OpenBLAS/kernel/power/zrot.c

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#if !defined(__VEC__) || !defined(__ALTIVEC__)
#include "../arm/zrot.c"
#else

#include "common.h"

static void   zrot_kernel_4(BLASLONG n, FLOAT *x, FLOAT *y, FLOAT cosA, FLOAT sinA)
{
  __vector double t0;
  __vector double t1;
  __vector double t2;
  __vector double t3;
  __vector double t4;
  __vector double t5;
  __vector double t6;
  __vector double t7;

 __asm__
    (
       XXSPLTD_S(36,%x[cos],0)   // load c to both dwords
       XXSPLTD_S(37,%x[sin],0)   // load s to both dwords 

       "lxvd2x      32,  0,     %[x_ptr] \n\t"   // load x
       "lxvd2x      33, %[i16], %[x_ptr] \n\t"
       "lxvd2x      34, %[i32], %[x_ptr] \n\t"
       "lxvd2x      35, %[i48],  %[x_ptr] \n\t" 

       "lxvd2x      48, 0,      %[y_ptr]   \n\t"   // load y
       "lxvd2x      49, %[i16], %[y_ptr] \n\t"
       "lxvd2x      50, %[i32], %[y_ptr] \n\t"
       "lxvd2x      51, %[i48], %[y_ptr] \n\t"  

       "addi        %[x_ptr], %[x_ptr], 64  \n\t"
       "addi        %[y_ptr], %[y_ptr], 64  \n\t"

       "addic.          %[temp_n], %[temp_n], -4    \n\t"
       "ble       two%=          \n\t"

       ".align  5           \n"
     "one%=:                      \n\t"

       "xvmuldp         40, 32, 36  \n\t" // c * x
       "xvmuldp         41, 33, 36  \n\t"
       "xvmuldp         42, 34, 36  \n\t"
       "xvmuldp         43, 35, 36  \n\t"

       "xvmuldp         %x[x0], 48, 36    \n\t" // c * y
       "xvmuldp         %x[x1], 49, 36    \n\t"
       "xvmuldp         %x[x2], 50, 36    \n\t"
       "xvmuldp         %x[x3], 51, 36    \n\t"

       "xvmuldp         44, 32, 37  \n\t" // s * x
       "xvmuldp         45, 33, 37  \n\t"

       "lxvd2x          32, 0,     %[x_ptr]  \n\t" // load x
       "lxvd2x          33, %[i16],%[x_ptr]  \n\t"

       "xvmuldp         46, 34, 37  \n\t"
       "xvmuldp         47, 35, 37  \n\t"

       "lxvd2x          34, %[i32], %[x_ptr] \n\t"
       "lxvd2x          35, %[i48], %[x_ptr] \n\t"

       "xvmuldp         %x[x4], 48, 37    \n\t" // s * y
       "xvmuldp         %x[x5], 49, 37    \n\t"

       "lxvd2x          48, 0,      %[y_ptr] \n\t" // load y
       "lxvd2x          49, %[i16], %[y_ptr] \n\t"

       "xvmuldp         %x[x6], 50, 37    \n\t"
       "xvmuldp         %x[x7], 51, 37    \n\t"

       "lxvd2x          50, %[i32], %[y_ptr] \n\t"
       "lxvd2x          51, %[i48], %[y_ptr] \n\t"

       "xvadddp         40, 40, %x[x4]    \n\t" // c * x + s * y
       "xvadddp         41, 41, %x[x5]    \n\t" // c * x + s * y

       "addi            %[x_ptr], %[x_ptr], -64 \n\t"
       "addi            %[y_ptr], %[y_ptr], -64 \n\t"

       "xvadddp         42, 42, %x[x6]    \n\t" // c * x + s * y
       "xvadddp         43, 43, %x[x7]    \n\t" // c * x + s * y

       "xvsubdp         %x[x0], %x[x0], 44      \n\t" // c * y - s * x
       "xvsubdp         %x[x1], %x[x1], 45      \n\t" // c * y - s * x
       "xvsubdp         %x[x2], %x[x2], 46      \n\t" // c * y - s * x
       "xvsubdp         %x[x3], %x[x3], 47      \n\t" // c * y - s * x

       "stxvd2x         40, 0,      %[x_ptr] \n\t" // store x
       "stxvd2x         41, %[i16], %[x_ptr] \n\t"
       "stxvd2x         42, %[i32], %[x_ptr] \n\t"
       "stxvd2x         43, %[i48], %[x_ptr] \n\t"

       "stxvd2x         %x[x0], 0,      %[y_ptr]   \n\t" // store y
       "stxvd2x         %x[x1], %[i16], %[y_ptr]   \n\t"
       "stxvd2x         %x[x2], %[i32], %[y_ptr]   \n\t"
       "stxvd2x         %x[x3], %[i48], %[y_ptr]   \n\t"

       "addi            %[x_ptr], %[x_ptr], 128 \n\t"
       "addi            %[y_ptr], %[y_ptr], 128 \n\t"

       "addic.          %[temp_n], %[temp_n], -4      \n\t"
       "bgt+            one%=          \n"

     "two%=:                      \n\t"

       "xvmuldp         40, 32, 36  \n\t" // c * x
       "xvmuldp         41, 33, 36  \n\t"
       "xvmuldp         42, 34, 36  \n\t"
       "xvmuldp         43, 35, 36  \n\t"

       "xvmuldp         %x[x0], 48, 36    \n\t" // c * y
       "xvmuldp         %x[x1], 49, 36    \n\t"
       "xvmuldp         %x[x2], 50, 36    \n\t"
       "xvmuldp         %x[x3], 51, 36    \n\t"

       "xvmuldp         44, 32, 37  \n\t" // s * x
       "xvmuldp         45, 33, 37  \n\t"
       "xvmuldp         46, 34, 37  \n\t"
       "xvmuldp         47, 35, 37  \n\t"

       "xvmuldp         %x[x4], 48, 37    \n\t" // s * y
       "xvmuldp         %x[x5], 49, 37    \n\t"
       "xvmuldp         %x[x6], 50, 37    \n\t"
       "xvmuldp         %x[x7], 51, 37    \n\t"

       "addi            %[x_ptr], %[x_ptr], -64 \n\t"
       "addi            %[y_ptr], %[y_ptr], -64 \n\t"

       "xvadddp         40, 40, %x[x4]    \n\t" // c * x + s * y
       "xvadddp         41, 41, %x[x5]    \n\t" // c * x + s * y
       "xvadddp         42, 42, %x[x6]    \n\t" // c * x + s * y
       "xvadddp         43, 43, %x[x7]    \n\t" // c * x + s * y

       "xvsubdp         %x[x0], %x[x0], 44      \n\t" // c * y - s * x
       "xvsubdp         %x[x1], %x[x1], 45      \n\t" // c * y - s * x
       "xvsubdp         %x[x2], %x[x2], 46      \n\t" // c * y - s * x
       "xvsubdp         %x[x3], %x[x3], 47      \n\t" // c * y - s * x

       "stxvd2x         40, 0,      %[x_ptr]   \n\t" // store x
       "stxvd2x         41, %[i16], %[x_ptr] \n\t"
       "stxvd2x         42, %[i32], %[x_ptr] \n\t"
       "stxvd2x         43, %[i48], %[x_ptr] \n\t"

       "stxvd2x         %x[x0], 0,      %[y_ptr]      \n\t" // store y
       "stxvd2x         %x[x1], %[i16], %[y_ptr]      \n\t"
       "stxvd2x         %x[x2], %[i32], %[y_ptr]      \n\t"
       "stxvd2x         %x[x3], %[i48], %[y_ptr]      \n\t"

  
     :
       [mem_x] "+m" (*(double (*)[2*n])x),
       [mem_y] "+m" (*(double (*)[2*n])y),
       [temp_n] "+&r" (n),     
       [x_ptr] "+&b"(x), [y_ptr]  "+&b"(y),
       [x0] "=wa" (t0), 
       [x1] "=wa" (t1), 
       [x2] "=wa" (t2), 
       [x3] "=wa" (t3), 
       [x4] "=wa" (t4), 
       [x5] "=wa" (t5),  
       [x6] "=wa" (t6), 
       [x7] "=wa" (t7)   
     :
       [cos] "d" (cosA),            
       [sin] "d" (sinA),            
       [i16] "b" (16),  
       [i32] "b" (32),  
       [i48] "b" (48)         
     :
       "cr0",
       "vs32","vs33","vs34","vs35","vs36","vs37",
       "vs40","vs41","vs42","vs43","vs44","vs45","vs46","vs47",
       "vs48","vs49","vs50","vs51"
     );
             
      return;

}

int CNAME(BLASLONG n, FLOAT *x, BLASLONG inc_x, FLOAT *y, BLASLONG inc_y, FLOAT c, FLOAT s)
{
    BLASLONG i=0;
    BLASLONG ix=0,iy=0;
    FLOAT temp[2];
    BLASLONG inc_x2;
    BLASLONG inc_y2;

    if ( n <= 0     )  return(0); 

    if ( (inc_x == 1) && (inc_y == 1) )
    {

        BLASLONG n1 = n & -4;
        if ( n1 > 0 )
        { 
            zrot_kernel_4(n1, x, y, c, s);
            i=n1; 
            ix=2*n1; 
        }

         while(i < n)
           {
                temp[0]   = c*x[ix]   + s*y[ix] ;
                temp[1]   = c*x[ix+1] + s*y[ix+1] ;
                y[ix]     = c*y[ix]   - s*x[ix] ;
                y[ix+1]   = c*y[ix+1] - s*x[ix+1] ;
                x[ix]     = temp[0] ;
                x[ix+1]   = temp[1] ;

                ix += 2 ; 
                i++ ;

            }

    }
    else
    {
        inc_x2 = 2 * inc_x ;
        inc_y2 = 2 * inc_y ;
        while(i < n)
        {
            temp[0]   = c*x[ix]   + s*y[iy] ;
            temp[1]   = c*x[ix+1] + s*y[iy+1] ;
            y[iy]     = c*y[iy]   - s*x[ix] ;
            y[iy+1]   = c*y[iy+1] - s*x[ix+1] ;
            x[ix]     = temp[0] ;
            x[ix+1]   = temp[1] ;

            ix += inc_x2 ;
            iy += inc_y2 ;
            i++ ;

        }

    }
    return(0);
 
}

#endif