gonum.org/v1/gonum@v0.14.0/internal/asm/f32/axpyinc_amd64.s (about)

     1  // Copyright ©2016 The Gonum Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  // +build !noasm,!gccgo,!safe
     6  
     7  #include "textflag.h"
     8  
     9  // func AxpyInc(alpha float32, x, y []float32, n, incX, incY, ix, iy uintptr)
    10  TEXT ·AxpyInc(SB), NOSPLIT, $0
    11  	MOVQ  n+56(FP), CX      // CX = n
    12  	CMPQ  CX, $0            // if n==0 { return }
    13  	JLE   axpyi_end
    14  	MOVQ  x_base+8(FP), SI  // SI = &x
    15  	MOVQ  y_base+32(FP), DI // DI = &y
    16  	MOVQ  ix+80(FP), R8     // R8 = ix
    17  	MOVQ  iy+88(FP), R9     // R9 = iy
    18  	LEAQ  (SI)(R8*4), SI    // SI = &(x[ix])
    19  	LEAQ  (DI)(R9*4), DI    // DI = &(y[iy])
    20  	MOVQ  DI, DX            // DX = DI   Read Pointer for y
    21  	MOVQ  incX+64(FP), R8   // R8 = incX
    22  	SHLQ  $2, R8            // R8 *= sizeof(float32)
    23  	MOVQ  incY+72(FP), R9   // R9 = incY
    24  	SHLQ  $2, R9            // R9 *= sizeof(float32)
    25  	MOVSS alpha+0(FP), X0   // X0 = alpha
    26  	MOVSS X0, X1            // X1 = X0  // for pipelining
    27  	MOVQ  CX, BX
    28  	ANDQ  $3, BX            // BX = n % 4
    29  	SHRQ  $2, CX            // CX = floor( n / 4 )
    30  	JZ    axpyi_tail_start  // if CX == 0 { goto axpyi_tail_start }
    31  
    32  axpyi_loop: // Loop unrolled 4x   do {
    33  	MOVSS (SI), X2       // X_i = x[i]
    34  	MOVSS (SI)(R8*1), X3
    35  	LEAQ  (SI)(R8*2), SI // SI = &(SI[incX*2])
    36  	MOVSS (SI), X4
    37  	MOVSS (SI)(R8*1), X5
    38  	MULSS X1, X2         // X_i *= a
    39  	MULSS X0, X3
    40  	MULSS X1, X4
    41  	MULSS X0, X5
    42  	ADDSS (DX), X2       // X_i += y[i]
    43  	ADDSS (DX)(R9*1), X3
    44  	LEAQ  (DX)(R9*2), DX // DX = &(DX[incY*2])
    45  	ADDSS (DX), X4
    46  	ADDSS (DX)(R9*1), X5
    47  	MOVSS X2, (DI)       // y[i] = X_i
    48  	MOVSS X3, (DI)(R9*1)
    49  	LEAQ  (DI)(R9*2), DI // DI = &(DI[incY*2])
    50  	MOVSS X4, (DI)
    51  	MOVSS X5, (DI)(R9*1)
    52  	LEAQ  (SI)(R8*2), SI // SI = &(SI[incX*2])  // Increment addresses
    53  	LEAQ  (DX)(R9*2), DX // DX = &(DX[incY*2])
    54  	LEAQ  (DI)(R9*2), DI // DI = &(DI[incY*2])
    55  	LOOP  axpyi_loop     // } while --CX > 0
    56  	CMPQ  BX, $0         // if BX == 0 { return }
    57  	JE    axpyi_end
    58  
    59  axpyi_tail_start: // Reset loop registers
    60  	MOVQ BX, CX // Loop counter: CX = BX
    61  
    62  axpyi_tail: // do {
    63  	MOVSS (SI), X2   // X2 = x[i]
    64  	MULSS X1, X2     // X2 *= a
    65  	ADDSS (DI), X2   // X2 += y[i]
    66  	MOVSS X2, (DI)   // y[i] = X2
    67  	ADDQ  R8, SI     // SI = &(SI[incX])
    68  	ADDQ  R9, DI     // DI = &(DI[incY])
    69  	LOOP  axpyi_tail // } while --CX > 0
    70  
    71  axpyi_end:
    72  	RET
    73