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gonum/internal/asm/c128/axpyincto_amd64.s
Dan Kortschak 72e79ca985 all: add safe synonym for appengine tag
2018-07-22 17:17:15 +09:30

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// Copyright ©2016 The Gonum Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
//+build !noasm,!appengine,!safe
#include "textflag.h"
// MOVDDUP X2, X3
#define MOVDDUP_X2_X3 BYTE $0xF2; BYTE $0x0F; BYTE $0x12; BYTE $0xDA
// MOVDDUP X4, X5
#define MOVDDUP_X4_X5 BYTE $0xF2; BYTE $0x0F; BYTE $0x12; BYTE $0xEC
// MOVDDUP X6, X7
#define MOVDDUP_X6_X7 BYTE $0xF2; BYTE $0x0F; BYTE $0x12; BYTE $0xFE
// MOVDDUP X8, X9
#define MOVDDUP_X8_X9 BYTE $0xF2; BYTE $0x45; BYTE $0x0F; BYTE $0x12; BYTE $0xC8
// ADDSUBPD X2, X3
#define ADDSUBPD_X2_X3 BYTE $0x66; BYTE $0x0F; BYTE $0xD0; BYTE $0xDA
// ADDSUBPD X4, X5
#define ADDSUBPD_X4_X5 BYTE $0x66; BYTE $0x0F; BYTE $0xD0; BYTE $0xEC
// ADDSUBPD X6, X7
#define ADDSUBPD_X6_X7 BYTE $0x66; BYTE $0x0F; BYTE $0xD0; BYTE $0xFE
// ADDSUBPD X8, X9
#define ADDSUBPD_X8_X9 BYTE $0x66; BYTE $0x45; BYTE $0x0F; BYTE $0xD0; BYTE $0xC8
// func AxpyIncTo(dst []complex128, incDst, idst uintptr, alpha complex128, x, y []complex128, n, incX, incY, ix, iy uintptr)
TEXT ·AxpyIncTo(SB), NOSPLIT, $0
MOVQ dst_base+0(FP), DI // DI = &dst
MOVQ x_base+56(FP), SI // SI = &x
MOVQ y_base+80(FP), DX // DX = &y
MOVQ n+104(FP), CX // CX = n
CMPQ CX, $0 // if n==0 { return }
JE axpyi_end
MOVQ ix+128(FP), R8 // R8 = ix // Load the first index
SHLQ $4, R8 // R8 *= sizeof(complex128)
MOVQ iy+136(FP), R9 // R9 = iy
SHLQ $4, R9 // R9 *= sizeof(complex128)
MOVQ idst+32(FP), R10 // R10 = idst
SHLQ $4, R10 // R10 *= sizeof(complex128)
LEAQ (SI)(R8*1), SI // SI = &(x[ix])
LEAQ (DX)(R9*1), DX // DX = &(y[iy])
LEAQ (DI)(R10*1), DI // DI = &(dst[idst])
MOVQ incX+112(FP), R8 // R8 = incX
SHLQ $4, R8 // R8 *= sizeof(complex128)
MOVQ incY+120(FP), R9 // R9 = incY
SHLQ $4, R9 // R9 *= sizeof(complex128)
MOVQ incDst+24(FP), R10 // R10 = incDst
SHLQ $4, R10 // R10 *= sizeof(complex128)
MOVUPS alpha+40(FP), X0 // X0 = { imag(a), real(a) }
MOVAPS X0, X1
SHUFPD $0x1, X1, X1 // X1 = { real(a), imag(a) }
MOVAPS X0, X10 // Copy X0 and X1 for pipelining
MOVAPS X1, X11
MOVQ CX, BX
ANDQ $3, CX // CX = n % 4
SHRQ $2, BX // BX = floor( n / 4 )
JZ axpyi_tail // if BX == 0 { goto axpyi_tail }
axpyi_loop: // do {
MOVUPS (SI), X2 // X_i = { imag(x[i]), real(x[i]) }
MOVUPS (SI)(R8*1), X4
LEAQ (SI)(R8*2), SI // SI = &(SI[incX*2])
MOVUPS (SI), X6
MOVUPS (SI)(R8*1), X8
// X_(i+1) = { real(x[i], real(x[i]) }
MOVDDUP_X2_X3
MOVDDUP_X4_X5
MOVDDUP_X6_X7
MOVDDUP_X8_X9
// X_i = { imag(x[i]), imag(x[i]) }
SHUFPD $0x3, X2, X2
SHUFPD $0x3, X4, X4
SHUFPD $0x3, X6, X6
SHUFPD $0x3, X8, X8
// X_i = { real(a) * imag(x[i]), imag(a) * imag(x[i]) }
// X_(i+1) = { imag(a) * real(x[i]), real(a) * real(x[i]) }
MULPD X1, X2
MULPD X0, X3
MULPD X11, X4
MULPD X10, X5
MULPD X1, X6
MULPD X0, X7
MULPD X11, X8
MULPD X10, X9
// X_(i+1) = {
// imag(result[i]): imag(a)*real(x[i]) + real(a)*imag(x[i]),
// real(result[i]): real(a)*real(x[i]) - imag(a)*imag(x[i])
// }
ADDSUBPD_X2_X3
ADDSUBPD_X4_X5
ADDSUBPD_X6_X7
ADDSUBPD_X8_X9
// X_(i+1) = { imag(result[i]) + imag(y[i]), real(result[i]) + real(y[i]) }
ADDPD (DX), X3
ADDPD (DX)(R9*1), X5
LEAQ (DX)(R9*2), DX // DX = &(DX[incY*2])
ADDPD (DX), X7
ADDPD (DX)(R9*1), X9
MOVUPS X3, (DI) // dst[i] = X_(i+1)
MOVUPS X5, (DI)(R10*1)
LEAQ (DI)(R10*2), DI
MOVUPS X7, (DI)
MOVUPS X9, (DI)(R10*1)
LEAQ (SI)(R8*2), SI // SI = &(SI[incX*2])
LEAQ (DX)(R9*2), DX // DX = &(DX[incY*2])
LEAQ (DI)(R10*2), DI // DI = &(DI[incDst*2])
DECQ BX
JNZ axpyi_loop // } while --BX > 0
CMPQ CX, $0 // if CX == 0 { return }
JE axpyi_end
axpyi_tail: // do {
MOVUPS (SI), X2 // X_i = { imag(x[i]), real(x[i]) }
MOVDDUP_X2_X3 // X_(i+1) = { real(x[i], real(x[i]) }
SHUFPD $0x3, X2, X2 // X_i = { imag(x[i]), imag(x[i]) }
MULPD X1, X2 // X_i = { real(a) * imag(x[i]), imag(a) * imag(x[i]) }
MULPD X0, X3 // X_(i+1) = { imag(a) * real(x[i]), real(a) * real(x[i]) }
// X_(i+1) = {
// imag(result[i]): imag(a)*real(x[i]) + real(a)*imag(x[i]),
// real(result[i]): real(a)*real(x[i]) - imag(a)*imag(x[i])
// }
ADDSUBPD_X2_X3
// X_(i+1) = { imag(result[i]) + imag(y[i]), real(result[i]) + real(y[i]) }
ADDPD (DX), X3
MOVUPS X3, (DI) // y[i] X_(i+1)
ADDQ R8, SI // SI += incX
ADDQ R9, DX // DX += incY
ADDQ R10, DI // DI += incDst
LOOP axpyi_tail // } while --CX > 0
axpyi_end:
RET
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