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math/big: add s390x function implementations
Change-Id: I2aadc885d6330460e494c687757f07c5e006f3b0 Reviewed-on: https://go-review.googlesource.com/20937 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
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src/math/big/arith_s390x.s
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565
src/math/big/arith_s390x.s
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// Copyright 2016 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build !math_big_pure_go,s390x
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#include "textflag.h"
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// This file provides fast assembly versions for the elementary
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// arithmetic operations on vectors implemented in arith.go.
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TEXT ·mulWW(SB),NOSPLIT,$0
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MOVD x+0(FP), R3
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MOVD y+8(FP), R4
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MULHDU R3, R4
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MOVD R10, z1+16(FP)
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MOVD R11, z0+24(FP)
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RET
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// func divWW(x1, x0, y Word) (q, r Word)
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TEXT ·divWW(SB),NOSPLIT,$0
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MOVD x1+0(FP), R10
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MOVD x0+8(FP), R11
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MOVD y+16(FP), R5
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WORD $0xb98700a5 // dlgr r10,r5
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MOVD R11, q+24(FP)
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MOVD R10, r+32(FP)
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RET
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// DI = R3, CX = R4, SI = r10, r8 = r8, r9=r9, r10 = r2 , r11 = r5, r12 = r6, r13 = r7, r14 = r1 (R0 set to 0) + use R11
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// func addVV(z, x, y []Word) (c Word)
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TEXT ·addVV(SB),NOSPLIT,$0
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MOVD z_len+8(FP), R3
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MOVD x+24(FP), R8
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MOVD y+48(FP), R9
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MOVD z+0(FP), R2
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MOVD $0, R4 // c = 0
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MOVD $0, R0 // make sure it's zero
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MOVD $0, R10 // i = 0
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// s/JL/JMP/ below to disable the unrolled loop
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SUB $4, R3 // n -= 4
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BLT v1 // if n < 0 goto v1
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U1: // n >= 0
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// regular loop body unrolled 4x
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MOVD 0(R8)(R10*1), R5
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MOVD 8(R8)(R10*1), R6
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MOVD 16(R8)(R10*1), R7
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MOVD 24(R8)(R10*1), R1
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ADDC R4, R4 // restore CF
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MOVD 0(R9)(R10*1), R11
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ADDE R11, R5
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MOVD 8(R9)(R10*1), R11
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ADDE R11, R6
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MOVD 16(R9)(R10*1), R11
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ADDE R11, R7
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MOVD 24(R9)(R10*1), R11
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ADDE R11, R1
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MOVD R0, R4
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ADDE R4, R4 // save CF
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NEG R4, R4
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MOVD R5, 0(R2)(R10*1)
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MOVD R6, 8(R2)(R10*1)
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MOVD R7, 16(R2)(R10*1)
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MOVD R1, 24(R2)(R10*1)
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ADD $32, R10 // i += 4
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SUB $4, R3 // n -= 4
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BGE U1 // if n >= 0 goto U1
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v1: ADD $4, R3 // n += 4
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BLE E1 // if n <= 0 goto E1
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L1: // n > 0
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ADDC R4, R4 // restore CF
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MOVD 0(R8)(R10*1), R5
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MOVD 0(R9)(R10*1), R11
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ADDE R11, R5
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MOVD R5, 0(R2)(R10*1)
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MOVD R0, R4
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ADDE R4, R4 // save CF
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NEG R4, R4
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ADD $8, R10 // i++
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SUB $1, R3 // n--
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BGT L1 // if n > 0 goto L1
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E1: NEG R4, R4
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MOVD R4, c+72(FP) // return c
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RET
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// DI = R3, CX = R4, SI = r10, r8 = r8, r9=r9, r10 = r2 , r11 = r5, r12 = r6, r13 = r7, r14 = r1 (R0 set to 0) + use R11
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// func subVV(z, x, y []Word) (c Word)
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// (same as addVV except for SUBC/SUBE instead of ADDC/ADDE and label names)
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TEXT ·subVV(SB),NOSPLIT,$0
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MOVD z_len+8(FP), R3
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MOVD x+24(FP), R8
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MOVD y+48(FP), R9
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MOVD z+0(FP), R2
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MOVD $0, R4 // c = 0
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MOVD $0, R0 // make sure it's zero
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MOVD $0, R10 // i = 0
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// s/JL/JMP/ below to disable the unrolled loop
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SUB $4, R3 // n -= 4
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BLT v1 // if n < 0 goto v1
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U1: // n >= 0
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// regular loop body unrolled 4x
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MOVD 0(R8)(R10*1), R5
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MOVD 8(R8)(R10*1), R6
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MOVD 16(R8)(R10*1), R7
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MOVD 24(R8)(R10*1), R1
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MOVD R0, R11
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SUBC R4, R11 // restore CF
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MOVD 0(R9)(R10*1), R11
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SUBE R11, R5
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MOVD 8(R9)(R10*1), R11
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SUBE R11, R6
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MOVD 16(R9)(R10*1), R11
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SUBE R11, R7
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MOVD 24(R9)(R10*1), R11
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SUBE R11, R1
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MOVD R0, R4
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SUBE R4, R4 // save CF
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MOVD R5, 0(R2)(R10*1)
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MOVD R6, 8(R2)(R10*1)
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MOVD R7, 16(R2)(R10*1)
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MOVD R1, 24(R2)(R10*1)
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ADD $32, R10 // i += 4
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SUB $4, R3 // n -= 4
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BGE U1 // if n >= 0 goto U1
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v1: ADD $4, R3 // n += 4
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BLE E1 // if n <= 0 goto E1
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L1: // n > 0
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MOVD R0, R11
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SUBC R4, R11 // restore CF
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MOVD 0(R8)(R10*1), R5
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MOVD 0(R9)(R10*1), R11
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SUBE R11, R5
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MOVD R5, 0(R2)(R10*1)
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MOVD R0, R4
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SUBE R4, R4 // save CF
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ADD $8, R10 // i++
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SUB $1, R3 // n--
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BGT L1 // if n > 0 goto L1
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E1: NEG R4, R4
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MOVD R4, c+72(FP) // return c
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RET
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// func addVW(z, x []Word, y Word) (c Word)
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TEXT ·addVW(SB),NOSPLIT,$0
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//DI = R3, CX = R4, SI = r10, r8 = r8, r10 = r2 , r11 = r5, r12 = r6, r13 = r7, r14 = r1 (R0 set to 0)
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MOVD z_len+8(FP), R3
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MOVD x+24(FP), R8
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MOVD y+48(FP), R4 // c = y
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MOVD z+0(FP), R2
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MOVD $0, R0 // make sure it's 0
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MOVD $0, R10 // i = 0
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// s/JL/JMP/ below to disable the unrolled loop
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SUB $4, R3 // n -= 4
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BLT v4 // if n < 4 goto v4
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U4: // n >= 0
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// regular loop body unrolled 4x
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MOVD 0(R8)(R10*1), R5
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MOVD 8(R8)(R10*1), R6
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MOVD 16(R8)(R10*1), R7
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MOVD 24(R8)(R10*1), R1
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ADDC R4, R5
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ADDE R0, R6
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ADDE R0, R7
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ADDE R0, R1
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ADDE R0, R0
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MOVD R0, R4 // save CF
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SUB R0, R0
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MOVD R5, 0(R2)(R10*1)
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MOVD R6, 8(R2)(R10*1)
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MOVD R7, 16(R2)(R10*1)
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MOVD R1, 24(R2)(R10*1)
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ADD $32, R10 // i += 4 -> i +=32
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SUB $4, R3 // n -= 4
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BGE U4 // if n >= 0 goto U4
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v4: ADD $4, R3 // n += 4
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BLE E4 // if n <= 0 goto E4
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L4: // n > 0
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MOVD 0(R8)(R10*1), R5
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ADDC R4, R5
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ADDE R0, R0
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MOVD R0, R4 // save CF
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SUB R0, R0
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MOVD R5, 0(R2)(R10*1)
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ADD $8, R10 // i++
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SUB $1, R3 // n--
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BGT L4 // if n > 0 goto L4
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E4: MOVD R4, c+56(FP) // return c
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RET
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//DI = R3, CX = R4, SI = r10, r8 = r8, r10 = r2 , r11 = r5, r12 = r6, r13 = r7, r14 = r1 (R0 set to 0)
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// func subVW(z, x []Word, y Word) (c Word)
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// (same as addVW except for SUBC/SUBE instead of ADDC/ADDE and label names)
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TEXT ·subVW(SB),NOSPLIT,$0
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MOVD z_len+8(FP), R3
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MOVD x+24(FP), R8
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MOVD y+48(FP), R4 // c = y
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MOVD z+0(FP), R2
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MOVD $0, R0 // make sure it's 0
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MOVD $0, R10 // i = 0
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// s/JL/JMP/ below to disable the unrolled loop
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SUB $4, R3 // n -= 4
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BLT v4 // if n < 4 goto v4
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U4: // n >= 0
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// regular loop body unrolled 4x
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MOVD 0(R8)(R10*1), R5
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MOVD 8(R8)(R10*1), R6
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MOVD 16(R8)(R10*1), R7
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MOVD 24(R8)(R10*1), R1
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SUBC R4, R5 //SLGR -> SUBC
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SUBE R0, R6 //SLBGR -> SUBE
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SUBE R0, R7
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SUBE R0, R1
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SUBE R4, R4 // save CF
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NEG R4, R4
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MOVD R5, 0(R2)(R10*1)
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MOVD R6, 8(R2)(R10*1)
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MOVD R7, 16(R2)(R10*1)
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MOVD R1, 24(R2)(R10*1)
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ADD $32, R10 // i += 4 -> i +=32
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SUB $4, R3 // n -= 4
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BGE U4 // if n >= 0 goto U4
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v4: ADD $4, R3 // n += 4
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BLE E4 // if n <= 0 goto E4
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L4: // n > 0
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MOVD 0(R8)(R10*1), R5
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SUBC R4, R5
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SUBE R4, R4 // save CF
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NEG R4, R4
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MOVD R5, 0(R2)(R10*1)
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ADD $8, R10 // i++
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SUB $1, R3 // n--
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BGT L4 // if n > 0 goto L4
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E4: MOVD R4, c+56(FP) // return c
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RET
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// func shlVU(z, x []Word, s uint) (c Word)
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TEXT ·shlVU(SB),NOSPLIT,$0
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MOVD z_len+8(FP), R5
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SUB $1, R5 // n--
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BLT X8b // n < 0 (n <= 0)
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// n > 0
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MOVD s+48(FP), R4
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CMPBEQ R0, R4, Z80 //handle 0 case beq
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MOVD $64, R6
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CMPBEQ R6, R4, Z864 //handle 64 case beq
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MOVD z+0(FP), R2
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MOVD x+24(FP), R8
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SLD $3, R5 // n = n*8
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SUB R4, R6, R7
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MOVD (R8)(R5*1), R10 // w1 = x[i-1]
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SRD R7, R10, R3
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MOVD R3, c+56(FP)
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MOVD $0, R1 // i = 0
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BR E8
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// i < n-1
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L8: MOVD R10, R3 // w = w1
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MOVD -8(R8)(R5*1), R10 // w1 = x[i+1]
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SLD R4, R3 // w<<s | w1>>ŝ
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SRD R7, R10, R6
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OR R6, R3
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MOVD R3, (R2)(R5*1) // z[i] = w<<s | w1>>ŝ
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SUB $8, R5 // i--
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E8: CMPBGT R5, R0, L8 // i < n-1
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// i >= n-1
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X8a: SLD R4, R10 // w1<<s
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MOVD R10, (R2) // z[0] = w1<<s
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RET
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X8b: MOVD R0, c+56(FP)
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RET
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Z80: MOVD z+0(FP), R2
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MOVD x+24(FP), R8
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SLD $3, R5 // n = n*8
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MOVD (R8), R10
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MOVD $0, R3
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MOVD R3, c+56(FP)
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MOVD $0, R1 // i = 0
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BR E8Z
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// i < n-1
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L8Z: MOVD R10, R3
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MOVD 8(R8)(R1*1), R10
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MOVD R3, (R2)(R1*1)
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ADD $8, R1
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E8Z: CMPBLT R1, R5, L8Z
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// i >= n-1
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MOVD R10, (R2)(R5*1)
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RET
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Z864: MOVD z+0(FP), R2
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MOVD x+24(FP), R8
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SLD $3, R5 // n = n*8
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MOVD (R8)(R5*1), R3 // w1 = x[n-1]
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MOVD R3, c+56(FP) // z[i] = x[n-1]
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BR E864
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// i < n-1
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L864: MOVD -8(R8)(R5*1), R3
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MOVD R3, (R2)(R5*1) // z[i] = x[n-1]
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SUB $8, R5 // i--
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E864: CMPBGT R5, R0, L864 // i < n-1
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MOVD R0, (R2) // z[n-1] = 0
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RET
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// CX = R4, r8 = r8, r10 = r2 , r11 = r5, DX = r3, AX = r10 , BX = R1 , 64-count = r7 (R0 set to 0) temp = R6
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// func shrVU(z, x []Word, s uint) (c Word)
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TEXT ·shrVU(SB),NOSPLIT,$0
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MOVD z_len+8(FP), R5
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SUB $1, R5 // n--
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BLT X9b // n < 0 (n <= 0)
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// n > 0
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MOVD s+48(FP), R4
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CMPBEQ R0, R4, ZB0 //handle 0 case beq
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MOVD $64, R6
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CMPBEQ R6, R4, ZB64 //handle 64 case beq
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MOVD z+0(FP), R2
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MOVD x+24(FP), R8
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SLD $3, R5 // n = n*8
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SUB R4, R6, R7
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MOVD (R8), R10 // w1 = x[0]
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SLD R7, R10, R3
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MOVD R3, c+56(FP)
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MOVD $0, R1 // i = 0
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BR E9
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// i < n-1
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L9: MOVD R10, R3 // w = w1
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MOVD 8(R8)(R1*1), R10 // w1 = x[i+1]
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SRD R4, R3 // w>>s | w1<<s
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SLD R7, R10, R6
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OR R6, R3
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MOVD R3, (R2)(R1*1) // z[i] = w>>s | w1<<s
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ADD $8, R1 // i++
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E9: CMPBLT R1, R5, L9 // i < n-1
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// i >= n-1
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X9a: SRD R4, R10 // w1>>s
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MOVD R10, (R2)(R5*1) // z[n-1] = w1>>s
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RET
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X9b: MOVD R0, c+56(FP)
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RET
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ZB0: MOVD z+0(FP), R2
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MOVD x+24(FP), R8
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SLD $3, R5 // n = n*8
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MOVD (R8), R10 // w1 = x[0]
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MOVD $0, R3 // R10 << 64
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MOVD R3, c+56(FP)
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MOVD $0, R1 // i = 0
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BR E9Z
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// i < n-1
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L9Z: MOVD R10, R3 // w = w1
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MOVD 8(R8)(R1*1), R10 // w1 = x[i+1]
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MOVD R3, (R2)(R1*1) // z[i] = w>>s | w1<<s
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ADD $8, R1 // i++
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E9Z: CMPBLT R1, R5, L9Z // i < n-1
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// i >= n-1
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MOVD R10, (R2)(R5*1) // z[n-1] = w1>>s
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RET
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ZB64: MOVD z+0(FP), R2
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MOVD x+24(FP), R8
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SLD $3, R5 // n = n*8
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MOVD (R8), R3 // w1 = x[0]
|
||||
MOVD R3, c+56(FP)
|
||||
|
||||
MOVD $0, R1 // i = 0
|
||||
BR E964
|
||||
|
||||
// i < n-1
|
||||
L964: MOVD 8(R8)(R1*1), R3 // w1 = x[i+1]
|
||||
|
||||
MOVD R3, (R2)(R1*1) // z[i] = w>>s | w1<<s
|
||||
ADD $8, R1 // i++
|
||||
|
||||
E964: CMPBLT R1, R5, L964 // i < n-1
|
||||
|
||||
// i >= n-1
|
||||
MOVD $0, R10 // w1>>s
|
||||
MOVD R10, (R2)(R5*1) // z[n-1] = w1>>s
|
||||
RET
|
||||
|
||||
// CX = R4, r8 = r8, r9=r9, r10 = r2 , r11 = r5, DX = r3, AX = r6 , BX = R1 , (R0 set to 0) + use R11 + use R7 for i
|
||||
// func mulAddVWW(z, x []Word, y, r Word) (c Word)
|
||||
TEXT ·mulAddVWW(SB),NOSPLIT,$0
|
||||
MOVD z+0(FP), R2
|
||||
MOVD x+24(FP), R8
|
||||
MOVD y+48(FP), R9
|
||||
MOVD r+56(FP), R4 // c = r
|
||||
MOVD z_len+8(FP), R5
|
||||
MOVD $0, R1 // i = 0
|
||||
MOVD $0, R7 // i*8 = 0
|
||||
MOVD $0, R0 // make sure it's zero
|
||||
BR E5
|
||||
|
||||
L5: MOVD (R8)(R1*1), R6
|
||||
MULHDU R9, R6
|
||||
ADDC R4, R11 //add to low order bits
|
||||
ADDE R0, R6
|
||||
MOVD R11, (R2)(R1*1)
|
||||
MOVD R6, R4
|
||||
ADD $8, R1 // i*8 + 8
|
||||
ADD $1, R7 // i++
|
||||
|
||||
E5: CMPBLT R7, R5, L5 // i < n
|
||||
|
||||
MOVD R4, c+64(FP)
|
||||
RET
|
||||
|
||||
// func addMulVVW(z, x []Word, y Word) (c Word)
|
||||
// CX = R4, r8 = r8, r9=r9, r10 = r2 , r11 = r5, AX = r11, DX = R6, r12=r12, BX = R1 , (R0 set to 0) + use R11 + use R7 for i
|
||||
TEXT ·addMulVVW(SB),NOSPLIT,$0
|
||||
MOVD z+0(FP), R2
|
||||
MOVD x+24(FP), R8
|
||||
MOVD y+48(FP), R9
|
||||
MOVD z_len+8(FP), R5
|
||||
|
||||
MOVD $0, R1 // i*8 = 0
|
||||
MOVD $0, R7 // i = 0
|
||||
MOVD $0, R0 // make sure it's zero
|
||||
MOVD $0, R4 // c = 0
|
||||
|
||||
MOVD R5, R12
|
||||
AND $-2, R12
|
||||
CMPBGE R5, $2, A6
|
||||
BR E6
|
||||
|
||||
A6: MOVD (R8)(R1*1), R6
|
||||
MULHDU R9, R6
|
||||
MOVD (R2)(R1*1), R10
|
||||
ADDC R10, R11 //add to low order bits
|
||||
ADDE R0, R6
|
||||
ADDC R4, R11
|
||||
ADDE R0, R6
|
||||
MOVD R6, R4
|
||||
MOVD R11, (R2)(R1*1)
|
||||
|
||||
MOVD (8)(R8)(R1*1), R6
|
||||
MULHDU R9, R6
|
||||
MOVD (8)(R2)(R1*1), R10
|
||||
ADDC R10, R11 //add to low order bits
|
||||
ADDE R0, R6
|
||||
ADDC R4, R11
|
||||
ADDE R0, R6
|
||||
MOVD R6, R4
|
||||
MOVD R11, (8)(R2)(R1*1)
|
||||
|
||||
ADD $16, R1 // i*8 + 8
|
||||
ADD $2, R7 // i++
|
||||
|
||||
CMPBLT R7, R12, A6
|
||||
BR E6
|
||||
|
||||
L6: MOVD (R8)(R1*1), R6
|
||||
MULHDU R9, R6
|
||||
MOVD (R2)(R1*1), R10
|
||||
ADDC R10, R11 //add to low order bits
|
||||
ADDE R0, R6
|
||||
ADDC R4, R11
|
||||
ADDE R0, R6
|
||||
MOVD R6, R4
|
||||
MOVD R11, (R2)(R1*1)
|
||||
|
||||
ADD $8, R1 // i*8 + 8
|
||||
ADD $1, R7 // i++
|
||||
|
||||
E6: CMPBLT R7, R5, L6 // i < n
|
||||
|
||||
MOVD R4, c+56(FP)
|
||||
RET
|
||||
|
||||
// func divWVW(z []Word, xn Word, x []Word, y Word) (r Word)
|
||||
// CX = R4, r8 = r8, r9=r9, r10 = r2 , r11 = r5, AX = r11, DX = R6, r12=r12, BX = R1(*8) , (R0 set to 0) + use R11 + use R7 for i
|
||||
TEXT ·divWVW(SB),NOSPLIT,$0
|
||||
MOVD z+0(FP), R2
|
||||
MOVD xn+24(FP), R10 // r = xn
|
||||
MOVD x+32(FP), R8
|
||||
MOVD y+56(FP), R9
|
||||
MOVD z_len+8(FP), R7 // i = z
|
||||
SLD $3, R7, R1 // i*8
|
||||
MOVD $0, R0 // make sure it's zero
|
||||
BR E7
|
||||
|
||||
L7: MOVD (R8)(R1*1), R11
|
||||
WORD $0xB98700A9 //DLGR R10,R9
|
||||
MOVD R11, (R2)(R1*1)
|
||||
|
||||
E7: SUB $1, R7 // i--
|
||||
SUB $8, R1
|
||||
BGE L7 // i >= 0
|
||||
|
||||
MOVD R10, r+64(FP)
|
||||
RET
|
||||
|
||||
// func bitLen(x Word) (n int)
|
||||
TEXT ·bitLen(SB),NOSPLIT,$0
|
||||
MOVD x+0(FP), R2
|
||||
WORD $0xb9830022 // FLOGR R2,R2
|
||||
MOVD $64, R3
|
||||
SUB R2, R3
|
||||
MOVD R3, n+8(FP)
|
||||
RET
|
Loading…
Reference in New Issue
Block a user