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// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Code generated by 'go generate' (with ./internal/asmgen). DO NOT EDIT.
//go:build !math_big_pure_go
#include "textflag.h"
// func addVV(z, x, y []Word) (c Word)
TEXT 路addVV(SB), NOSPLIT, $0
MOVQ z_len+8(FP), BX
MOVQ x_base+24(FP), SI
MOVQ y_base+48(FP), DI
MOVQ z_base+0(FP), R8
// compute unrolled loop lengths
MOVQ BX, R9
ANDQ $3, R9
SHRQ $2, BX
MOVQ $0, R10 // clear saved carry
loop1:
TESTQ R9, R9; JZ loop1done
loop1cont:
// unroll 1X
ADDQ R10, R10 // restore carry
MOVQ 0(SI), R10
ADCQ 0(DI), R10
MOVQ R10, 0(R8)
SBBQ R10, R10 // save carry
LEAQ 8(SI), SI // ADD $8, SI
LEAQ 8(DI), DI // ADD $8, DI
LEAQ 8(R8), R8 // ADD $8, R8
SUBQ $1, R9; JNZ loop1cont
loop1done:
loop4:
TESTQ BX, BX; JZ loop4done
loop4cont:
// unroll 4X
ADDQ R10, R10 // restore carry
MOVQ 0(SI), R9
MOVQ 8(SI), R10
MOVQ 16(SI), R11
MOVQ 24(SI), R12
ADCQ 0(DI), R9
ADCQ 8(DI), R10
ADCQ 16(DI), R11
ADCQ 24(DI), R12
MOVQ R9, 0(R8)
MOVQ R10, 8(R8)
MOVQ R11, 16(R8)
MOVQ R12, 24(R8)
SBBQ R10, R10 // save carry
LEAQ 32(SI), SI // ADD $32, SI
LEAQ 32(DI), DI // ADD $32, DI
LEAQ 32(R8), R8 // ADD $32, R8
SUBQ $1, BX; JNZ loop4cont
loop4done:
NEGQ R10 // convert add carry
MOVQ R10, c+72(FP)
RET
// func subVV(z, x, y []Word) (c Word)
TEXT 路subVV(SB), NOSPLIT, $0
MOVQ z_len+8(FP), BX
MOVQ x_base+24(FP), SI
MOVQ y_base+48(FP), DI
MOVQ z_base+0(FP), R8
// compute unrolled loop lengths
MOVQ BX, R9
ANDQ $3, R9
SHRQ $2, BX
MOVQ $0, R10 // clear saved carry
loop1:
TESTQ R9, R9; JZ loop1done
loop1cont:
// unroll 1X
ADDQ R10, R10 // restore carry
MOVQ 0(SI), R10
SBBQ 0(DI), R10
MOVQ R10, 0(R8)
SBBQ R10, R10 // save carry
LEAQ 8(SI), SI // ADD $8, SI
LEAQ 8(DI), DI // ADD $8, DI
LEAQ 8(R8), R8 // ADD $8, R8
SUBQ $1, R9; JNZ loop1cont
loop1done:
loop4:
TESTQ BX, BX; JZ loop4done
loop4cont:
// unroll 4X
ADDQ R10, R10 // restore carry
MOVQ 0(SI), R9
MOVQ 8(SI), R10
MOVQ 16(SI), R11
MOVQ 24(SI), R12
SBBQ 0(DI), R9
SBBQ 8(DI), R10
SBBQ 16(DI), R11
SBBQ 24(DI), R12
MOVQ R9, 0(R8)
MOVQ R10, 8(R8)
MOVQ R11, 16(R8)
MOVQ R12, 24(R8)
SBBQ R10, R10 // save carry
LEAQ 32(SI), SI // ADD $32, SI
LEAQ 32(DI), DI // ADD $32, DI
LEAQ 32(R8), R8 // ADD $32, R8
SUBQ $1, BX; JNZ loop4cont
loop4done:
NEGQ R10 // convert sub carry
MOVQ R10, c+72(FP)
RET
// func lshVU(z, x []Word, s uint) (c Word)
TEXT 路lshVU(SB), NOSPLIT, $0
MOVQ z_len+8(FP), BX
TESTQ BX, BX; JZ ret0
MOVQ s+48(FP), CX
MOVQ x_base+24(FP), SI
MOVQ z_base+0(FP), DI
// run loop backward
LEAQ (SI)(BX*8), SI
LEAQ (DI)(BX*8), DI
// shift first word into carry
MOVQ -8(SI), R8
MOVQ $0, R9
SHLQ CX, R8, R9
MOVQ R9, c+56(FP)
// shift remaining words
SUBQ $1, BX
// compute unrolled loop lengths
MOVQ BX, R9
ANDQ $3, R9
SHRQ $2, BX
loop1:
TESTQ R9, R9; JZ loop1done
loop1cont:
// unroll 1X
MOVQ -16(SI), R10
SHLQ CX, R10, R8
MOVQ R8, -8(DI)
MOVQ R10, R8
LEAQ -8(SI), SI // ADD $-8, SI
LEAQ -8(DI), DI // ADD $-8, DI
SUBQ $1, R9; JNZ loop1cont
loop1done:
loop4:
TESTQ BX, BX; JZ loop4done
loop4cont:
// unroll 4X
MOVQ -16(SI), R9
MOVQ -24(SI), R10
MOVQ -32(SI), R11
MOVQ -40(SI), R12
SHLQ CX, R9, R8
SHLQ CX, R10, R9
SHLQ CX, R11, R10
SHLQ CX, R12, R11
MOVQ R8, -8(DI)
MOVQ R9, -16(DI)
MOVQ R10, -24(DI)
MOVQ R11, -32(DI)
MOVQ R12, R8
LEAQ -32(SI), SI // ADD $-32, SI
LEAQ -32(DI), DI // ADD $-32, DI
SUBQ $1, BX; JNZ loop4cont
loop4done:
// store final shifted bits
SHLQ CX, R8
MOVQ R8, -8(DI)
RET
ret0:
MOVQ $0, c+56(FP)
RET
// func rshVU(z, x []Word, s uint) (c Word)
TEXT 路rshVU(SB), NOSPLIT, $0
MOVQ z_len+8(FP), BX
TESTQ BX, BX; JZ ret0
MOVQ s+48(FP), CX
MOVQ x_base+24(FP), SI
MOVQ z_base+0(FP), DI
// shift first word into carry
MOVQ 0(SI), R8
MOVQ $0, R9
SHRQ CX, R8, R9
MOVQ R9, c+56(FP)
// shift remaining words
SUBQ $1, BX
// compute unrolled loop lengths
MOVQ BX, R9
ANDQ $3, R9
SHRQ $2, BX
loop1:
TESTQ R9, R9; JZ loop1done
loop1cont:
// unroll 1X
MOVQ 8(SI), R10
SHRQ CX, R10, R8
MOVQ R8, 0(DI)
MOVQ R10, R8
LEAQ 8(SI), SI // ADD $8, SI
LEAQ 8(DI), DI // ADD $8, DI
SUBQ $1, R9; JNZ loop1cont
loop1done:
loop4:
TESTQ BX, BX; JZ loop4done
loop4cont:
// unroll 4X
MOVQ 8(SI), R9
MOVQ 16(SI), R10
MOVQ 24(SI), R11
MOVQ 32(SI), R12
SHRQ CX, R9, R8
SHRQ CX, R10, R9
SHRQ CX, R11, R10
SHRQ CX, R12, R11
MOVQ R8, 0(DI)
MOVQ R9, 8(DI)
MOVQ R10, 16(DI)
MOVQ R11, 24(DI)
MOVQ R12, R8
LEAQ 32(SI), SI // ADD $32, SI
LEAQ 32(DI), DI // ADD $32, DI
SUBQ $1, BX; JNZ loop4cont
loop4done:
// store final shifted bits
SHRQ CX, R8
MOVQ R8, 0(DI)
RET
ret0:
MOVQ $0, c+56(FP)
RET
// func mulAddVWW(z, x []Word, m, a Word) (c Word)
TEXT 路mulAddVWW(SB), NOSPLIT, $0
MOVQ m+48(FP), BX
MOVQ a+56(FP), SI
MOVQ z_len+8(FP), DI
MOVQ x_base+24(FP), R8
MOVQ z_base+0(FP), R9
// compute unrolled loop lengths
MOVQ DI, R10
ANDQ $3, R10
SHRQ $2, DI
loop1:
TESTQ R10, R10; JZ loop1done
loop1cont:
// unroll 1X in batches of 1
MOVQ 0(R8), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
MOVQ AX, 0(R9)
LEAQ 8(R8), R8 // ADD $8, R8
LEAQ 8(R9), R9 // ADD $8, R9
SUBQ $1, R10; JNZ loop1cont
loop1done:
loop4:
TESTQ DI, DI; JZ loop4done
loop4cont:
// unroll 4X in batches of 1
MOVQ 0(R8), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
MOVQ AX, 0(R9)
MOVQ 8(R8), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
MOVQ AX, 8(R9)
MOVQ 16(R8), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
MOVQ AX, 16(R9)
MOVQ 24(R8), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
MOVQ AX, 24(R9)
LEAQ 32(R8), R8 // ADD $32, R8
LEAQ 32(R9), R9 // ADD $32, R9
SUBQ $1, DI; JNZ loop4cont
loop4done:
MOVQ SI, c+64(FP)
RET
// func addMulVVWW(z, x, y []Word, m, a Word) (c Word)
TEXT 路addMulVVWW(SB), NOSPLIT, $0
CMPB 路hasADX(SB), $0; JNZ altcarry
MOVQ m+72(FP), BX
MOVQ a+80(FP), SI
MOVQ z_len+8(FP), DI
MOVQ x_base+24(FP), R8
MOVQ y_base+48(FP), R9
MOVQ z_base+0(FP), R10
// compute unrolled loop lengths
MOVQ DI, R11
ANDQ $3, R11
SHRQ $2, DI
loop1:
TESTQ R11, R11; JZ loop1done
loop1cont:
// unroll 1X in batches of 1
MOVQ 0(R9), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
// add
ADDQ 0(R8), AX
ADCQ $0, SI
MOVQ AX, 0(R10)
LEAQ 8(R8), R8 // ADD $8, R8
LEAQ 8(R9), R9 // ADD $8, R9
LEAQ 8(R10), R10 // ADD $8, R10
SUBQ $1, R11; JNZ loop1cont
loop1done:
loop4:
TESTQ DI, DI; JZ loop4done
loop4cont:
// unroll 4X in batches of 1
MOVQ 0(R9), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
// add
ADDQ 0(R8), AX
ADCQ $0, SI
MOVQ AX, 0(R10)
MOVQ 8(R9), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
// add
ADDQ 8(R8), AX
ADCQ $0, SI
MOVQ AX, 8(R10)
MOVQ 16(R9), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
// add
ADDQ 16(R8), AX
ADCQ $0, SI
MOVQ AX, 16(R10)
MOVQ 24(R9), AX
// multiply
MULQ BX
ADDQ SI, AX
MOVQ DX, SI
ADCQ $0, SI
// add
ADDQ 24(R8), AX
ADCQ $0, SI
MOVQ AX, 24(R10)
LEAQ 32(R8), R8 // ADD $32, R8
LEAQ 32(R9), R9 // ADD $32, R9
LEAQ 32(R10), R10 // ADD $32, R10
SUBQ $1, DI; JNZ loop4cont
loop4done:
MOVQ SI, c+88(FP)
RET
altcarry:
MOVQ m+72(FP), DX
MOVQ a+80(FP), BX
MOVQ z_len+8(FP), SI
MOVQ $0, DI
MOVQ x_base+24(FP), R8
MOVQ y_base+48(FP), R9
MOVQ z_base+0(FP), R10
// compute unrolled loop lengths
MOVQ SI, R11
ANDQ $7, R11
SHRQ $3, SI
alt1:
TESTQ R11, R11; JZ alt1done
alt1cont:
// unroll 1X
// multiply and add
TESTQ AX, AX // clear carry
TESTQ AX, AX // clear carry
MULXQ 0(R9), R13, R12
ADCXQ BX, R13
ADOXQ 0(R8), R13
MOVQ R13, 0(R10)
MOVQ R12, BX
ADCXQ DI, BX
ADOXQ DI, BX
LEAQ 8(R8), R8 // ADD $8, R8
LEAQ 8(R9), R9 // ADD $8, R9
LEAQ 8(R10), R10 // ADD $8, R10
SUBQ $1, R11; JNZ alt1cont
alt1done:
alt8:
TESTQ SI, SI; JZ alt8done
alt8cont:
// unroll 8X in batches of 2
// multiply and add
TESTQ AX, AX // clear carry
TESTQ AX, AX // clear carry
MULXQ 0(R9), R13, R11
ADCXQ BX, R13
ADOXQ 0(R8), R13
MULXQ 8(R9), R14, BX
ADCXQ R11, R14
ADOXQ 8(R8), R14
MOVQ R13, 0(R10)
MOVQ R14, 8(R10)
MULXQ 16(R9), R13, R11
ADCXQ BX, R13
ADOXQ 16(R8), R13
MULXQ 24(R9), R14, BX
ADCXQ R11, R14
ADOXQ 24(R8), R14
MOVQ R13, 16(R10)
MOVQ R14, 24(R10)
MULXQ 32(R9), R13, R11
ADCXQ BX, R13
ADOXQ 32(R8), R13
MULXQ 40(R9), R14, BX
ADCXQ R11, R14
ADOXQ 40(R8), R14
MOVQ R13, 32(R10)
MOVQ R14, 40(R10)
MULXQ 48(R9), R13, R11
ADCXQ BX, R13
ADOXQ 48(R8), R13
MULXQ 56(R9), R14, BX
ADCXQ R11, R14
ADOXQ 56(R8), R14
MOVQ R13, 48(R10)
MOVQ R14, 56(R10)
ADCXQ DI, BX
ADOXQ DI, BX
LEAQ 64(R8), R8 // ADD $64, R8
LEAQ 64(R9), R9 // ADD $64, R9
LEAQ 64(R10), R10 // ADD $64, R10
SUBQ $1, SI; JNZ alt8cont
alt8done:
MOVQ BX, c+88(FP)
RET
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