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go/test/codegen/mathbits.go
Wayne Zuo cedfcba3e8 cmd/compile: instrinsify TrailingZeros{8,32,64} for 386
This CL add support for instrinsifying the TrialingZeros{8,32,64}
functions for 386 architecture. We need handle the case when the input
is 0, which could lead to undefined output from the BSFL instruction.

Next CL will remove the assembly code in runtime/internal/sys package.

Change-Id: Ic168edf68e81bf69a536102100fdd3f56f0f4a1b
Reviewed-on: https://go-review.googlesource.com/c/go/+/475735
Reviewed-by: Keith Randall <khr@golang.org>
Reviewed-by: Keith Randall <khr@google.com>
Reviewed-by: Cherry Mui <cherryyz@google.com>
Run-TryBot: Wayne Zuo <wdvxdr@golangcn.org>
TryBot-Result: Gopher Robot <gobot@golang.org>
2023-03-14 08:10:32 +00:00

857 lines
19 KiB
Go

// asmcheck
// Copyright 2018 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package codegen
import "math/bits"
// ----------------------- //
// bits.LeadingZeros //
// ----------------------- //
func LeadingZeros(n uint) int {
// amd64/v1,amd64/v2:"BSRQ"
// amd64/v3:"LZCNTQ", -"BSRQ"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"CNTLZD"
return bits.LeadingZeros(n)
}
func LeadingZeros64(n uint64) int {
// amd64/v1,amd64/v2:"BSRQ"
// amd64/v3:"LZCNTQ", -"BSRQ"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"CNTLZD"
return bits.LeadingZeros64(n)
}
func LeadingZeros32(n uint32) int {
// amd64/v1,amd64/v2:"BSRQ","LEAQ",-"CMOVQEQ"
// amd64/v3: "LZCNTL",- "BSRL"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZW"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"CNTLZW"
return bits.LeadingZeros32(n)
}
func LeadingZeros16(n uint16) int {
// amd64/v1,amd64/v2:"BSRL","LEAL",-"CMOVQEQ"
// amd64/v3: "LZCNTL",- "BSRL"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"CNTLZD"
return bits.LeadingZeros16(n)
}
func LeadingZeros8(n uint8) int {
// amd64/v1,amd64/v2:"BSRL","LEAL",-"CMOVQEQ"
// amd64/v3: "LZCNTL",- "BSRL"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"CNTLZD"
return bits.LeadingZeros8(n)
}
// --------------- //
// bits.Len* //
// --------------- //
func Len(n uint) int {
// amd64/v1,amd64/v2:"BSRQ"
// amd64/v3: "LZCNTQ"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"SUBC","CNTLZD"
return bits.Len(n)
}
func Len64(n uint64) int {
// amd64/v1,amd64/v2:"BSRQ"
// amd64/v3: "LZCNTQ"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"SUBC","CNTLZD"
return bits.Len64(n)
}
func SubFromLen64(n uint64) int {
// ppc64x:"CNTLZD",-"SUBC"
return 64 - bits.Len64(n)
}
func Len32(n uint32) int {
// amd64/v1,amd64/v2:"BSRQ","LEAQ",-"CMOVQEQ"
// amd64/v3: "LZCNTL"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x: "CNTLZW"
return bits.Len32(n)
}
func Len16(n uint16) int {
// amd64/v1,amd64/v2:"BSRL","LEAL",-"CMOVQEQ"
// amd64/v3: "LZCNTL"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"SUBC","CNTLZD"
return bits.Len16(n)
}
func Len8(n uint8) int {
// amd64/v1,amd64/v2:"BSRL","LEAL",-"CMOVQEQ"
// amd64/v3: "LZCNTL"
// s390x:"FLOGR"
// arm:"CLZ" arm64:"CLZ"
// mips:"CLZ"
// wasm:"I64Clz"
// ppc64x:"SUBC","CNTLZD"
return bits.Len8(n)
}
// -------------------- //
// bits.OnesCount //
// -------------------- //
// TODO(register args) Restore a m d 6 4 / v 1 :.*x86HasPOPCNT when only one ABI is tested.
func OnesCount(n uint) int {
// amd64/v2:-".*x86HasPOPCNT" amd64/v3:-".*x86HasPOPCNT"
// amd64:"POPCNTQ"
// arm64:"VCNT","VUADDLV"
// s390x:"POPCNT"
// ppc64x:"POPCNTD"
// wasm:"I64Popcnt"
return bits.OnesCount(n)
}
func OnesCount64(n uint64) int {
// amd64/v2:-".*x86HasPOPCNT" amd64/v3:-".*x86HasPOPCNT"
// amd64:"POPCNTQ"
// arm64:"VCNT","VUADDLV"
// s390x:"POPCNT"
// ppc64x:"POPCNTD"
// wasm:"I64Popcnt"
return bits.OnesCount64(n)
}
func OnesCount32(n uint32) int {
// amd64/v2:-".*x86HasPOPCNT" amd64/v3:-".*x86HasPOPCNT"
// amd64:"POPCNTL"
// arm64:"VCNT","VUADDLV"
// s390x:"POPCNT"
// ppc64x:"POPCNTW"
// wasm:"I64Popcnt"
return bits.OnesCount32(n)
}
func OnesCount16(n uint16) int {
// amd64/v2:-".*x86HasPOPCNT" amd64/v3:-".*x86HasPOPCNT"
// amd64:"POPCNTL"
// arm64:"VCNT","VUADDLV"
// s390x:"POPCNT"
// ppc64x:"POPCNTW"
// wasm:"I64Popcnt"
return bits.OnesCount16(n)
}
func OnesCount8(n uint8) int {
// s390x:"POPCNT"
// ppc64x:"POPCNTB"
// wasm:"I64Popcnt"
return bits.OnesCount8(n)
}
// ----------------------- //
// bits.ReverseBytes //
// ----------------------- //
func ReverseBytes(n uint) uint {
// amd64:"BSWAPQ"
// 386:"BSWAPL"
// s390x:"MOVDBR"
// arm64:"REV"
return bits.ReverseBytes(n)
}
func ReverseBytes64(n uint64) uint64 {
// amd64:"BSWAPQ"
// 386:"BSWAPL"
// s390x:"MOVDBR"
// arm64:"REV"
// ppc64x/power10: "BRD"
return bits.ReverseBytes64(n)
}
func ReverseBytes32(n uint32) uint32 {
// amd64:"BSWAPL"
// 386:"BSWAPL"
// s390x:"MOVWBR"
// arm64:"REVW"
// ppc64x/power10: "BRW"
return bits.ReverseBytes32(n)
}
func ReverseBytes16(n uint16) uint16 {
// amd64:"ROLW"
// arm64:"REV16W",-"UBFX",-"ORR"
// arm/5:"SLL","SRL","ORR"
// arm/6:"REV16"
// arm/7:"REV16"
// ppc64x/power10: "BRH"
return bits.ReverseBytes16(n)
}
// --------------------- //
// bits.RotateLeft //
// --------------------- //
func RotateLeft64(n uint64) uint64 {
// amd64:"ROLQ"
// arm64:"ROR"
// ppc64x:"ROTL"
// s390x:"RISBGZ\t[$]0, [$]63, [$]37, "
// wasm:"I64Rotl"
return bits.RotateLeft64(n, 37)
}
func RotateLeft32(n uint32) uint32 {
// amd64:"ROLL" 386:"ROLL"
// arm:`MOVW\tR[0-9]+@>23`
// arm64:"RORW"
// ppc64x:"ROTLW"
// s390x:"RLL"
// wasm:"I32Rotl"
return bits.RotateLeft32(n, 9)
}
func RotateLeft16(n uint16, s int) uint16 {
// amd64:"ROLW" 386:"ROLW"
// arm64:"RORW",-"CSEL"
return bits.RotateLeft16(n, s)
}
func RotateLeft8(n uint8, s int) uint8 {
// amd64:"ROLB" 386:"ROLB"
// arm64:"LSL","LSR",-"CSEL"
return bits.RotateLeft8(n, s)
}
func RotateLeftVariable(n uint, m int) uint {
// amd64:"ROLQ"
// arm64:"ROR"
// ppc64x:"ROTL"
// s390x:"RLLG"
// wasm:"I64Rotl"
return bits.RotateLeft(n, m)
}
func RotateLeftVariable64(n uint64, m int) uint64 {
// amd64:"ROLQ"
// arm64:"ROR"
// ppc64x:"ROTL"
// s390x:"RLLG"
// wasm:"I64Rotl"
return bits.RotateLeft64(n, m)
}
func RotateLeftVariable32(n uint32, m int) uint32 {
// arm:`MOVW\tR[0-9]+@>R[0-9]+`
// amd64:"ROLL"
// arm64:"RORW"
// ppc64x:"ROTLW"
// s390x:"RLL"
// wasm:"I32Rotl"
return bits.RotateLeft32(n, m)
}
// ------------------------ //
// bits.TrailingZeros //
// ------------------------ //
func TrailingZeros(n uint) int {
// amd64/v1,amd64/v2:"BSFQ","MOVL\t\\$64","CMOVQEQ"
// amd64/v3:"TZCNTQ"
// 386:"BSFL"
// arm:"CLZ"
// arm64:"RBIT","CLZ"
// s390x:"FLOGR"
// ppc64x/power8:"ANDN","POPCNTD"
// ppc64x/power9: "CNTTZD"
// wasm:"I64Ctz"
return bits.TrailingZeros(n)
}
func TrailingZeros64(n uint64) int {
// amd64/v1,amd64/v2:"BSFQ","MOVL\t\\$64","CMOVQEQ"
// amd64/v3:"TZCNTQ"
// 386:"BSFL"
// arm64:"RBIT","CLZ"
// s390x:"FLOGR"
// ppc64x/power8:"ANDN","POPCNTD"
// ppc64x/power9: "CNTTZD"
// wasm:"I64Ctz"
return bits.TrailingZeros64(n)
}
func TrailingZeros64Subtract(n uint64) int {
// ppc64x/power8:"NEG","SUBC","ANDN","POPCNTD"
// ppc64x/power9:"SUBC","CNTTZD"
return bits.TrailingZeros64(1 - n)
}
func TrailingZeros32(n uint32) int {
// amd64/v1,amd64/v2:"BTSQ\\t\\$32","BSFQ"
// amd64/v3:"TZCNTL"
// 386:"BSFL"
// arm:"CLZ"
// arm64:"RBITW","CLZW"
// s390x:"FLOGR","MOVWZ"
// ppc64x/power8:"ANDN","POPCNTW"
// ppc64x/power9: "CNTTZW"
// wasm:"I64Ctz"
return bits.TrailingZeros32(n)
}
func TrailingZeros16(n uint16) int {
// amd64:"BSFL","BTSL\\t\\$16"
// 386:"BSFL\t"
// arm:"ORR\t\\$65536","CLZ",-"MOVHU\tR"
// arm64:"ORR\t\\$65536","RBITW","CLZW",-"MOVHU\tR",-"RBIT\t",-"CLZ\t"
// s390x:"FLOGR","OR\t\\$65536"
// ppc64x/power8:"POPCNTD","OR\\t\\$65536"
// ppc64x/power9:"CNTTZD","OR\\t\\$65536"
// wasm:"I64Ctz"
return bits.TrailingZeros16(n)
}
func TrailingZeros8(n uint8) int {
// amd64:"BSFL","BTSL\\t\\$8"
// 386:"BSFL"
// arm:"ORR\t\\$256","CLZ",-"MOVBU\tR"
// arm64:"ORR\t\\$256","RBITW","CLZW",-"MOVBU\tR",-"RBIT\t",-"CLZ\t"
// s390x:"FLOGR","OR\t\\$256"
// wasm:"I64Ctz"
return bits.TrailingZeros8(n)
}
// IterateBitsNN checks special handling of TrailingZerosNN when the input is known to be non-zero.
func IterateBits(n uint) int {
i := 0
for n != 0 {
// amd64/v1,amd64/v2:"BSFQ",-"CMOVEQ"
// amd64/v3:"TZCNTQ"
i += bits.TrailingZeros(n)
n &= n - 1
}
return i
}
func IterateBits64(n uint64) int {
i := 0
for n != 0 {
// amd64/v1,amd64/v2:"BSFQ",-"CMOVEQ"
// amd64/v3:"TZCNTQ"
i += bits.TrailingZeros64(n)
n &= n - 1
}
return i
}
func IterateBits32(n uint32) int {
i := 0
for n != 0 {
// amd64/v1,amd64/v2:"BSFL",-"BTSQ"
// amd64/v3:"TZCNTL"
i += bits.TrailingZeros32(n)
n &= n - 1
}
return i
}
func IterateBits16(n uint16) int {
i := 0
for n != 0 {
// amd64/v1,amd64/v2:"BSFL",-"BTSL"
// amd64/v3:"TZCNTL"
// arm64:"RBITW","CLZW",-"ORR"
i += bits.TrailingZeros16(n)
n &= n - 1
}
return i
}
func IterateBits8(n uint8) int {
i := 0
for n != 0 {
// amd64/v1,amd64/v2:"BSFL",-"BTSL"
// amd64/v3:"TZCNTL"
// arm64:"RBITW","CLZW",-"ORR"
i += bits.TrailingZeros8(n)
n &= n - 1
}
return i
}
// --------------- //
// bits.Add* //
// --------------- //
func Add(x, y, ci uint) (r, co uint) {
// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
// ppc64x: "ADDC", "ADDE", "ADDZE"
// s390x:"ADDE","ADDC\t[$]-1,"
// riscv64: "ADD","SLTU"
return bits.Add(x, y, ci)
}
func AddC(x, ci uint) (r, co uint) {
// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
// loong64: "ADDV", "SGTU"
// ppc64x: "ADDC", "ADDE", "ADDZE"
// s390x:"ADDE","ADDC\t[$]-1,"
// riscv64: "ADD","SLTU"
return bits.Add(x, 7, ci)
}
func AddZ(x, y uint) (r, co uint) {
// arm64:"ADDS","ADC",-"ADCS",-"ADD\t",-"CMP"
// amd64:"ADDQ","SBBQ","NEGQ",-"NEGL",-"ADCQ"
// loong64: "ADDV", "SGTU"
// ppc64x: "ADDC", -"ADDE", "ADDZE"
// s390x:"ADDC",-"ADDC\t[$]-1,"
// riscv64: "ADD","SLTU"
return bits.Add(x, y, 0)
}
func AddR(x, y, ci uint) uint {
// arm64:"ADDS","ADCS",-"ADD\t",-"CMP"
// amd64:"NEGL","ADCQ",-"SBBQ",-"NEGQ"
// loong64: "ADDV", -"SGTU"
// ppc64x: "ADDC", "ADDE", -"ADDZE"
// s390x:"ADDE","ADDC\t[$]-1,"
// riscv64: "ADD",-"SLTU"
r, _ := bits.Add(x, y, ci)
return r
}
func AddM(p, q, r *[3]uint) {
var c uint
r[0], c = bits.Add(p[0], q[0], c)
// arm64:"ADCS",-"ADD\t",-"CMP"
// amd64:"ADCQ",-"NEGL",-"SBBQ",-"NEGQ"
// s390x:"ADDE",-"ADDC\t[$]-1,"
r[1], c = bits.Add(p[1], q[1], c)
r[2], c = bits.Add(p[2], q[2], c)
}
func Add64(x, y, ci uint64) (r, co uint64) {
// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
// loong64: "ADDV", "SGTU"
// ppc64x: "ADDC", "ADDE", "ADDZE"
// s390x:"ADDE","ADDC\t[$]-1,"
// riscv64: "ADD","SLTU"
return bits.Add64(x, y, ci)
}
func Add64C(x, ci uint64) (r, co uint64) {
// arm64:"ADDS","ADCS","ADC",-"ADD\t",-"CMP"
// amd64:"NEGL","ADCQ","SBBQ","NEGQ"
// loong64: "ADDV", "SGTU"
// ppc64x: "ADDC", "ADDE", "ADDZE"
// s390x:"ADDE","ADDC\t[$]-1,"
// riscv64: "ADD","SLTU"
return bits.Add64(x, 7, ci)
}
func Add64Z(x, y uint64) (r, co uint64) {
// arm64:"ADDS","ADC",-"ADCS",-"ADD\t",-"CMP"
// amd64:"ADDQ","SBBQ","NEGQ",-"NEGL",-"ADCQ"
// loong64: "ADDV", "SGTU"
// ppc64x: "ADDC", -"ADDE", "ADDZE"
// s390x:"ADDC",-"ADDC\t[$]-1,"
// riscv64: "ADD","SLTU"
return bits.Add64(x, y, 0)
}
func Add64R(x, y, ci uint64) uint64 {
// arm64:"ADDS","ADCS",-"ADD\t",-"CMP"
// amd64:"NEGL","ADCQ",-"SBBQ",-"NEGQ"
// loong64: "ADDV", -"SGTU"
// ppc64x: "ADDC", "ADDE", -"ADDZE"
// s390x:"ADDE","ADDC\t[$]-1,"
// riscv64: "ADD",-"SLTU"
r, _ := bits.Add64(x, y, ci)
return r
}
func Add64M(p, q, r *[3]uint64) {
var c uint64
r[0], c = bits.Add64(p[0], q[0], c)
// arm64:"ADCS",-"ADD\t",-"CMP"
// amd64:"ADCQ",-"NEGL",-"SBBQ",-"NEGQ"
// ppc64x: -"ADDC", "ADDE", -"ADDZE"
// s390x:"ADDE",-"ADDC\t[$]-1,"
r[1], c = bits.Add64(p[1], q[1], c)
r[2], c = bits.Add64(p[2], q[2], c)
}
func Add64MSaveC(p, q, r, c *[2]uint64) {
// ppc64x: "ADDC\tR", "ADDZE"
r[0], c[0] = bits.Add64(p[0], q[0], 0)
// ppc64x: "ADDC\t[$]-1", "ADDE", "ADDZE"
r[1], c[1] = bits.Add64(p[1], q[1], c[0])
}
func Add64PanicOnOverflowEQ(a, b uint64) uint64 {
r, c := bits.Add64(a, b, 0)
// s390x:"BRC\t[$]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
}
// Verify independent carry chain operations are scheduled efficiently
// and do not cause unnecessary save/restore of the CA bit.
//
// This is an example of why CarryChainTail priority must be lower
// (earlier in the block) than Memory. f[0]=f1 could be scheduled
// after the first two lower 64 bit limb adds, but before either
// high 64 bit limbs are added.
//
// This is what happened on PPC64 when compiling
// crypto/internal/edwards25519/field.feMulGeneric.
func Add64MultipleChains(a, b, c, d [2]uint64) {
var cx, d1, d2 uint64
a1, a2 := a[0], a[1]
b1, b2 := b[0], b[1]
c1, c2 := c[0], c[1]
// ppc64x: "ADDC\tR\\d+,", -"ADDE", -"MOVD\tXER"
d1, cx = bits.Add64(a1, b1, 0)
// ppc64x: "ADDE", -"ADDC", -"MOVD\t.*, XER"
d2, _ = bits.Add64(a2, b2, cx)
// ppc64x: "ADDC\tR\\d+,", -"ADDE", -"MOVD\tXER"
d1, cx = bits.Add64(c1, d1, 0)
// ppc64x: "ADDE", -"ADDC", -"MOVD\t.*, XER"
d2, _ = bits.Add64(c2, d2, cx)
d[0] = d1
d[1] = d2
}
// --------------- //
// bits.Sub* //
// --------------- //
func Sub(x, y, ci uint) (r, co uint) {
// amd64:"NEGL","SBBQ","NEGQ"
// arm64:"NEGS","SBCS","NGC","NEG",-"ADD",-"SUB",-"CMP"
// loong64:"SUBV","SGTU"
// ppc64x:"SUBC", "SUBE", "SUBZE", "NEG"
// s390x:"SUBE"
// riscv64: "SUB","SLTU"
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"
// loong64:"SUBV","SGTU"
// ppc64x:"SUBC", "SUBE", "SUBZE", "NEG"
// s390x:"SUBE"
// riscv64: "SUB","SLTU"
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"
// loong64:"SUBV","SGTU"
// ppc64x:"SUBC", -"SUBE", "SUBZE", "NEG"
// s390x:"SUBC"
// riscv64: "SUB","SLTU"
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"
// loong64:"SUBV",-"SGTU"
// ppc64x:"SUBC", "SUBE", -"SUBZE", -"NEG"
// s390x:"SUBE"
// riscv64: "SUB",-"SLTU"
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"
// ppc64x:-"SUBC", "SUBE", -"SUBZE", -"NEG"
// 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"
// loong64:"SUBV","SGTU"
// ppc64x:"SUBC", "SUBE", "SUBZE", "NEG"
// s390x:"SUBE"
// riscv64: "SUB","SLTU"
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"
// loong64:"SUBV","SGTU"
// ppc64x:"SUBC", "SUBE", "SUBZE", "NEG"
// s390x:"SUBE"
// riscv64: "SUB","SLTU"
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"
// loong64:"SUBV","SGTU"
// ppc64x:"SUBC", -"SUBE", "SUBZE", "NEG"
// s390x:"SUBC"
// riscv64: "SUB","SLTU"
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"
// loong64:"SUBV",-"SGTU"
// ppc64x:"SUBC", "SUBE", -"SUBZE", -"NEG"
// s390x:"SUBE"
// riscv64: "SUB",-"SLTU"
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 Sub64MSaveC(p, q, r, c *[2]uint64) {
// ppc64x:"SUBC\tR\\d+, R\\d+,", "SUBZE", "NEG"
r[0], c[0] = bits.Sub64(p[0], q[0], 0)
// ppc64x:"SUBC\tR\\d+, [$]0,", "SUBE", "SUBZE", "NEG"
r[1], c[1] = bits.Sub64(p[1], q[1], c[0])
}
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"
// ppc64x:"MULHDU","MULLD"
// s390x:"MLGR"
// mips64: "MULVU"
return bits.Mul(x, y)
}
func Mul64(x, y uint64) (hi, lo uint64) {
// amd64:"MULQ"
// arm64:"UMULH","MUL"
// ppc64x:"MULHDU","MULLD"
// s390x:"MLGR"
// mips64: "MULVU"
// riscv64:"MULHU","MUL"
return bits.Mul64(x, y)
}
func Mul64HiOnly(x, y uint64) uint64 {
// arm64:"UMULH",-"MUL"
// riscv64:"MULHU",-"MUL\t"
hi, _ := bits.Mul64(x, y)
return hi
}
func Mul64LoOnly(x, y uint64) uint64 {
// arm64:"MUL",-"UMULH"
// riscv64:"MUL\t",-"MULHU"
_, lo := bits.Mul64(x, y)
return lo
}
// --------------- //
// 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)
}