93fad3647f
PSHUFB already lets us pick certain bytes out of an XMM register. There's no need to shift by 8 bits (1 byte) beforehand. The code generator is simpler. There's also a small win on the benchmarks, especially for FixedAccumulateOpOverSIMD. name old time/op new time/op delta FixedAccumulateOpOverSIMD16-8 183ns ± 0% 174ns ± 0% -4.92% (p=0.000 n=8+8) FixedAccumulateOpSrcSIMD16-8 87.0ns ± 1% 86.3ns ± 0% -0.77% (p=0.000 n=10+9) FixedAccumulateMaskSIMD16-8 80.4ns ± 1% 81.2ns ± 1% +1.01% (p=0.000 n=10+10) FloatingAccumulateOpOverSIMD16-8 250ns ± 1% 244ns ± 0% -2.39% (p=0.000 n=10+8) FloatingAccumulateOpSrcSIMD16-8 176ns ± 1% 176ns ± 0% ~ (p=0.142 n=10+8) FloatingAccumulateMaskSIMD16-8 167ns ± 0% 167ns ± 0% ~ (p=0.137 n=8+10) FixedAccumulateOpOverSIMD64-8 2.73µs ± 1% 2.58µs ± 0% -5.36% (p=0.000 n=10+7) FixedAccumulateOpSrcSIMD64-8 1.18µs ± 1% 1.17µs ± 0% -0.33% (p=0.003 n=10+9) FixedAccumulateMaskSIMD64-8 1.09µs ± 0% 1.09µs ± 0% -0.17% (p=0.047 n=9+9) FloatingAccumulateOpOverSIMD64-8 3.67µs ± 0% 3.61µs ± 1% -1.47% (p=0.000 n=7+10) FloatingAccumulateOpSrcSIMD64-8 2.60µs ± 0% 2.61µs ± 0% +0.19% (p=0.003 n=8+8) FloatingAccumulateMaskSIMD64-8 2.47µs ± 0% 2.46µs ± 0% ~ (p=0.162 n=10+9) GlyphAlpha16Over-8 2.99µs ± 0% 2.98µs ± 1% -0.50% (p=0.021 n=9+10) GlyphAlpha16Src-8 2.89µs ± 1% 2.89µs ± 0% ~ (p=0.381 n=10+10) GlyphAlpha32Over-8 4.53µs ± 0% 4.50µs ± 0% -0.83% (p=0.000 n=10+10) GlyphAlpha32Src-8 4.14µs ± 0% 4.13µs ± 0% -0.21% (p=0.026 n=9+10) GlyphAlpha64Over-8 8.97µs ± 1% 8.80µs ± 0% -1.85% (p=0.000 n=10+9) GlyphAlpha64Src-8 7.42µs ± 1% 7.39µs ± 0% -0.45% (p=0.011 n=10+10) GlyphAlpha128Over-8 21.8µs ± 0% 21.2µs ± 0% -2.91% (p=0.000 n=9+9) GlyphAlpha128Src-8 15.6µs ± 0% 15.6µs ± 0% ~ (p=0.982 n=10+7) GlyphAlpha256Over-8 66.3µs ± 1% 63.7µs ± 0% -3.84% (p=0.000 n=10+9) GlyphAlpha256Src-8 41.2µs ± 1% 41.2µs ± 1% ~ (p=1.000 n=10+10) GlyphRGBA16Over-8 4.75µs ± 0% 4.75µs ± 1% ~ (p=0.735 n=9+10) GlyphRGBA16Src-8 4.20µs ± 0% 4.20µs ± 0% ~ (p=0.503 n=8+8) GlyphRGBA32Over-8 11.4µs ± 0% 11.4µs ± 0% ~ (p=0.119 n=9+9) GlyphRGBA32Src-8 9.34µs ± 1% 9.32µs ± 0% ~ (p=0.062 n=9+8) GlyphRGBA64Over-8 36.0µs ± 0% 36.1µs ± 0% ~ (p=0.209 n=8+9) GlyphRGBA64Src-8 27.9µs ± 1% 27.8µs ± 0% ~ (p=0.796 n=10+10) GlyphRGBA128Over-8 131µs ± 0% 131µs ± 0% ~ (p=0.931 n=9+9) GlyphRGBA128Src-8 97.9µs ± 0% 97.7µs ± 1% ~ (p=0.053 n=9+10) GlyphRGBA256Over-8 503µs ± 0% 503µs ± 1% ~ (p=0.274 n=8+10) GlyphRGBA256Src-8 370µs ± 0% 369µs ± 0% ~ (p=0.497 n=9+10) Change-Id: I56651e70b258792b83ea2a74904756243c88bef4 Reviewed-on: https://go-review.googlesource.com/31537 Reviewed-by: David Crawshaw <crawshaw@golang.org>
448 lines
12 KiB
Go
448 lines
12 KiB
Go
// 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 ignore
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package main
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import (
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"bytes"
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"io/ioutil"
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"log"
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"strings"
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"text/template"
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)
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const (
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copyright = "" +
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"// Copyright 2016 The Go Authors. All rights reserved.\n" +
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"// Use of this source code is governed by a BSD-style\n" +
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"// license that can be found in the LICENSE file.\n"
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doNotEdit = "// generated by go run gen.go; DO NOT EDIT\n"
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dashDashDash = "// --------"
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)
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func main() {
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tmpl, err := ioutil.ReadFile("gen_acc_amd64.s.tmpl")
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if err != nil {
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log.Fatalf("ReadFile: %v", err)
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}
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if !bytes.HasPrefix(tmpl, []byte(copyright)) {
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log.Fatal("source template did not start with the copyright header")
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}
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tmpl = tmpl[len(copyright):]
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preamble := []byte(nil)
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if i := bytes.Index(tmpl, []byte(dashDashDash)); i < 0 {
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log.Fatalf("source template did not contain %q", dashDashDash)
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} else {
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preamble, tmpl = tmpl[:i], tmpl[i:]
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}
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t, err := template.New("").Parse(string(tmpl))
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if err != nil {
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log.Fatalf("Parse: %v", err)
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}
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out := bytes.NewBuffer(nil)
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out.WriteString(doNotEdit)
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out.Write(preamble)
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for i, v := range instances {
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if i != 0 {
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out.WriteString("\n")
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}
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if strings.Contains(v.LoadArgs, "{{.ShortName}}") {
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v.LoadArgs = strings.Replace(v.LoadArgs, "{{.ShortName}}", v.ShortName, -1)
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}
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if err := t.Execute(out, v); err != nil {
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log.Fatalf("Execute(%q): %v", v.ShortName, err)
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}
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}
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if err := ioutil.WriteFile("acc_amd64.s", out.Bytes(), 0666); err != nil {
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log.Fatalf("WriteFile: %v", err)
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}
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}
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var instances = []struct {
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LongName string
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ShortName string
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FrameSize string
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ArgsSize string
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Args string
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DstElemSize1 int
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DstElemSize4 int
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XMM3 string
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XMM4 string
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XMM5 string
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XMM6 string
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XMM8 string
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XMM9 string
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XMM10 string
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LoadArgs string
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Setup string
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LoadXMMRegs string
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Add string
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ClampAndScale string
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ConvertToInt32 string
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Store4 string
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Store1 string
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}{{
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LongName: "fixedAccumulateOpOver",
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ShortName: "fxAccOpOver",
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FrameSize: fxFrameSize,
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ArgsSize: twoArgArgsSize,
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Args: "dst []uint8, src []uint32",
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DstElemSize1: 1 * sizeOfUint8,
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DstElemSize4: 4 * sizeOfUint8,
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XMM3: fxXMM3,
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XMM4: fxXMM4,
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XMM5: fxXMM5,
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XMM6: opOverXMM6,
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XMM8: opOverXMM8,
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XMM9: opOverXMM9,
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XMM10: opOverXMM10,
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LoadArgs: twoArgLoadArgs,
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Setup: fxSetup,
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LoadXMMRegs: fxLoadXMMRegs + "\n" + opOverLoadXMMRegs,
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Add: fxAdd,
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ClampAndScale: fxClampAndScale,
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ConvertToInt32: fxConvertToInt32,
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Store4: opOverStore4,
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Store1: opOverStore1,
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}, {
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LongName: "fixedAccumulateOpSrc",
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ShortName: "fxAccOpSrc",
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FrameSize: fxFrameSize,
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ArgsSize: twoArgArgsSize,
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Args: "dst []uint8, src []uint32",
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DstElemSize1: 1 * sizeOfUint8,
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DstElemSize4: 4 * sizeOfUint8,
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XMM3: fxXMM3,
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XMM4: fxXMM4,
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XMM5: fxXMM5,
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XMM6: opSrcXMM6,
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XMM8: opSrcXMM8,
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XMM9: opSrcXMM9,
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XMM10: opSrcXMM10,
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LoadArgs: twoArgLoadArgs,
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Setup: fxSetup,
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LoadXMMRegs: fxLoadXMMRegs + "\n" + opSrcLoadXMMRegs,
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Add: fxAdd,
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ClampAndScale: fxClampAndScale,
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ConvertToInt32: fxConvertToInt32,
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Store4: opSrcStore4,
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Store1: opSrcStore1,
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}, {
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LongName: "fixedAccumulateMask",
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ShortName: "fxAccMask",
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FrameSize: fxFrameSize,
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ArgsSize: oneArgArgsSize,
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Args: "buf []uint32",
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DstElemSize1: 1 * sizeOfUint32,
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DstElemSize4: 4 * sizeOfUint32,
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XMM3: fxXMM3,
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XMM4: fxXMM4,
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XMM5: fxXMM5,
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XMM6: maskXMM6,
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XMM8: maskXMM8,
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XMM9: maskXMM9,
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XMM10: maskXMM10,
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LoadArgs: oneArgLoadArgs,
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Setup: fxSetup,
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LoadXMMRegs: fxLoadXMMRegs + "\n" + maskLoadXMMRegs,
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Add: fxAdd,
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ClampAndScale: fxClampAndScale,
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ConvertToInt32: fxConvertToInt32,
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Store4: maskStore4,
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Store1: maskStore1,
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}, {
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LongName: "floatingAccumulateOpOver",
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ShortName: "flAccOpOver",
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FrameSize: flFrameSize,
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ArgsSize: twoArgArgsSize,
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Args: "dst []uint8, src []float32",
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DstElemSize1: 1 * sizeOfUint8,
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DstElemSize4: 4 * sizeOfUint8,
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XMM3: flXMM3,
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XMM4: flXMM4,
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XMM5: flXMM5,
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XMM6: opOverXMM6,
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XMM8: opOverXMM8,
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XMM9: opOverXMM9,
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XMM10: opOverXMM10,
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LoadArgs: twoArgLoadArgs,
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Setup: flSetup,
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LoadXMMRegs: flLoadXMMRegs + "\n" + opOverLoadXMMRegs,
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Add: flAdd,
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ClampAndScale: flClampAndScale,
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ConvertToInt32: flConvertToInt32,
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Store4: opOverStore4,
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Store1: opOverStore1,
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}, {
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LongName: "floatingAccumulateOpSrc",
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ShortName: "flAccOpSrc",
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FrameSize: flFrameSize,
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ArgsSize: twoArgArgsSize,
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Args: "dst []uint8, src []float32",
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DstElemSize1: 1 * sizeOfUint8,
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DstElemSize4: 4 * sizeOfUint8,
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XMM3: flXMM3,
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XMM4: flXMM4,
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XMM5: flXMM5,
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XMM6: opSrcXMM6,
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XMM8: opSrcXMM8,
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XMM9: opSrcXMM9,
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XMM10: opSrcXMM10,
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LoadArgs: twoArgLoadArgs,
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Setup: flSetup,
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LoadXMMRegs: flLoadXMMRegs + "\n" + opSrcLoadXMMRegs,
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Add: flAdd,
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ClampAndScale: flClampAndScale,
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ConvertToInt32: flConvertToInt32,
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Store4: opSrcStore4,
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Store1: opSrcStore1,
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}, {
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LongName: "floatingAccumulateMask",
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ShortName: "flAccMask",
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FrameSize: flFrameSize,
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ArgsSize: twoArgArgsSize,
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Args: "dst []uint32, src []float32",
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DstElemSize1: 1 * sizeOfUint32,
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DstElemSize4: 4 * sizeOfUint32,
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XMM3: flXMM3,
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XMM4: flXMM4,
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XMM5: flXMM5,
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XMM6: maskXMM6,
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XMM8: maskXMM8,
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XMM9: maskXMM9,
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XMM10: maskXMM10,
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LoadArgs: twoArgLoadArgs,
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Setup: flSetup,
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LoadXMMRegs: flLoadXMMRegs + "\n" + maskLoadXMMRegs,
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Add: flAdd,
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ClampAndScale: flClampAndScale,
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ConvertToInt32: flConvertToInt32,
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Store4: maskStore4,
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Store1: maskStore1,
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}}
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const (
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fxFrameSize = `0`
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flFrameSize = `8`
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oneArgArgsSize = `24`
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twoArgArgsSize = `48`
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sizeOfUint8 = 1
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sizeOfUint32 = 4
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fxXMM3 = `-`
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flXMM3 = `flAlmost65536`
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fxXMM4 = `-`
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flXMM4 = `flOne`
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fxXMM5 = `fxAlmost65536`
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flXMM5 = `flSignMask`
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oneArgLoadArgs = `
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MOVQ buf_base+0(FP), DI
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MOVQ buf_len+8(FP), BX
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MOVQ buf_base+0(FP), SI
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MOVQ buf_len+8(FP), R10
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`
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twoArgLoadArgs = `
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MOVQ dst_base+0(FP), DI
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MOVQ dst_len+8(FP), BX
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MOVQ src_base+24(FP), SI
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MOVQ src_len+32(FP), R10
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// Sanity check that len(dst) >= len(src).
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CMPQ BX, R10
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JLT {{.ShortName}}End
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`
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fxSetup = ``
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flSetup = `
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// Prepare to set MXCSR bits 13 and 14, so that the CVTPS2PL below is
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// "Round To Zero".
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STMXCSR mxcsrOrig-8(SP)
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MOVL mxcsrOrig-8(SP), AX
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ORL $0x6000, AX
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MOVL AX, mxcsrNew-4(SP)
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`
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fxLoadXMMRegs = `
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// fxAlmost65536 := XMM(0x0000ffff repeated four times) // Maximum of an uint16.
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MOVOU fxAlmost65536<>(SB), X5
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`
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flLoadXMMRegs = `
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// flAlmost65536 := XMM(0x477fffff repeated four times) // 255.99998 * 256 as a float32.
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// flOne := XMM(0x3f800000 repeated four times) // 1 as a float32.
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// flSignMask := XMM(0x7fffffff repeated four times) // All but the sign bit of a float32.
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MOVOU flAlmost65536<>(SB), X3
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MOVOU flOne<>(SB), X4
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MOVOU flSignMask<>(SB), X5
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`
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fxAdd = `PADDD`
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flAdd = `ADDPS`
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fxClampAndScale = `
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// y = abs(x)
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// y >>= 2 // Shift by 2*ϕ - 16.
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// y = min(y, fxAlmost65536)
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//
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// pabsd %xmm1,%xmm2
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// psrld $0x2,%xmm2
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// pminud %xmm5,%xmm2
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//
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// Hopefully we'll get these opcode mnemonics into the assembler for Go
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// 1.8. https://golang.org/issue/16007 isn't exactly the same thing, but
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// it's similar.
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BYTE $0x66; BYTE $0x0f; BYTE $0x38; BYTE $0x1e; BYTE $0xd1
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BYTE $0x66; BYTE $0x0f; BYTE $0x72; BYTE $0xd2; BYTE $0x02
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BYTE $0x66; BYTE $0x0f; BYTE $0x38; BYTE $0x3b; BYTE $0xd5
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`
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flClampAndScale = `
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// y = x & flSignMask
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// y = min(y, flOne)
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// y = mul(y, flAlmost65536)
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MOVOU X5, X2
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ANDPS X1, X2
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MINPS X4, X2
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MULPS X3, X2
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`
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fxConvertToInt32 = `
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// z = convertToInt32(y)
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// No-op.
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`
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flConvertToInt32 = `
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// z = convertToInt32(y)
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LDMXCSR mxcsrNew-4(SP)
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CVTPS2PL X2, X2
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LDMXCSR mxcsrOrig-8(SP)
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`
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opOverStore4 = `
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// Blend over the dst's prior value. SIMD for i in 0..3:
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//
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// dstA := uint32(dst[i]) * 0x101
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// maskA := z@i
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// outA := dstA*(0xffff-maskA)/0xffff + maskA
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// dst[i] = uint8(outA >> 8)
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//
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// First, set X0 to dstA*(0xfff-maskA).
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MOVL (DI), X0
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PSHUFB X8, X0
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MOVOU X9, X11
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PSUBL X2, X11
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PMULLD X11, X0
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// We implement uint32 division by 0xffff as multiplication by a magic
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// constant (0x800080001) and then a shift by a magic constant (47).
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// See TestDivideByFFFF for a justification.
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//
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// That multiplication widens from uint32 to uint64, so we have to
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// duplicate and shift our four uint32s from one XMM register (X0) to
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// two XMM registers (X0 and X11).
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//
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// Move the second and fourth uint32s in X0 to be the first and third
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// uint32s in X11.
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MOVOU X0, X11
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PSRLQ $32, X11
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// Multiply by magic, shift by magic.
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//
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// pmuludq %xmm10,%xmm0
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// pmuludq %xmm10,%xmm11
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BYTE $0x66; BYTE $0x41; BYTE $0x0f; BYTE $0xf4; BYTE $0xc2
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BYTE $0x66; BYTE $0x45; BYTE $0x0f; BYTE $0xf4; BYTE $0xda
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PSRLQ $47, X0
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PSRLQ $47, X11
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// Merge the two registers back to one, X11, and add maskA.
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PSLLQ $32, X11
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XORPS X0, X11
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PADDD X11, X2
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// As per opSrcStore4, shuffle and copy the 4 second-lowest bytes.
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PSHUFB X6, X2
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MOVL X2, (DI)
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`
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opSrcStore4 = `
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// z = shuffleTheSecondLowestBytesOfEach4ByteElement(z)
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// copy(dst[:4], low4BytesOf(z))
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PSHUFB X6, X2
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MOVL X2, (DI)
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`
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maskStore4 = `
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// copy(dst[:4], z)
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MOVOU X2, (DI)
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`
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opOverStore1 = `
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// Blend over the dst's prior value.
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//
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// dstA := uint32(dst[0]) * 0x101
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// maskA := z
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// outA := dstA*(0xffff-maskA)/0xffff + maskA
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// dst[0] = uint8(outA >> 8)
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MOVBLZX (DI), R12
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IMULL $0x101, R12
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MOVL X2, R13
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MOVL $0xffff, AX
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SUBL R13, AX
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MULL R12 // MULL's implicit arg is AX, and the result is stored in DX:AX.
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MOVL $0x80008001, BX // Divide by 0xffff is to first multiply by a magic constant...
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MULL BX // MULL's implicit arg is AX, and the result is stored in DX:AX.
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SHRL $15, DX // ...and then shift by another magic constant (47 - 32 = 15).
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ADDL DX, R13
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SHRL $8, R13
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MOVB R13, (DI)
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`
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opSrcStore1 = `
|
|
// dst[0] = uint8(z>>8)
|
|
MOVL X2, BX
|
|
SHRL $8, BX
|
|
MOVB BX, (DI)
|
|
`
|
|
maskStore1 = `
|
|
// dst[0] = uint32(z)
|
|
MOVL X2, (DI)
|
|
`
|
|
|
|
opOverXMM6 = `gather`
|
|
opSrcXMM6 = `gather`
|
|
maskXMM6 = `-`
|
|
|
|
opOverXMM8 = `scatterAndMulBy0x101`
|
|
opSrcXMM8 = `-`
|
|
maskXMM8 = `-`
|
|
|
|
opOverXMM9 = `fxAlmost65536`
|
|
opSrcXMM9 = `-`
|
|
maskXMM9 = `-`
|
|
|
|
opOverXMM10 = `inverseFFFF`
|
|
opSrcXMM10 = `-`
|
|
maskXMM10 = `-`
|
|
|
|
opOverLoadXMMRegs = `
|
|
// gather := XMM(see above) // PSHUFB shuffle mask.
|
|
// scatterAndMulBy0x101 := XMM(see above) // PSHUFB shuffle mask.
|
|
// fxAlmost65536 := XMM(0x0000ffff repeated four times) // 0xffff.
|
|
// inverseFFFF := XMM(0x80008001 repeated four times) // Magic constant for dividing by 0xffff.
|
|
MOVOU gather<>(SB), X6
|
|
MOVOU scatterAndMulBy0x101<>(SB), X8
|
|
MOVOU fxAlmost65536<>(SB), X9
|
|
MOVOU inverseFFFF<>(SB), X10
|
|
`
|
|
opSrcLoadXMMRegs = `
|
|
// gather := XMM(see above) // PSHUFB shuffle mask.
|
|
MOVOU gather<>(SB), X6
|
|
`
|
|
maskLoadXMMRegs = ``
|
|
)
|