__m128i &dst,int i) {dst=_mm_srai_epi32(dst,i);}
static __forceinline void psraw(__m128i &dst,int i) {dst=_mm_srai_epi16(dst,i);}
static __forceinline void psraw(__m128i &dst,const __m128i &src) {dst=_mm_sra_epi16(dst,src);}
static __forceinline void psllw(__m128i &dst,int i) {dst=_mm_slli_epi16(dst,i);}
static __forceinline void pslld(__m128i &dst,int i) {dst=_mm_slli_epi32(dst,i);}
static __forceinline void psllq(__m128i &dst,int i) {dst=_mm_slli_epi64(dst,i);}

//static __forceinline void pshufd(__m128i &dst,const __m128i &src,const int i) {dst=_mm_shuffle_epi32(src,i);}
//static __forceinline void pshuflw(__m128i &dst,const __m128i &src,const int i) {dst=_mm_shufflelo_epi16(src,i);}
//static __forceinline void pshufhw(__m128i &dst,const __m128i &src,const int i) {dst=_mm_shufflehi_epi16(src,i);}

static __forceinline void cvtps2dq(__m128i &dst,const __m128 &src) {dst=_mm_cvtps_epi32(src);}
static __forceinline void cvtdq2ps(__m128 &dst,const __m128i &src) {dst=_mm_cvtepi32_ps(src);}

static __forceinline void movlpd(__m128d &dst,const void *src) {dst=_mm_loadl_pd(dst,(double*)src);}
static __forceinline void movhpd(__m128d &dst,const void *src) {dst=_mm_loadh_pd(dst,(double*)src);}
static __forceinline void movlpd(void *dst,const __m128d &src) {_mm_storel_pd((double*)dst,src);}
static __forceinline void movhpd(void *dst,const __m128d &src) {_mm_storeh_pd((double*)dst,src);}

#if defined(__INTEL_COMPILER) || (defined(__GNUC__) && __GNUC__>=4)
 static __forceinline void movlpd(__m128i &dst,const void *src) {dst=_mm_castpd_si128(_mm_loadl_pd(_mm_castsi128_pd(dst),(double*)src));}
 static __forceinline void movhpd(__m128i &dst,const void *src) {dst=_mm_castpd_si128(_mm_loadh_pd(_mm_castsi128_pd(dst),(double*)src));}
 static __forceinline void movlpd(void *dst,const __m128i &src) {_mm_storel_pd((double*)dst,_mm_castsi128_pd(src));}
 static __forceinline void movhpd(void *dst,const __m128i &src) {_mm_storeh_pd((double*)dst,_mm_castsi128_pd(src));}

 static __forceinline void movlps(__m128i &dst,const void *src) {dst=_mm_castps_si128(_mm_loadl_pi(_mm_castsi128_ps(dst),(const __m64*)src));}
 static __forceinline void movlps(void *dst,const __m128i &src) {_mm_storel_pi((__m64*)dst,_mm_castsi128_ps(src));}
 static __forceinline void movhps(__m128i &dst,const void *src) {dst=_mm_castps_si128(_mm_loadh_pi(_mm_castsi128_ps(dst),(const __m64*)src));}
 static __forceinline void movhps(void *dst,const __m128i &src) {_mm_storeh_pi((__m64*)dst,_mm_castsi128_ps(src));}

 static __forceinline void movlhps(__m128i &dst,const __m128i &src) {dst=_mm_castps_si128(_mm_movelh_ps(_mm_castsi128_ps(dst),_mm_castsi128_ps(src)));}
#else
 static __forceinline __m128i _mm_castps_si128(__m128 &src) {return (__m128i&)src;}
 static __forceinline void movlpd(__m128i &dst,const void *src) {(__m128d&)dst=_mm_loadl_pd((__m128d&)dst,(double*)src);}
 static __forceinline void movhpd(__m128i &dst,const void *src) {(__m128d&)dst=_mm_loadh_pd((__m128d&)dst,(double*)src);}
 static __forceinline void movlpd(void *dst,const __m128i &src) {_mm_storel_pd((double*)dst,(const __m128d&)src);}
 static __forceinline void movhpd(void *dst,const __m128i &src) {_mm_storeh_pd((double*)dst,(const __m128d&)src);}

 static __forceinline void movlps(__m128i &dst,const void *src) {(__m128&)dst=_mm_loadl_pi((__m128&)dst,(const __m64*)src);}
 static __forceinline void movlps(void *dst,const __m128i &src) {_mm_storel_pi((__m64*)dst,(const __m128&)src);}
 static __forceinline void movhps(__m128i &dst,const void *src) {(__m128&)dst=_mm_loadh_pi((__m128&)dst,(const __m64*)src);}
 static __forceinline void movhps(void *dst,const __m128i &src) {_mm_storeh_pi((__m64*)dst,(const __m128&)src);}

 static __forceinline void movlhps(__m128i &dst,const __m128i &src) {(__m128&)dst=_mm_movelh_ps((__m128&)dst,(const __m128&)src);}
#endif

//======================================= MMX ======================================
#define MMX_INSTRUCTIONS \
 static __forceinline __m setzero_si64(void) {return _mm_setzero_si64();} \
 static __forceinline __m set_pi8(char b7,char b6,char b5,char b4,char b3,char b2,char b1,char b0) {return _mm_set_pi8(b7,b6,b5,b4,b3,b2,b1,b0);} \
 static __forceinline __m set_pi32(int i1,int i0) {return _mm_set_pi32(i1,i0);} \
 static __forceinline __m set1_pi8(char b) {return _mm_set1_pi8(b);} \
 static __forceinline __m set1_pi16(short s) {return _mm_set1_pi16(s);} \
 static __forceinline __m set1_pi64(int64_t s) {return *(__m64*)&s;} \
 static __forceinline __m packs_pu16(const __m &m1,const __m &m2) {return _mm_packs_pu16(m1,m2);} \
 static __forceinline __m slli_pi16(const __m &m,int count) {return _mm_slli_pi16(m,count);} \
 static __forceinline __m srli_pi16(const __m &m,int count) {return _mm_srli_pi16(m,count);} \
 static __forceinline __m srli_si64(const __m &m,int count) {return _mm_srli_si64(m,count);} \
 static __forceinline __m srai_pi16(const __m &m,int count) {return _mm_srai_pi16(m,count);} \
 static __forceinline __m madd_pi16(const __m &m1,const __m &m2) {return _mm_madd_pi16(m1,m2);} \
 static __forceinline __m add_pi16(const __m &m1,const __m &m2) {return _mm_add_pi16(m1,m2);} \
 static __forceinline __m adds_pi16(const __m &m1,const __m &m2) {return _mm_adds_pi16(m1,m2);} \
 static __forceinline __m adds_pu16(const __m &m1,const __m &m2) {return _mm_adds_pu16(m1,m2);} \
 static __forceinline __m adds_pu8(const __m &m1,const __m &m2) {return _mm_adds_pu8(m1,m2);} \
 static __forceinline __m sub_pi16(const __m &m1,const __m &m2) {return _mm_sub_pi16(m1,m2);} \
 static __forceinline __m subs_pi16(const __m &m1,const __m &m2) {return _mm_subs_pi16(m1,m2);} \
 static __forceinline __m subs_pu16(const __m &m1,const __m &m2) {return _mm_subs_pu16(m1,m2);} \
 static __forceinline __m subs_pu8(const __m &m1,const __m &m2) {return _mm_subs_pu8(m1,m2);} \
 static __forceinline __m or_si64(const __m &m1,const __m &m2) {return _mm_or_si64(m1,m2);} \
 static __forceinline __m xor_si64(const __m &m1,const __m &m2) {return _mm_xor_si64(m1,m2);} \
 static __forceinline __m and_si64(const __m &m1,const __m &m2) {return _mm_and_si64(m1,m2);} \
 static __forceinline __m andnot_si64(const __m &m1,const __m &m2) {return _mm_andnot_si64(m1,m2);} \
 static __forceinline __m mullo_pi16(const __m &m1,const __m &m2) {return _mm_mullo_pi16(m1,m2);} \
 static __forceinline __m mulhi_pi16(const __m &m1,const __m &m2) {return _mm_mulhi_pi16(m1,m2);} \
 static __forceinline __m unpacklo_pi8(const __m &m1,const __m &m2) {return _mm_unpacklo_pi8(m1,m2);} \
 static __forceinline __m unpackhi_pi8(const __m &m1,const __m &m2) {return _mm_unpackhi_pi8(m1,m2);} \
 static __forceinline __m cmpgt_pi16(const __m &m1,const __m &m2) {return _mm_cmpgt_pi16(m1,m2);} \
 static __forceinline __m cmpeq_pi16(const __m &m1,const __m &m2) {return _mm_cmpeq_pi16(m1,m2);} \
 static __forceinline __m cmpeq_pi8(const __m &m1,const __m &m2) {return _mm_cmpeq_pi8(m1,m2);} \
 static __forceinline __m shuffle_pi16_0(__m64 mm3) {return _mm_shuffle_pi16_0(mm3);} \
 static __forceinline void store2(void *ptr,const __m &m) {*(int2*)ptr=_mm_cvtsi64_si32(m);} \
 static __forceinline __m load2(const void *ptr) {return _mm_cvtsi32_si64(*(int2*)ptr);} \
 static __forceinline void storeU(void *ptr,const __m &m) {*(__m*)ptr=m;} \
 static __forceinline __m loadU(const void *ptr) {return *(__m*)ptr;} \
 static __forceinline void empty(void) {_mm_empty();}

struct Tmmx
{
 typedef __m64 __m;
 typedef int32_t int2;
 typedef int32_t integer2_t;
 static const size_t size=sizeof(__m);
 static const int align=0;
 typedef Tmmx T64;

 static __forceinline void pmaxub(__m64 &mmr1,const __m64 &mmr2)
  {
   mmr1=_mm_subs_pu8(mmr1,mmr2);
   mmr1=_mm_adds_pu8(mmr1,mmr2);
  }
 static __forceinline void pmaxub(__m64 &mmr1,const void *mmr2)
  {
   pmaxub(mmr1,*(__m64*)mmr2);
  }
 static __forceinline void pminub(__m64 &mmr1,const __m64 &mmr2)
  {
   __m64 mmrw;
   pcmpeqb (mmrw,mmrw );
   psubusb (mmrw,mmr2 );
   paddusb (mmr1, mmrw);
   psubusb (mmr1, mmrw);
  }
 static __forceinline void pminub(__m64 &mmr1,const void *mmr2)
  {
   pminub(mmr1,*(__m64*)mmr2);
  }
 static __forceinline void pmaxsw(__m64 &a,const __m64 &b)
  {
   psubusw(a,b);
   paddw(a,b);
  }
 static __forceinline void pminsw(__m64 &mm4,const __m64 &mm0)
  {
   __m64 mm2;
   movq   (mm2,mm4);
   psubusw(mm2,mm0);
   psubw  (mm4,mm2);
  }
 static __forceinline void pavgb(__m64 &rega,__m64 regb)
  {
   __m64 regr;
   static const __int64 regfe=0xfefefefefefefefeULL;//_mm_set1_pi8(/*0xfe*/-2);
   movq    (regr,rega);
   por     (regr,regb);
   pxor    (regb,rega);
   pand    (regb,regfe);
   psrlq   (regb,1);
   psubb   (regr,regb);
   rega=regr;
  }
 static __forceinline void pavgb(__m64 &rega,const void *regb)
  {
   pavgb(rega,*(__m64*)regb);
  }
 static __forceinline void v_pavgb(__m64 &mmr1,const __m64 &mmr2,__m64 &mmrw,const __int64 &smask)
  {
   movq( mmrw,mmr2 );
   pand( mmrw, smask );
   psrlw( mmrw,1 );
   pand( mmr1,smask );
   psrlw( mmr1,1 );
   paddusb( mmr1,mmrw );
  }
 static __forceinline void v_pavgb(__m64 &mmr1,const void *mmr2,__m64 &mmrw,const __int64 &smask)
  {
   v_pavgb(mmr1,*(__m64*)mmr2,mmrw,smask);
  }
 static __forceinline void sfence(void)
  {
  }
 static __forceinline void movntq(void *dst,const __m64 &src)
  {
   movq(dst,src);
  }
 static __forceinline void v_pminub(__m64 &mmr1,const __m64 &mmr2,__m64 &mmrw)
  {
   pcmpeqb (mmrw,mmrw );
   psubusb (mmrw,mmr2 );
   paddusb (mmr1, mmrw);
   psubusb (mmr1, mmrw);
  }
 static __forceinline void v_pminub(__m64 &mmr1,const __int64 &mmr2,__m64 &mmrw)
  {
   v_pminub(mmr1,*(const __m64*)&mmr2,mmrw);
  }
 static __forceinline void pmulhuw(__m64 &mm3,const __m64 &mm2)
  {
   __m64 mm5;
   movq   ( mm5, mm2);
   psraw  ( mm5, 15 );
   pand   ( mm5, mm3);
   pmulhw ( mm3, mm2);
   paddw  ( mm3, mm5);
  }
 static __forceinline void prefetchnta(const void*)
  {
  }
 static __forceinline void prefetcht0(const void*)
  {
  }
 static __forceinline __m64 _mm_shuffle_pi16_0(__m64 mm3)
  {
   __m64 mm2;
   static const __int64 qwLowWord=0x000000000000FFFF;
   pand    (mm3, qwLowWord);          // mm3 = same limited to low word
   movq    (mm2, mm3);              // mm2 = same
   psllq   (mm3, 16 );              // mm3 = moved to second word
   por     (mm2, mm3);              // mm2 = copied to first and second words
   movq    (mm3, mm2);              // mm3 = same
   psllq   (mm3, 32 );              // mm3 = moved to third and fourth words
   por     (mm2, mm3);              // mm2 = low word copied to all four words
   return mm2;
  }
 static __forceinline __m64 _mm_shuffle_pi16_1(const __m64 &src)
  {
   static const __int64 const1=0x00000000FFFF0000LL;
   static const __int64 const2=0x000000000000FFFFLL;
   __m64 w0=_mm_srli_si64(_mm_and_si64(src,*(__m64*)&const1),16);
   __m64 w1=_mm_and_si64(src,*(__m64*)&const2);
   return _mm_or_si64(_mm_or_si64(_mm_or_si64(_mm_slli_si64(w1,48),_mm_slli_si64(w1,32)),_mm_slli_si64(w1,16)),w0);
  }
 static __forceinline __m64 _mm_shuffle_pi16_14(const __m64 &src)
  {
   static const __int64 const1=0x000000000000FFFFLL;
   static const __int64 const2=0xffffffff00000000ULL;
   __m64 w34=_mm_and_si64(src,*(__m64*)&const1);
   __m64 w12=_mm_srli_si64(_mm_and_si64(src,*(__m64*)&const2),32);
   return _mm_or_si64(w12,_mm_or_si64(_mm_slli_si64(w34,32),_mm_slli_si64(w34,48)));
  }
 static __forceinline __m64 _mm_shuffle_pi16_x50(const __m64 &src)
  {
   static const __int64 const1=0x00000000ffff0000LL;
   static const __int64 const2=0x000000000000ffffLL;
   __m64 w3=_mm_and_si64(src,*(__m64*)&const1);
   __m64 w4=_mm_and_si64(src,*(__m64*)&const2);
   return _mm_or_si64( _mm_or_si64(_mm_slli_si64(w3,32),_mm_slli_si64(w3,16)) , _mm_or_si64(_mm_slli_si64(w4,16),w4));
  }
 static __forceinline void psadbw(__m64 &mm0,const __m64 &SourceMM)
  {
   __m64 mm1;
   movq (mm1, SourceMM);
   __m64 mm4;
   movq (mm4, mm0);
   psubusb (mm0, mm1);
   psubusb (mm1, mm4);
   por (mm0, mm1);
   __m64 mm7=_mm_setzero_si64();
   movq (mm1,mm0);
   punpcklbw (mm0,mm7);
   punpckhbw (mm1,mm7);
   paddusw (mm0,mm1);
   static const __int64 mmx_one=0x0001000100010001LL;
   pmaddwd (mm0, mmx_one);
   movq (mm7, mm0);
   psrlq (mm7, 32);
   paddd (mm0, mm7);
   static const __int64 mmx_ffff=0x00000000000fffffLL;
   pand (mm0, mmx_ffff);
  }
 static __forceinline __m64 min_pu8(const __m64 &mm1,const __m64 &mm2)
  {
   __m64 mm0=mm1;
   pminub(mm0,mm2);
   return mm0;
  }
 static __forceinline __m64 max_pu8(const __m64 &mm1,const __m64 &mm2)
  {
   __m64 mm0=mm1;
   pmaxub(mm0,mm2);
   return mm0;
  }
 static __forceinline __m64 min_pi16(const __m64 &mm1,const __m64 &mm2)
  {
   __m64 mm0=mm1;
   pminsw(mm0,mm2);
   return mm0;
  }
 static __forceinline __m64 max_pi16(const __m64 &mm1,const __m64 &mm2)
  {
   __m64 mm0=mm1;
   pmaxsw(mm0,mm2);
   return mm0;
  }
 MMX_INSTRUCTIONS
};

//===================================== MMXEXT =====================================
struct Tmmxext
{
 typedef Tmmx::__m __m;
 typedef Tmmx::int2 int2;
 static const size_t size=Tmmx::size;
 static const int align=Tmmx::align;
 typedef Tmmxext T64;

 static __forceinline void pmaxub(__m64 &mmr1,const __m64 &mmr2)
  {
   mmr1=_mm_max_pu8(mmr1,mmr2);
  }
 static __forceinline void pmaxub(__m64 &mmr1,const void *mmr2)
  {
   pmaxub(mmr1,*(__m64*)mmr2);
  }
 static __forceinline void pminub(__m64 &mmr1,const __m64 &mmr2)
  {
   mmr1=_mm_min_pu8(mmr1,mmr2);
  }
 static __forceinline void pminub(__m64 &mmr1,const void *mmr2)
  {
   pminub(mmr1,*(__m64*)mmr2);
  }
 static __forceinline void pminsw(__m64 &mmr1,const __m64 &mmr2)
  {
   mmr1=_mm_min_pi16(mmr1,mmr2);
  }
 static __forceinline void pavgb(__m64 &mmr1,const __m64 &mmr2)
  {
   mmr1=_mm_avg_pu8(mmr1,mmr2);
  }
 static __forceinline void pavgb(__m64 &mmr1,const void *mmr2)
  {
   mmr1=_mm_avg_pu8(mmr1,*(__m64*)mmr2);
  }
 static __forceinline void v_pavgb(__m64 &mmr1,const __m64 &mmr2,__m64,__int64)
  {
   mmr1=_mm_avg_pu8(mmr1,mmr2);
  }
 static __forceinline void v_pavgb(__m64 &mmr1,const void *mmr2,__m64,__int64)
  {
   mmr1=_mm_avg_pu8(mmr1,*(__m64*)mmr2);
  }
 static __forceinline void sfence(void)
  {
   _mm_sfence();
  }
 static __forceinline void movntq(void *dst,const __m64 &src)
  {
   _mm_stream_pi((__m64*)dst,src);
  }
 static __forceinline void v_pminub(__m64 &mmr1,const __m64 &mmr2,__m64)
  {
   mmr1=_mm_min_pu8(mmr1,mmr2);
  }
 static __forceinline void v_pminub(__m64 &mmr1,const __int64 &mmr2,__m64 &mmrw)
  {
   v_pminub(mmr1,*(const __m64*)&mmr2,mmrw);
  }
 static __forceinline void pmulhuw(__m64 &mmr1,const __m64 &mmr2)
  {
   mmr1=_mm_mulhi_pu16(mmr1,mmr2);
  }
 static __forceinline void prefetchnta(const void *ptr)
  {
   _mm_prefetch((const char*)ptr,_MM_HINT_NTA);
  }
 static __forceinline void prefetcht0(const void *ptr)
  {
   _mm_prefetch((const char*)ptr,_MM_HINT_T0);
  }
 static __forceinline __m64 _mm_shuffle_pi16_0(const __m64 &src)
  {
   return _mm_shuffle_pi16(src,0);
  }
 static __forceinline __m64 _mm_shuffle_pi16_1(const __m64 &src)
  {
   return _mm_shuffle_pi16(src,1);
  }
 static __forceinline __m64 _mm_shuffle_pi16_14(const __m64 &src)
  {
   return _mm_shuffle_pi16(src,(3 << 2) + 2);
  }
 static __forceinline __m64 _mm_shuffle_pi16_x50(const __m64 &src)
  {
   return _mm_shuffle_pi16(src,0x50);
  }
 static __forceinline void psadbw(__m64 &mm3,const __m64 &mm2)
  {
   mm3=_mm_sad_pu8(mm3,mm2);
  }
 static __forceinline __m64 min_pu8(const __m64 &mm1,const __m64 &mm2)
  {
   return _mm_min_pu8(mm1,mm2);
  }
 static __forceinline __m64 max_pu8(const __m64 &mm1,const __m64 &mm2)
  {
   return _mm_max_pu8(mm1,mm2);
  }
 static __forceinline __m64 min_pi16(const __m64 &mm1,const __m64 &mm2)
  {
   return _mm_min_pi16(mm1,mm2);
  }
 static __forceinline __m64 max_pi16(const __m64 &mm1,const __m64 &mm2)
  {
   return _mm_max_pi16(mm1,mm2);
  }
 static __forceinline void pmaxsw(__m64 &dst,const __m64 &src)
  {
   dst=_mm_max_pi16(dst,src);
  }

 MMX_INSTRUCTIONS
};

static __forceinline __m64 _mm_absdif_u8(__m64 mm1,__m64 mm2)
{
 __m64 mm7=mm1;
 mm1=_mm_subs_pu8(mm1,mm2);
 mm2=_mm_subs_pu8(mm2,mm7);
 return _mm_or_si64(mm2,mm1);
}

static __forceinline void memadd(unsigned char *dst,const unsigned char *src,unsigned int len)
{
 __m64 *dst8=(__m64*)dst;const __m64 *src8=(__m64*)src;
 for (unsigned int i=0;i<len/8;i++,src8++,dst8++)
  *dst8=_mm_adds_pu8(*src8,*dst8);
}

//====================================== SSE2 ======================================
struct Tsse2
{
 typedef __m128i __m;
 typedef __m64 int2;
 typedef int64_t integer2_t;
 static const size_t size=sizeof(__m);
 static const int align=16;
 typedef Tmmxext T64;
 static __forceinline __m setzero_si64(void) {return _mm_setzero_si128();}
 static __forceinline __m set_pi8(char b7,char b6,char b5,char b4,char b3,char b2,char b1,char b0) {return _mm_set_epi8(b7,b6,b5,b4,b3,b2,b1,b0,b7,b6,b5,b4,b3,b2,b1,b0);}
 static __forceinline __m set_pi32(int i1,int i0) {return _mm_set_epi32(i1,i0,i1,i0);}
 static __forceinline __m set1_pi8(char b) {return _mm_set1_epi8(b);}
 static __forceinline __m set1_pi16(short s) {return _mm_set1_epi16(s);}
 static __forceinline __m set1_pi64(int64_t s) {__align16(int64_t,x[])={s,s};return *(__m*)x;}//__m128i _mm_set1_epi64(*(__m64*)&s); TODO: _mm_set1_epi64x
 static __forceinline __m packs_pu16(const __m &m1,const __m &m2) {return _mm_packus_epi16(m1,m2);}
 static __forceinline __m slli_pi16(const __m &m,int count) {return _mm_slli_epi16(m,count);}
 static __forceinline __m srli_pi16(const __m &m,int count) {return _mm_srli_epi16(m,count);}
 static __forceinline __m srli_si64(const __m &m,int count) {return _mm_srli_epi64(m,count);}
 static __forceinline __m srai_pi16(const __m &m,int count) {return _mm_srai_epi16(m,count);}
 static __forceinline __m madd_pi16(const __m &m1,const __m &m2) {return _mm_madd_epi16(m1,m2);}
 static __forceinline __m add_pi16(const __m &m1,const __m &m2) {return _mm_add_epi16(m1,m2);}
 static __forceinline __m adds_pi16(const __m &m1,const __m &m2) {return _mm_adds_epi16(m1,m2);}
 static __forceinline __m adds_pu16(const __m &m1,const __m &m2) {return _mm_adds_epu16(m1,m2);}
 static __forceinline __m adds_pu8(const __m &m1,const __m &m2) {return _mm_adds_epu8(m1,m2);}
 static __forceinline __m sub_pi16(const __m &m1,const __m &m2) {return _mm_sub_epi16(m1,m2);}
 static __forceinline __m subs_pi16(const __m &m1,const __m &m2) {return _mm_subs_epi16(m1,m2);}
 static __forceinline __m subs_pu16(const __m &m1,const __m &m2) {return _mm_subs_epu16(m1,m2);}
 static __forceinline __m subs_pu8(const __m &m1,const __m &m2) {return _mm_subs_epu8(m1,m2);}
 static __forceinline __m or_si64(const __m &m1,const __m &m2) {return _mm_or_si128(m1,m2);}
 static __forceinline __m xor_si64(const __m &m1,const __m &m2) {return _mm_xor_si128(m1,m2);}
 static __forceinline __m and_si64(const __m &m1,const __m &m2) {return _mm_and_si128(m1,m2);}
 static __forceinline __m andnot_si64(const __m &m1,const __m &m2) {return _mm_andnot_si128(m1,m2);}
 static __forceinline __m mullo_pi16(const __m &m1,const __m &m2) {return _mm_mullo_epi16(m1,m2);}
 static __forceinline __m mulhi_pi16(const __m &m1,const __m &m2) {return _mm_mulhi_epi16(m1,m2);}
 static __forceinline __m unpacklo_pi8(const __m &m1,const __m &m2) {return _mm_unpacklo_epi8(m1,m2);}
 static __forceinline __m unpackhi_pi8(const __m &m1,const __m &m2) {return _mm_unpackhi_epi8(m1,m2);}
 static __forceinline __m cmpgt_pi16(const __m &m1,const __m &m2) {return _mm_cmpgt_epi16(m1,m2);}
 static __forceinline __m cmpeq_pi16(const __m &m1,const __m &m2) {return _mm_cmpeq_epi16(m1,m2);}
 static __forceinline __m cmpeq_pi8(const __m &m1,const __m &m2) {return _mm_cmpeq_epi8(m1,m2);}
 static __forceinline __m min_pi16(const __m &mm1,const __m &mm2) {return _mm_min_epi16(mm1,mm2);}
 static __forceinline __m max_pi16(const __m &mm1,const __m &mm2) {return _mm_max_epi16(mm1,mm2);}
 static __forceinline __m load2(const void *ptr) {return _mm_loadl_epi64((const __m128i*)ptr);}
 static __forceinline void store2(void *ptr,const __m &m) {_mm_storel_epi64((__m128i*)ptr,m);}
 static __forceinline void storeU(void *ptr,const __m &m) { _mm_storeu_si128((__m*)ptr,m);}
 static __forceinline __m loadU(const void *ptr) {return _mm_loadu_si128((const __m*)ptr);}
 static __forceinline void empty(void) {/*_mm_empty();*/}

 static __forceinline void psadbw(__m &mm3,const __m &mm2) {mm3=_mm_sad_epu8(mm3,mm2);}
 static __forceinline void prefetchnta(const void *ptr) {_mm_prefetch((const char*)ptr,_MM_HINT_NTA);}
 static __forceinline __m shuffle_pi16_0(const __m &mm0) {return _mm_shufflehi_epi16(_mm_shufflelo_epi16(mm0,0),0);}
 static __forceinline void pmaxub(__m &mmr1,const __m &mmr2) {mmr1=_mm_max_epu8(mmr1,mmr2);}
 static __forceinline void pmulhuw(__m &mmr1,const __m &mmr2) {mmr1=_mm_mulhi_epu16(mmr1,mmr2);}
 static __forceinline void movntq(void *dst,const __m &src) {_mm_stream_si128((__m128i*)dst,src);}
 static __forceinline void pavgb(__m &mmr1,const __m &mmr2) {mmr1=_mm_avg_epu8(mmr1,mmr2);}
 static __forceinline void pavgb(__m &mmr1,const void *mmr2) {mmr1=_mm_avg_epu8(mmr1,*(__m*)mmr2);}
 static __forceinline void sfence(void) {_mm_sfence();}
};

template<class _mm> static __forceinline typename _mm::__m abs_16(const typename _mm::__m &mm0)
{
 typename _mm::__m mm6=_mm::srai_pi16(mm0,15);
 return _mm::sub_pi16(_mm::xor_si64(mm0,mm6),mm6);
}
template<class _mm> static __forceinline typename _mm::__m absdif_s16(typename _mm::__m mm0,typename _mm::__m mm1)
{
 typename _mm::__m mm2=mm0;
 mm0=_mm::cmpgt_pi16(mm0,mm1);
 typename _mm::__m mm4=mm2;
 mm2=_mm::xor_si64(mm2,mm1);
 mm2=_mm::and_si64(mm2,mm0);
 typename _mm::__m mm3=mm2;
 mm4=_mm::xor_si64(mm4,mm2);
 mm1=_mm::xor_si64(mm1,mm3);
 return _mm::sub_pi16(mm1,mm4);
}

#pragma warning(pop)

#endif