status-go/vendor/github.com/klauspost/reedsolomon/galois_nopshufb_amd64.go

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// Copyright 2015, Klaus Post, see LICENSE for details
//go:build nopshufb && !noasm
package reedsolomon
// bigSwitchover is the size where 64 bytes are processed per loop.
const bigSwitchover = 128
const pshufb = false
// simple slice xor
func sliceXor(in, out []byte, o *options) {
if o.useSSE2 {
if len(in) >= bigSwitchover {
if o.useAVX2 {
avx2XorSlice_64(in, out)
done := (len(in) >> 6) << 6
in = in[done:]
out = out[done:]
} else {
sSE2XorSlice_64(in, out)
done := (len(in) >> 6) << 6
in = in[done:]
out = out[done:]
}
}
if len(in) >= 16 {
sSE2XorSlice(in, out)
done := (len(in) >> 4) << 4
in = in[done:]
out = out[done:]
}
} else {
sliceXorGo(in, out, o)
return
}
out = out[:len(in)]
for i := range in {
out[i] ^= in[i]
}
}
func galMulSlice(c byte, in, out []byte, o *options) {
out = out[:len(in)]
if c == 1 {
copy(out, in)
return
}
mt := mulTable[c][:256]
for len(in) >= 4 {
ii := (*[4]byte)(in)
oo := (*[4]byte)(out)
oo[0] = mt[ii[0]]
oo[1] = mt[ii[1]]
oo[2] = mt[ii[2]]
oo[3] = mt[ii[3]]
in = in[4:]
out = out[4:]
}
for n, input := range in {
out[n] = mt[input]
}
}
func galMulSliceXor(c byte, in, out []byte, o *options) {
out = out[:len(in)]
if c == 1 {
sliceXor(in, out, o)
return
}
mt := mulTable[c][:256]
for len(in) >= 4 {
ii := (*[4]byte)(in)
oo := (*[4]byte)(out)
oo[0] ^= mt[ii[0]]
oo[1] ^= mt[ii[1]]
oo[2] ^= mt[ii[2]]
oo[3] ^= mt[ii[3]]
in = in[4:]
out = out[4:]
}
for n, input := range in {
out[n] ^= mt[input]
}
}
func init() {
defaultOptions.useAVX512 = false
}
// 4-way butterfly
func ifftDIT4(work [][]byte, dist int, log_m01, log_m23, log_m02 ffe, o *options) {
ifftDIT4Ref(work, dist, log_m01, log_m23, log_m02, o)
}
// 4-way butterfly
func ifftDIT48(work [][]byte, dist int, log_m01, log_m23, log_m02 ffe8, o *options) {
ifftDIT4Ref8(work, dist, log_m01, log_m23, log_m02, o)
}
// 4-way butterfly
func fftDIT4(work [][]byte, dist int, log_m01, log_m23, log_m02 ffe, o *options) {
fftDIT4Ref(work, dist, log_m01, log_m23, log_m02, o)
}
// 4-way butterfly
func fftDIT48(work [][]byte, dist int, log_m01, log_m23, log_m02 ffe8, o *options) {
fftDIT4Ref8(work, dist, log_m01, log_m23, log_m02, o)
}
// 2-way butterfly forward
func fftDIT2(x, y []byte, log_m ffe, o *options) {
// Reference version:
refMulAdd(x, y, log_m)
sliceXor(x, y, o)
}
// 2-way butterfly forward
func fftDIT28(x, y []byte, log_m ffe8, o *options) {
// Reference version:
refMulAdd8(x, y, log_m)
sliceXor(x, y, o)
}
// 2-way butterfly inverse
func ifftDIT2(x, y []byte, log_m ffe, o *options) {
// Reference version:
sliceXor(x, y, o)
refMulAdd(x, y, log_m)
}
// 2-way butterfly inverse
func ifftDIT28(x, y []byte, log_m ffe8, o *options) {
// Reference version:
sliceXor(x, y, o)
refMulAdd8(x, y, log_m)
}
func mulgf16(x, y []byte, log_m ffe, o *options) {
refMul(x, y, log_m)
}
func mulgf8(x, y []byte, log_m ffe8, o *options) {
refMul8(x, y, log_m)
}