mirror of
https://github.com/golang/go
synced 2024-11-18 11:14:39 -07:00
854e892ce1
Optimize combinations of left and right shifts by a constant value into a 'rotate then insert selected bits [into zero]' instruction. Use the same instruction for contiguous masks since it has some benefits over 'and immediate' (not restricted to 32-bits, does not overwrite source register). To keep the complexity of this change under control I've only implemented 64 bit operations for now. There are a lot more optimizations that can be done with this instruction family. However, since their function overlaps with other instructions we need to be somewhat careful not to break existing optimization rules by creating optimization dead ends. This is particularly true of the load/store merging rules which contain lots of zero extensions and shifts. This CL does interfere with the store merging rules when an operand is shifted left before it is stored: binary.BigEndian.PutUint64(b, x << 1) This is unfortunate but it's not critical and somewhat complex so I plan to fix that in a follow up CL. file before after Δ % addr2line 4117446 4117282 -164 -0.004% api 4945184 4942752 -2432 -0.049% asm 4998079 4991891 -6188 -0.124% buildid 2685158 2684074 -1084 -0.040% cgo 4553732 4553394 -338 -0.007% compile 19294446 19245070 -49376 -0.256% cover 4897105 4891319 -5786 -0.118% dist 3544389 3542785 -1604 -0.045% doc 3926795 3927617 +822 +0.021% fix 3302958 3293868 -9090 -0.275% link 6546274 6543456 -2818 -0.043% nm 4102021 4100825 -1196 -0.029% objdump 4542431 4548483 +6052 +0.133% pack 2482465 2416389 -66076 -2.662% pprof 13366541 13363915 -2626 -0.020% test2json 2829007 2761515 -67492 -2.386% trace 10216164 10219684 +3520 +0.034% vet 6773956 6773572 -384 -0.006% total 107124151 106917891 -206260 -0.193% Change-Id: I7591cce41e06867ba10a745daae9333513062746 Reviewed-on: https://go-review.googlesource.com/c/go/+/233317 Run-TryBot: Michael Munday <mike.munday@ibm.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Trust: Michael Munday <mike.munday@ibm.com>
742 lines
16 KiB
Go
742 lines
16 KiB
Go
// asmcheck
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// Copyright 2018 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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package codegen
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import "math/bits"
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// ----------------------- //
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// bits.LeadingZeros //
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// ----------------------- //
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func LeadingZeros(n uint) int {
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// amd64:"BSRQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.LeadingZeros(n)
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}
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func LeadingZeros64(n uint64) int {
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// amd64:"BSRQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.LeadingZeros64(n)
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}
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func LeadingZeros32(n uint32) int {
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// amd64:"BSRQ","LEAQ",-"CMOVQEQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZW"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.LeadingZeros32(n)
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}
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func LeadingZeros16(n uint16) int {
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// amd64:"BSRL","LEAL",-"CMOVQEQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.LeadingZeros16(n)
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}
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func LeadingZeros8(n uint8) int {
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// amd64:"BSRL","LEAL",-"CMOVQEQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.LeadingZeros8(n)
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}
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// --------------- //
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// bits.Len* //
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// --------------- //
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func Len(n uint) int {
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// amd64:"BSRQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.Len(n)
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}
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func Len64(n uint64) int {
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// amd64:"BSRQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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// ppc64le:"SUBC","CNTLZD"
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// ppc64:"SUBC","CNTLZD"
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return bits.Len64(n)
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}
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func SubFromLen64(n uint64) int {
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// ppc64le:"CNTLZD",-"SUBC"
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// ppc64:"CNTLZD",-"SUBC"
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return 64 - bits.Len64(n)
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}
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func Len32(n uint32) int {
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// amd64:"BSRQ","LEAQ",-"CMOVQEQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.Len32(n)
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}
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func Len16(n uint16) int {
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// amd64:"BSRL","LEAL",-"CMOVQEQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.Len16(n)
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}
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func Len8(n uint8) int {
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// amd64:"BSRL","LEAL",-"CMOVQEQ"
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// s390x:"FLOGR"
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// arm:"CLZ" arm64:"CLZ"
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// mips:"CLZ"
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// wasm:"I64Clz"
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return bits.Len8(n)
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}
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// -------------------- //
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// bits.OnesCount //
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// -------------------- //
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// amd64:".*x86HasPOPCNT"
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func OnesCount(n uint) int {
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// amd64:"POPCNTQ"
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// arm64:"VCNT","VUADDLV"
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// s390x:"POPCNT"
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// ppc64:"POPCNTD"
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// ppc64le:"POPCNTD"
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// wasm:"I64Popcnt"
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return bits.OnesCount(n)
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}
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// amd64:".*x86HasPOPCNT"
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func OnesCount64(n uint64) int {
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// amd64:"POPCNTQ"
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// arm64:"VCNT","VUADDLV"
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// s390x:"POPCNT"
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// ppc64:"POPCNTD"
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// ppc64le:"POPCNTD"
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// wasm:"I64Popcnt"
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return bits.OnesCount64(n)
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}
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// amd64:".*x86HasPOPCNT"
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func OnesCount32(n uint32) int {
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// amd64:"POPCNTL"
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// arm64:"VCNT","VUADDLV"
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// s390x:"POPCNT"
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// ppc64:"POPCNTW"
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// ppc64le:"POPCNTW"
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// wasm:"I64Popcnt"
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return bits.OnesCount32(n)
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}
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// amd64:".*x86HasPOPCNT"
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func OnesCount16(n uint16) int {
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// amd64:"POPCNTL"
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// arm64:"VCNT","VUADDLV"
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// s390x:"POPCNT"
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// ppc64:"POPCNTW"
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// ppc64le:"POPCNTW"
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// wasm:"I64Popcnt"
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return bits.OnesCount16(n)
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}
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func OnesCount8(n uint8) int {
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// s390x:"POPCNT"
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// ppc64:"POPCNTB"
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// ppc64le:"POPCNTB"
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// wasm:"I64Popcnt"
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return bits.OnesCount8(n)
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}
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// ----------------------- //
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// bits.ReverseBytes //
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// ----------------------- //
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func ReverseBytes(n uint) uint {
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// amd64:"BSWAPQ"
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// s390x:"MOVDBR"
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// arm64:"REV"
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return bits.ReverseBytes(n)
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}
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func ReverseBytes64(n uint64) uint64 {
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// amd64:"BSWAPQ"
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// s390x:"MOVDBR"
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// arm64:"REV"
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return bits.ReverseBytes64(n)
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}
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func ReverseBytes32(n uint32) uint32 {
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// amd64:"BSWAPL"
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// s390x:"MOVWBR"
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// arm64:"REVW"
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return bits.ReverseBytes32(n)
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}
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func ReverseBytes16(n uint16) uint16 {
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// amd64:"ROLW"
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// arm64:"REV16W",-"UBFX",-"ORR"
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// arm/5:"SLL","SRL","ORR"
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// arm/6:"REV16"
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// arm/7:"REV16"
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return bits.ReverseBytes16(n)
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}
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// --------------------- //
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// bits.RotateLeft //
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// --------------------- //
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func RotateLeft64(n uint64) uint64 {
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// amd64:"ROLQ"
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// arm64:"ROR"
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// ppc64:"ROTL"
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// ppc64le:"ROTL"
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// s390x:"RISBGZ\t[$]0, [$]63, [$]37, "
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// wasm:"I64Rotl"
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return bits.RotateLeft64(n, 37)
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}
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func RotateLeft32(n uint32) uint32 {
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// amd64:"ROLL" 386:"ROLL"
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// arm:`MOVW\tR[0-9]+@>23`
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// arm64:"RORW"
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// ppc64:"ROTLW"
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// ppc64le:"ROTLW"
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// s390x:"RLL"
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// wasm:"I32Rotl"
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return bits.RotateLeft32(n, 9)
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}
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func RotateLeft16(n uint16) uint16 {
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// amd64:"ROLW" 386:"ROLW"
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return bits.RotateLeft16(n, 5)
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}
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func RotateLeft8(n uint8) uint8 {
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// amd64:"ROLB" 386:"ROLB"
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return bits.RotateLeft8(n, 5)
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}
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func RotateLeftVariable(n uint, m int) uint {
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// amd64:"ROLQ"
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// arm64:"ROR"
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// ppc64:"ROTL"
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// ppc64le:"ROTL"
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// s390x:"RLLG"
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// wasm:"I64Rotl"
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return bits.RotateLeft(n, m)
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}
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func RotateLeftVariable64(n uint64, m int) uint64 {
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// amd64:"ROLQ"
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// arm64:"ROR"
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// ppc64:"ROTL"
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// ppc64le:"ROTL"
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// s390x:"RLLG"
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// wasm:"I64Rotl"
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return bits.RotateLeft64(n, m)
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}
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func RotateLeftVariable32(n uint32, m int) uint32 {
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// arm:`MOVW\tR[0-9]+@>R[0-9]+`
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// amd64:"ROLL"
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// arm64:"RORW"
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// ppc64:"ROTLW"
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// ppc64le:"ROTLW"
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// s390x:"RLL"
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// wasm:"I32Rotl"
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return bits.RotateLeft32(n, m)
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}
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// ------------------------ //
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// bits.TrailingZeros //
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// ------------------------ //
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func TrailingZeros(n uint) int {
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// amd64:"BSFQ","MOVL\t\\$64","CMOVQEQ"
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// arm:"CLZ"
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// arm64:"RBIT","CLZ"
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// s390x:"FLOGR"
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// ppc64/power8:"ANDN","POPCNTD"
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// ppc64le/power8:"ANDN","POPCNTD"
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// ppc64/power9: "CNTTZD"
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// ppc64le/power9: "CNTTZD"
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// wasm:"I64Ctz"
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return bits.TrailingZeros(n)
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}
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func TrailingZeros64(n uint64) int {
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// amd64:"BSFQ","MOVL\t\\$64","CMOVQEQ"
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// arm64:"RBIT","CLZ"
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// s390x:"FLOGR"
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// ppc64/power8:"ANDN","POPCNTD"
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// ppc64le/power8:"ANDN","POPCNTD"
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// ppc64/power9: "CNTTZD"
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// ppc64le/power9: "CNTTZD"
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// wasm:"I64Ctz"
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return bits.TrailingZeros64(n)
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}
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func TrailingZeros64Subtract(n uint64) int {
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// ppc64le/power8:"NEG","SUBC","ANDN","POPCNTD"
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// ppc64le/power9:"SUBC","CNTTZD"
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return bits.TrailingZeros64(1 - n)
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}
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func TrailingZeros32(n uint32) int {
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// amd64:"BTSQ\\t\\$32","BSFQ"
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// arm:"CLZ"
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// arm64:"RBITW","CLZW"
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// s390x:"FLOGR","MOVWZ"
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// ppc64/power8:"ANDN","POPCNTW"
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// ppc64le/power8:"ANDN","POPCNTW"
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// ppc64/power9: "CNTTZW"
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// ppc64le/power9: "CNTTZW"
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// wasm:"I64Ctz"
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return bits.TrailingZeros32(n)
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}
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func TrailingZeros16(n uint16) int {
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// amd64:"BSFL","BTSL\\t\\$16"
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// 386:"BSFL\t"
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// arm:"ORR\t\\$65536","CLZ",-"MOVHU\tR"
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// arm64:"ORR\t\\$65536","RBITW","CLZW",-"MOVHU\tR",-"RBIT\t",-"CLZ\t"
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// s390x:"FLOGR","OR\t\\$65536"
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// ppc64/power8:"POPCNTD","OR\\t\\$65536"
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// ppc64le/power8:"POPCNTD","OR\\t\\$65536"
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// ppc64/power9:"CNTTZD","OR\\t\\$65536"
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// ppc64le/power9:"CNTTZD","OR\\t\\$65536"
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// wasm:"I64Ctz"
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return bits.TrailingZeros16(n)
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}
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func TrailingZeros8(n uint8) int {
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// amd64:"BSFL","BTSL\\t\\$8"
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// arm:"ORR\t\\$256","CLZ",-"MOVBU\tR"
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// arm64:"ORR\t\\$256","RBITW","CLZW",-"MOVBU\tR",-"RBIT\t",-"CLZ\t"
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// s390x:"FLOGR","OR\t\\$256"
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// wasm:"I64Ctz"
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return bits.TrailingZeros8(n)
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}
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// IterateBitsNN checks special handling of TrailingZerosNN when the input is known to be non-zero.
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func IterateBits(n uint) int {
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i := 0
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for n != 0 {
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// amd64:"BSFQ",-"CMOVEQ"
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i += bits.TrailingZeros(n)
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n &= n - 1
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}
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return i
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}
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func IterateBits64(n uint64) int {
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i := 0
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for n != 0 {
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// amd64:"BSFQ",-"CMOVEQ"
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i += bits.TrailingZeros64(n)
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n &= n - 1
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}
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return i
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}
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func IterateBits32(n uint32) int {
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i := 0
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for n != 0 {
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// amd64:"BSFL",-"BTSQ"
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i += bits.TrailingZeros32(n)
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n &= n - 1
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}
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return i
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}
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func IterateBits16(n uint16) int {
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i := 0
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for n != 0 {
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// amd64:"BSFL",-"BTSL"
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// arm64:"RBITW","CLZW",-"ORR"
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i += bits.TrailingZeros16(n)
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n &= n - 1
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}
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return i
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}
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func IterateBits8(n uint8) int {
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i := 0
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for n != 0 {
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// amd64:"BSFL",-"BTSL"
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// arm64:"RBITW","CLZW",-"ORR"
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i += bits.TrailingZeros8(n)
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n &= n - 1
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}
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return i
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}
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// --------------- //
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// bits.Add* //
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// --------------- //
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func Add(x, y, ci uint) (r, co uint) {
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// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
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// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
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// s390x:"ADDE","ADDC\t[$]-1,"
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return bits.Add(x, y, ci)
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}
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func AddC(x, ci uint) (r, co uint) {
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// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
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// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
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// s390x:"ADDE","ADDC\t[$]-1,"
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return bits.Add(x, 7, ci)
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}
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func AddZ(x, y uint) (r, co uint) {
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// arm64:"ADDS","ADC",-"ADCS",-"ADD\t",-"CMP"
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// amd64:"ADDQ","SBBQ","NEGQ",-"NEGL",-"ADCQ"
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// s390x:"ADDC",-"ADDC\t[$]-1,"
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return bits.Add(x, y, 0)
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}
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func AddR(x, y, ci uint) uint {
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// arm64:"ADDS","ADCS",-"ADD\t",-"CMP"
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// amd64:"NEGL","ADCQ",-"SBBQ",-"NEGQ"
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// s390x:"ADDE","ADDC\t[$]-1,"
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r, _ := bits.Add(x, y, ci)
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return r
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}
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func AddM(p, q, r *[3]uint) {
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var c uint
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r[0], c = bits.Add(p[0], q[0], c)
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// arm64:"ADCS",-"ADD\t",-"CMP"
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// amd64:"ADCQ",-"NEGL",-"SBBQ",-"NEGQ"
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// s390x:"ADDE",-"ADDC\t[$]-1,"
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r[1], c = bits.Add(p[1], q[1], c)
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r[2], c = bits.Add(p[2], q[2], c)
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}
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func Add64(x, y, ci uint64) (r, co uint64) {
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// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
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// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
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// ppc64: "ADDC", "ADDE", "ADDZE"
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// ppc64le: "ADDC", "ADDE", "ADDZE"
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// s390x:"ADDE","ADDC\t[$]-1,"
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return bits.Add64(x, y, ci)
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}
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func Add64C(x, ci uint64) (r, co uint64) {
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// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
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// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
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|
// ppc64: "ADDC", "ADDE", "ADDZE"
|
|
// ppc64le: "ADDC", "ADDE", "ADDZE"
|
|
// s390x:"ADDE","ADDC\t[$]-1,"
|
|
return bits.Add64(x, 7, ci)
|
|
}
|
|
|
|
func Add64Z(x, y uint64) (r, co uint64) {
|
|
// arm64:"ADDS","ADC",-"ADCS",-"ADD\t",-"CMP"
|
|
// amd64:"ADDQ","SBBQ","NEGQ",-"NEGL",-"ADCQ"
|
|
// ppc64: "ADDC", "ADDE", "ADDZE"
|
|
// ppc64le: "ADDC", "ADDE", "ADDZE"
|
|
// s390x:"ADDC",-"ADDC\t[$]-1,"
|
|
return bits.Add64(x, y, 0)
|
|
}
|
|
|
|
func Add64R(x, y, ci uint64) uint64 {
|
|
// arm64:"ADDS","ADCS",-"ADD\t",-"CMP"
|
|
// amd64:"NEGL","ADCQ",-"SBBQ",-"NEGQ"
|
|
// ppc64: "ADDC", "ADDE", "ADDZE"
|
|
// ppc64le: "ADDC", "ADDE", "ADDZE"
|
|
// s390x:"ADDE","ADDC\t[$]-1,"
|
|
r, _ := bits.Add64(x, y, ci)
|
|
return r
|
|
}
|
|
func Add64M(p, q, r *[3]uint64) {
|
|
var c uint64
|
|
r[0], c = bits.Add64(p[0], q[0], c)
|
|
// arm64:"ADCS",-"ADD\t",-"CMP"
|
|
// amd64:"ADCQ",-"NEGL",-"SBBQ",-"NEGQ"
|
|
// ppc64: "ADDC", "ADDE", "ADDZE"
|
|
// ppc64le: "ADDC", "ADDE", "ADDZE"
|
|
// s390x:"ADDE",-"ADDC\t[$]-1,"
|
|
r[1], c = bits.Add64(p[1], q[1], c)
|
|
r[2], c = bits.Add64(p[2], q[2], c)
|
|
}
|
|
|
|
func Add64PanicOnOverflowEQ(a, b uint64) uint64 {
|
|
r, c := bits.Add64(a, b, 0)
|
|
// s390x:"BRC\t[$]3,",-"ADDE"
|
|
if c == 1 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Add64PanicOnOverflowNE(a, b uint64) uint64 {
|
|
r, c := bits.Add64(a, b, 0)
|
|
// s390x:"BRC\t[$]3,",-"ADDE"
|
|
if c != 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Add64PanicOnOverflowGT(a, b uint64) uint64 {
|
|
r, c := bits.Add64(a, b, 0)
|
|
// s390x:"BRC\t[$]3,",-"ADDE"
|
|
if c > 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Add64MPanicOnOverflowEQ(a, b [2]uint64) [2]uint64 {
|
|
var r [2]uint64
|
|
var c uint64
|
|
r[0], c = bits.Add64(a[0], b[0], c)
|
|
r[1], c = bits.Add64(a[1], b[1], c)
|
|
// s390x:"BRC\t[$]3,"
|
|
if c == 1 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Add64MPanicOnOverflowNE(a, b [2]uint64) [2]uint64 {
|
|
var r [2]uint64
|
|
var c uint64
|
|
r[0], c = bits.Add64(a[0], b[0], c)
|
|
r[1], c = bits.Add64(a[1], b[1], c)
|
|
// s390x:"BRC\t[$]3,"
|
|
if c != 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Add64MPanicOnOverflowGT(a, b [2]uint64) [2]uint64 {
|
|
var r [2]uint64
|
|
var c uint64
|
|
r[0], c = bits.Add64(a[0], b[0], c)
|
|
r[1], c = bits.Add64(a[1], b[1], c)
|
|
// s390x:"BRC\t[$]3,"
|
|
if c > 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
// --------------- //
|
|
// bits.Sub* //
|
|
// --------------- //
|
|
|
|
func Sub(x, y, ci uint) (r, co uint) {
|
|
// amd64:"NEGL","SBBQ","NEGQ"
|
|
// arm64:"NEGS","SBCS","NGC","NEG",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
return bits.Sub(x, y, ci)
|
|
}
|
|
|
|
func SubC(x, ci uint) (r, co uint) {
|
|
// amd64:"NEGL","SBBQ","NEGQ"
|
|
// arm64:"NEGS","SBCS","NGC","NEG",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
return bits.Sub(x, 7, ci)
|
|
}
|
|
|
|
func SubZ(x, y uint) (r, co uint) {
|
|
// amd64:"SUBQ","SBBQ","NEGQ",-"NEGL"
|
|
// arm64:"SUBS","NGC","NEG",-"SBCS",-"ADD",-"SUB\t",-"CMP"
|
|
// s390x:"SUBC"
|
|
return bits.Sub(x, y, 0)
|
|
}
|
|
|
|
func SubR(x, y, ci uint) uint {
|
|
// amd64:"NEGL","SBBQ",-"NEGQ"
|
|
// arm64:"NEGS","SBCS",-"NGC",-"NEG\t",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
r, _ := bits.Sub(x, y, ci)
|
|
return r
|
|
}
|
|
func SubM(p, q, r *[3]uint) {
|
|
var c uint
|
|
r[0], c = bits.Sub(p[0], q[0], c)
|
|
// amd64:"SBBQ",-"NEGL",-"NEGQ"
|
|
// arm64:"SBCS",-"NEGS",-"NGC",-"NEG",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
r[1], c = bits.Sub(p[1], q[1], c)
|
|
r[2], c = bits.Sub(p[2], q[2], c)
|
|
}
|
|
|
|
func Sub64(x, y, ci uint64) (r, co uint64) {
|
|
// amd64:"NEGL","SBBQ","NEGQ"
|
|
// arm64:"NEGS","SBCS","NGC","NEG",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
return bits.Sub64(x, y, ci)
|
|
}
|
|
|
|
func Sub64C(x, ci uint64) (r, co uint64) {
|
|
// amd64:"NEGL","SBBQ","NEGQ"
|
|
// arm64:"NEGS","SBCS","NGC","NEG",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
return bits.Sub64(x, 7, ci)
|
|
}
|
|
|
|
func Sub64Z(x, y uint64) (r, co uint64) {
|
|
// amd64:"SUBQ","SBBQ","NEGQ",-"NEGL"
|
|
// arm64:"SUBS","NGC","NEG",-"SBCS",-"ADD",-"SUB\t",-"CMP"
|
|
// s390x:"SUBC"
|
|
return bits.Sub64(x, y, 0)
|
|
}
|
|
|
|
func Sub64R(x, y, ci uint64) uint64 {
|
|
// amd64:"NEGL","SBBQ",-"NEGQ"
|
|
// arm64:"NEGS","SBCS",-"NGC",-"NEG\t",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
r, _ := bits.Sub64(x, y, ci)
|
|
return r
|
|
}
|
|
func Sub64M(p, q, r *[3]uint64) {
|
|
var c uint64
|
|
r[0], c = bits.Sub64(p[0], q[0], c)
|
|
// amd64:"SBBQ",-"NEGL",-"NEGQ"
|
|
// arm64:"SBCS",-"NEGS",-"NGC",-"NEG",-"ADD",-"SUB",-"CMP"
|
|
// s390x:"SUBE"
|
|
r[1], c = bits.Sub64(p[1], q[1], c)
|
|
r[2], c = bits.Sub64(p[2], q[2], c)
|
|
}
|
|
|
|
func Sub64PanicOnOverflowEQ(a, b uint64) uint64 {
|
|
r, b := bits.Sub64(a, b, 0)
|
|
// s390x:"BRC\t[$]12,",-"ADDE",-"SUBE"
|
|
if b == 1 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Sub64PanicOnOverflowNE(a, b uint64) uint64 {
|
|
r, b := bits.Sub64(a, b, 0)
|
|
// s390x:"BRC\t[$]12,",-"ADDE",-"SUBE"
|
|
if b != 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Sub64PanicOnOverflowGT(a, b uint64) uint64 {
|
|
r, b := bits.Sub64(a, b, 0)
|
|
// s390x:"BRC\t[$]12,",-"ADDE",-"SUBE"
|
|
if b > 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Sub64MPanicOnOverflowEQ(a, b [2]uint64) [2]uint64 {
|
|
var r [2]uint64
|
|
var c uint64
|
|
r[0], c = bits.Sub64(a[0], b[0], c)
|
|
r[1], c = bits.Sub64(a[1], b[1], c)
|
|
// s390x:"BRC\t[$]12,"
|
|
if c == 1 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Sub64MPanicOnOverflowNE(a, b [2]uint64) [2]uint64 {
|
|
var r [2]uint64
|
|
var c uint64
|
|
r[0], c = bits.Sub64(a[0], b[0], c)
|
|
r[1], c = bits.Sub64(a[1], b[1], c)
|
|
// s390x:"BRC\t[$]12,"
|
|
if c != 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
func Sub64MPanicOnOverflowGT(a, b [2]uint64) [2]uint64 {
|
|
var r [2]uint64
|
|
var c uint64
|
|
r[0], c = bits.Sub64(a[0], b[0], c)
|
|
r[1], c = bits.Sub64(a[1], b[1], c)
|
|
// s390x:"BRC\t[$]12,"
|
|
if c > 0 {
|
|
panic("overflow")
|
|
}
|
|
return r
|
|
}
|
|
|
|
// --------------- //
|
|
// bits.Mul* //
|
|
// --------------- //
|
|
|
|
func Mul(x, y uint) (hi, lo uint) {
|
|
// amd64:"MULQ"
|
|
// arm64:"UMULH","MUL"
|
|
// ppc64:"MULHDU","MULLD"
|
|
// ppc64le:"MULHDU","MULLD"
|
|
// s390x:"MLGR"
|
|
// mips64: "MULVU"
|
|
return bits.Mul(x, y)
|
|
}
|
|
|
|
func Mul64(x, y uint64) (hi, lo uint64) {
|
|
// amd64:"MULQ"
|
|
// arm64:"UMULH","MUL"
|
|
// ppc64:"MULHDU","MULLD"
|
|
// ppc64le:"MULHDU","MULLD"
|
|
// s390x:"MLGR"
|
|
// mips64: "MULVU"
|
|
return bits.Mul64(x, y)
|
|
}
|
|
|
|
// --------------- //
|
|
// bits.Div* //
|
|
// --------------- //
|
|
|
|
func Div(hi, lo, x uint) (q, r uint) {
|
|
// amd64:"DIVQ"
|
|
return bits.Div(hi, lo, x)
|
|
}
|
|
|
|
func Div32(hi, lo, x uint32) (q, r uint32) {
|
|
// arm64:"ORR","UDIV","MSUB",-"UREM"
|
|
return bits.Div32(hi, lo, x)
|
|
}
|
|
|
|
func Div64(hi, lo, x uint64) (q, r uint64) {
|
|
// amd64:"DIVQ"
|
|
return bits.Div64(hi, lo, x)
|
|
}
|
|
|
|
func Div64degenerate(x uint64) (q, r uint64) {
|
|
// amd64:-"DIVQ"
|
|
return bits.Div64(0, x, 5)
|
|
}
|