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xoravx2_amd64.s
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// Copyright (c) 2019. Temple3x ([email protected])
//
// Use of this source code is governed by the MIT License
// that can be found in the LICENSE file.
#define dst BX // parity's address
#define d2src SI // two-dimension src_slice's address
#define csrc CX // cnt of src
#define len DX // len of vect
#define pos R8 // job position in vect
#define csrc_tmp R9
#define d2src_off R10
#define src_tmp R11
#define not_aligned_len R12
#define src_val0 R13
#define src_val1 R14
// func encodeAVX2(dst []byte, src [][]byte)
TEXT ·encodeAVX2(SB), 4, $0
MOVQ d+0(FP), dst
MOVQ s+24(FP), d2src
MOVQ c+32(FP), csrc
MOVQ l+8(FP), len
TESTQ $127, len
JNZ not_aligned
aligned:
MOVQ $0, pos
loop128b:
MOVQ csrc, csrc_tmp // store src_cnt -> csrc_tmp
SUBQ $2, csrc_tmp
MOVQ $0, d2src_off
MOVQ (d2src)(d2src_off*1), src_tmp // get first src_vect's addr -> src_tmp
VMOVDQU (src_tmp)(pos*1), Y0
VMOVDQU 32(src_tmp)(pos*1), Y1
VMOVDQU 64(src_tmp)(pos*1), Y2
VMOVDQU 96(src_tmp)(pos*1), Y3
next_vect:
ADDQ $24, d2src_off // len(slice) = 24
MOVQ (d2src)(d2src_off*1), src_tmp // next data_vect
VMOVDQU (src_tmp)(pos*1), Y4
VMOVDQU 32(src_tmp)(pos*1), Y5
VMOVDQU 64(src_tmp)(pos*1), Y6
VMOVDQU 96(src_tmp)(pos*1), Y7
VPXOR Y4, Y0, Y0
VPXOR Y5, Y1, Y1
VPXOR Y6, Y2, Y2
VPXOR Y7, Y3, Y3
SUBQ $1, csrc_tmp
JGE next_vect
VMOVDQU Y0, (dst)(pos*1)
VMOVDQU Y1, 32(dst)(pos*1)
VMOVDQU Y2, 64(dst)(pos*1)
VMOVDQU Y3, 96(dst)(pos*1)
ADDQ $128, pos
CMPQ len, pos
JNE loop128b
VZEROUPPER
RET
loop_1b:
MOVQ csrc, csrc_tmp
MOVQ $0, d2src_off
MOVQ (d2src)(d2src_off*1), src_tmp
SUBQ $2, csrc_tmp
MOVB -1(src_tmp)(len*1), src_val0 // encode from the end of src
next_vect_1b:
ADDQ $24, d2src_off
MOVQ (d2src)(d2src_off*1), src_tmp
MOVB -1(src_tmp)(len*1), src_val1
XORB src_val1, src_val0
SUBQ $1, csrc_tmp
JGE next_vect_1b
MOVB src_val0, -1(dst)(len*1)
SUBQ $1, len
TESTQ $7, len
JNZ loop_1b
CMPQ len, $0
JE ret
TESTQ $127, len
JZ aligned
not_aligned:
TESTQ $7, len
JNE loop_1b
MOVQ len, not_aligned_len
ANDQ $127, not_aligned_len
loop_8b:
MOVQ csrc, csrc_tmp
MOVQ $0, d2src_off
MOVQ (d2src)(d2src_off*1), src_tmp
SUBQ $2, csrc_tmp
MOVQ -8(src_tmp)(len*1), src_val0
next_vect_8b:
ADDQ $24, d2src_off
MOVQ (d2src)(d2src_off*1), src_tmp
MOVQ -8(src_tmp)(len*1), src_val1
XORQ src_val1, src_val0
SUBQ $1, csrc_tmp
JGE next_vect_8b
MOVQ src_val0, -8(dst)(len*1)
SUBQ $8, len
SUBQ $8, not_aligned_len
JG loop_8b
CMPQ len, $128
JGE aligned
RET
ret:
RET