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Usually optimization rules have corresponding priorities, some need to be run first, some run next, and some run last, which produces the best code. But currently our optimization rules have no priority, this CL adds a late lower pass that runs those rules that need to be run at last, such as split unreasonable constant folding. This pass can be seen as the second round of the lower pass. For example: func foo(a, b uint64) uint64 { d := a+0x1234568 d1 := b+0x1234568 return d&d1 } The code generated by the master branch: 0x0004 00004 ADD $19088744, R0, R2 // movz+movk+add 0x0010 00016 ADD $19088744, R1, R1 // movz+movk+add 0x001c 00028 AND R1, R2, R0 This is because the current constant folding optimization rules do not take into account the range of constants, causing the constant to be loaded repeatedly. This CL splits these unreasonable constants folding in the late lower pass. With this CL the generated code: 0x0004 00004 MOVD $19088744, R2 // movz+movk 0x000c 00012 ADD R0, R2, R3 0x0010 00016 ADD R1, R2, R1 0x0014 00020 AND R1, R3, R0 This CL also adds constant folding optimization for ADDS instruction. In addition, in order not to introduce the codegen regression, an optimization rule is added to change the addition of a negative number into a subtraction of a positive number. go1 benchmarks: name old time/op new time/op delta BinaryTree17-8 1.22s ± 1% 1.24s ± 0% +1.56% (p=0.008 n=5+5) Fannkuch11-8 1.54s ± 0% 1.53s ± 0% -0.69% (p=0.016 n=4+5) FmtFprintfEmpty-8 14.1ns ± 0% 14.1ns ± 0% ~ (p=0.079 n=4+5) FmtFprintfString-8 26.0ns ± 0% 26.1ns ± 0% +0.23% (p=0.008 n=5+5) FmtFprintfInt-8 32.3ns ± 0% 32.9ns ± 1% +1.72% (p=0.008 n=5+5) FmtFprintfIntInt-8 54.5ns ± 0% 55.5ns ± 0% +1.83% (p=0.008 n=5+5) FmtFprintfPrefixedInt-8 61.5ns ± 0% 62.0ns ± 0% +0.93% (p=0.008 n=5+5) FmtFprintfFloat-8 72.0ns ± 0% 73.6ns ± 0% +2.24% (p=0.008 n=5+5) FmtManyArgs-8 221ns ± 0% 224ns ± 0% +1.22% (p=0.008 n=5+5) GobDecode-8 1.91ms ± 0% 1.93ms ± 0% +0.98% (p=0.008 n=5+5) GobEncode-8 1.40ms ± 1% 1.39ms ± 0% -0.79% (p=0.032 n=5+5) Gzip-8 115ms ± 0% 117ms ± 1% +1.17% (p=0.008 n=5+5) Gunzip-8 19.4ms ± 1% 19.3ms ± 0% -0.71% (p=0.016 n=5+4) HTTPClientServer-8 27.0µs ± 0% 27.3µs ± 0% +0.80% (p=0.008 n=5+5) JSONEncode-8 3.36ms ± 1% 3.33ms ± 0% ~ (p=0.056 n=5+5) JSONDecode-8 17.5ms ± 2% 17.8ms ± 0% +1.71% (p=0.016 n=5+4) Mandelbrot200-8 2.29ms ± 0% 2.29ms ± 0% ~ (p=0.151 n=5+5) GoParse-8 1.35ms ± 1% 1.36ms ± 1% ~ (p=0.056 n=5+5) RegexpMatchEasy0_32-8 24.5ns ± 0% 24.5ns ± 0% ~ (p=0.444 n=4+5) RegexpMatchEasy0_1K-8 131ns ±11% 118ns ± 6% ~ (p=0.056 n=5+5) RegexpMatchEasy1_32-8 22.9ns ± 0% 22.9ns ± 0% ~ (p=0.905 n=4+5) RegexpMatchEasy1_1K-8 126ns ± 0% 127ns ± 0% ~ (p=0.063 n=4+5) RegexpMatchMedium_32-8 486ns ± 5% 483ns ± 0% ~ (p=0.381 n=5+4) RegexpMatchMedium_1K-8 15.4µs ± 1% 15.5µs ± 0% ~ (p=0.151 n=5+5) RegexpMatchHard_32-8 687ns ± 0% 686ns ± 0% ~ (p=0.103 n=5+5) RegexpMatchHard_1K-8 20.7µs ± 0% 20.7µs ± 1% ~ (p=0.151 n=5+5) Revcomp-8 175ms ± 2% 176ms ± 3% ~ (p=1.000 n=5+5) Template-8 20.4ms ± 6% 20.1ms ± 2% ~ (p=0.151 n=5+5) TimeParse-8 112ns ± 0% 113ns ± 0% +0.97% (p=0.016 n=5+4) TimeFormat-8 156ns ± 0% 145ns ± 0% -7.14% (p=0.029 n=4+4) Change-Id: I3ced26e89041f873ac989586514ccc5ee09f13da Reviewed-on: https://go-review.googlesource.com/c/go/+/425134 Reviewed-by: Keith Randall <khr@google.com> Reviewed-by: Cherry Mui <cherryyz@google.com> TryBot-Result: Gopher Robot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org> Run-TryBot: Eric Fang <eric.fang@arm.com>
614 lines
15 KiB
Go
614 lines
15 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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// This file contains codegen tests related to arithmetic
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// simplifications and optimizations on integer types.
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// For codegen tests on float types, see floats.go.
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// ----------------- //
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// Subtraction //
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// ----------------- //
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var ef int
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func SubMem(arr []int, b, c, d int) int {
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// 386:`SUBL\s[A-Z]+,\s8\([A-Z]+\)`
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// amd64:`SUBQ\s[A-Z]+,\s16\([A-Z]+\)`
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arr[2] -= b
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// 386:`SUBL\s[A-Z]+,\s12\([A-Z]+\)`
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// amd64:`SUBQ\s[A-Z]+,\s24\([A-Z]+\)`
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arr[3] -= b
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// 386:`DECL\s16\([A-Z]+\)`
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arr[4]--
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// 386:`ADDL\s[$]-20,\s20\([A-Z]+\)`
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arr[5] -= 20
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// 386:`SUBL\s\([A-Z]+\)\([A-Z]+\*4\),\s[A-Z]+`
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ef -= arr[b]
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// 386:`SUBL\s[A-Z]+,\s\([A-Z]+\)\([A-Z]+\*4\)`
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arr[c] -= b
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// 386:`ADDL\s[$]-15,\s\([A-Z]+\)\([A-Z]+\*4\)`
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arr[d] -= 15
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// 386:`DECL\s\([A-Z]+\)\([A-Z]+\*4\)`
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arr[b]--
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// amd64:`DECQ\s64\([A-Z]+\)`
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arr[8]--
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// 386:"SUBL\t4"
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// amd64:"SUBQ\t8"
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return arr[0] - arr[1]
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}
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func SubFromConst(a int) int {
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// ppc64le: `SUBC\tR[0-9]+,\s[$]40,\sR`
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// ppc64: `SUBC\tR[0-9]+,\s[$]40,\sR`
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b := 40 - a
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return b
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}
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func SubFromConstNeg(a int) int {
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// ppc64le: `ADD\t[$]40,\sR[0-9]+,\sR`
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// ppc64: `ADD\t[$]40,\sR[0-9]+,\sR`
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c := 40 - (-a)
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return c
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}
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func SubSubFromConst(a int) int {
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// ppc64le: `ADD\t[$]20,\sR[0-9]+,\sR`
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// ppc64: `ADD\t[$]20,\sR[0-9]+,\sR`
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c := 40 - (20 - a)
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return c
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}
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func AddSubFromConst(a int) int {
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// ppc64le: `SUBC\tR[0-9]+,\s[$]60,\sR`
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// ppc64: `SUBC\tR[0-9]+,\s[$]60,\sR`
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c := 40 + (20 - a)
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return c
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}
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func NegSubFromConst(a int) int {
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// ppc64le: `ADD\t[$]-20,\sR[0-9]+,\sR`
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// ppc64: `ADD\t[$]-20,\sR[0-9]+,\sR`
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c := -(20 - a)
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return c
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}
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func NegAddFromConstNeg(a int) int {
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// ppc64le: `SUBC\tR[0-9]+,\s[$]40,\sR`
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// ppc64: `SUBC\tR[0-9]+,\s[$]40,\sR`
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c := -(-40 + a)
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return c
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}
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func SubSubNegSimplify(a, b int) int {
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// amd64:"NEGQ"
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// ppc64:"NEG"
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// ppc64le:"NEG"
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r := (a - b) - a
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return r
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}
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func SubAddSimplify(a, b int) int {
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// amd64:-"SUBQ",-"ADDQ"
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// ppc64:-"SUB",-"ADD"
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// ppc64le:-"SUB",-"ADD"
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r := a + (b - a)
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return r
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}
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func SubAddNegSimplify(a, b int) int {
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// amd64:"NEGQ",-"ADDQ",-"SUBQ"
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// ppc64:"NEG",-"ADD",-"SUB"
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// ppc64le:"NEG",-"ADD",-"SUB"
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r := a - (b + a)
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return r
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}
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func AddAddSubSimplify(a, b, c int) int {
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// amd64:-"SUBQ"
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// ppc64:-"SUB"
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// ppc64le:-"SUB"
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r := a + (b + (c - a))
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return r
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}
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// -------------------- //
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// Multiplication //
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// -------------------- //
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func Pow2Muls(n1, n2 int) (int, int) {
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// amd64:"SHLQ\t[$]5",-"IMULQ"
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// 386:"SHLL\t[$]5",-"IMULL"
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// arm:"SLL\t[$]5",-"MUL"
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// arm64:"LSL\t[$]5",-"MUL"
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// ppc64:"SLD\t[$]5",-"MUL"
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// ppc64le:"SLD\t[$]5",-"MUL"
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a := n1 * 32
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// amd64:"SHLQ\t[$]6",-"IMULQ"
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// 386:"SHLL\t[$]6",-"IMULL"
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// arm:"SLL\t[$]6",-"MUL"
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// arm64:`NEG\sR[0-9]+<<6,\sR[0-9]+`,-`LSL`,-`MUL`
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// ppc64:"SLD\t[$]6","NEG\\sR[0-9]+,\\sR[0-9]+",-"MUL"
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// ppc64le:"SLD\t[$]6","NEG\\sR[0-9]+,\\sR[0-9]+",-"MUL"
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b := -64 * n2
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return a, b
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}
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func Mul_96(n int) int {
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// amd64:`SHLQ\t[$]5`,`LEAQ\t\(.*\)\(.*\*2\),`,-`IMULQ`
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// 386:`SHLL\t[$]5`,`LEAL\t\(.*\)\(.*\*2\),`,-`IMULL`
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// arm64:`LSL\t[$]5`,`ADD\sR[0-9]+<<1,\sR[0-9]+`,-`MUL`
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// arm:`SLL\t[$]5`,`ADD\sR[0-9]+<<1,\sR[0-9]+`,-`MUL`
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// s390x:`SLD\t[$]5`,`SLD\t[$]6`,-`MULLD`
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return n * 96
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}
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func Mul_n120(n int) int {
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// s390x:`SLD\t[$]3`,`SLD\t[$]7`,-`MULLD`
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return n * -120
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}
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func MulMemSrc(a []uint32, b []float32) {
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// 386:`IMULL\s4\([A-Z]+\),\s[A-Z]+`
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a[0] *= a[1]
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// 386/sse2:`MULSS\s4\([A-Z]+\),\sX[0-9]+`
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// amd64:`MULSS\s4\([A-Z]+\),\sX[0-9]+`
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b[0] *= b[1]
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}
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// Multiplications merging tests
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func MergeMuls1(n int) int {
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// amd64:"IMUL3Q\t[$]46"
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// 386:"IMUL3L\t[$]46"
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// ppc64le:"MULLD\t[$]46"
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// ppc64:"MULLD\t[$]46"
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return 15*n + 31*n // 46n
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}
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func MergeMuls2(n int) int {
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// amd64:"IMUL3Q\t[$]23","(ADDQ\t[$]29)|(LEAQ\t29)"
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// 386:"IMUL3L\t[$]23","ADDL\t[$]29"
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// ppc64le/power9:"MADDLD",-"MULLD\t[$]23",-"ADD\t[$]29"
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// ppc64le/power8:"MULLD\t[$]23","ADD\t[$]29"
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return 5*n + 7*(n+1) + 11*(n+2) // 23n + 29
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}
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func MergeMuls3(a, n int) int {
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// amd64:"ADDQ\t[$]19",-"IMULQ\t[$]19"
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// 386:"ADDL\t[$]19",-"IMULL\t[$]19"
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// ppc64:"ADD\t[$]19",-"MULLD\t[$]19"
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// ppc64le:"ADD\t[$]19",-"MULLD\t[$]19"
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return a*n + 19*n // (a+19)n
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}
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func MergeMuls4(n int) int {
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// amd64:"IMUL3Q\t[$]14"
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// 386:"IMUL3L\t[$]14"
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// ppc64:"MULLD\t[$]14"
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// ppc64le:"MULLD\t[$]14"
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return 23*n - 9*n // 14n
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}
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func MergeMuls5(a, n int) int {
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// amd64:"ADDQ\t[$]-19",-"IMULQ\t[$]19"
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// 386:"ADDL\t[$]-19",-"IMULL\t[$]19"
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// ppc64:"ADD\t[$]-19",-"MULLD\t[$]19"
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// ppc64le:"ADD\t[$]-19",-"MULLD\t[$]19"
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return a*n - 19*n // (a-19)n
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}
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// -------------- //
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// Division //
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// -------------- //
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func DivMemSrc(a []float64) {
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// 386/sse2:`DIVSD\s8\([A-Z]+\),\sX[0-9]+`
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// amd64:`DIVSD\s8\([A-Z]+\),\sX[0-9]+`
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a[0] /= a[1]
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}
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func Pow2Divs(n1 uint, n2 int) (uint, int) {
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// 386:"SHRL\t[$]5",-"DIVL"
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// amd64:"SHRQ\t[$]5",-"DIVQ"
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// arm:"SRL\t[$]5",-".*udiv"
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// arm64:"LSR\t[$]5",-"UDIV"
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// ppc64:"SRD"
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// ppc64le:"SRD"
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a := n1 / 32 // unsigned
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// amd64:"SARQ\t[$]6",-"IDIVQ"
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// 386:"SARL\t[$]6",-"IDIVL"
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// arm:"SRA\t[$]6",-".*udiv"
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// arm64:"ASR\t[$]6",-"SDIV"
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// ppc64:"SRAD"
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// ppc64le:"SRAD"
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b := n2 / 64 // signed
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return a, b
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}
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// Check that constant divisions get turned into MULs
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func ConstDivs(n1 uint, n2 int) (uint, int) {
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// amd64:"MOVQ\t[$]-1085102592571150095","MULQ",-"DIVQ"
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// 386:"MOVL\t[$]-252645135","MULL",-"DIVL"
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// arm64:`MOVD`,`UMULH`,-`DIV`
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// arm:`MOVW`,`MUL`,-`.*udiv`
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a := n1 / 17 // unsigned
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// amd64:"MOVQ\t[$]-1085102592571150095","IMULQ",-"IDIVQ"
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// 386:"MOVL\t[$]-252645135","IMULL",-"IDIVL"
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// arm64:`SMULH`,-`DIV`
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// arm:`MOVW`,`MUL`,-`.*udiv`
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b := n2 / 17 // signed
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return a, b
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}
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func FloatDivs(a []float32) float32 {
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// amd64:`DIVSS\s8\([A-Z]+\),\sX[0-9]+`
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// 386/sse2:`DIVSS\s8\([A-Z]+\),\sX[0-9]+`
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return a[1] / a[2]
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}
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func Pow2Mods(n1 uint, n2 int) (uint, int) {
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// 386:"ANDL\t[$]31",-"DIVL"
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// amd64:"ANDL\t[$]31",-"DIVQ"
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// arm:"AND\t[$]31",-".*udiv"
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// arm64:"AND\t[$]31",-"UDIV"
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// ppc64:"ANDCC\t[$]31"
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// ppc64le:"ANDCC\t[$]31"
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a := n1 % 32 // unsigned
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// 386:"SHRL",-"IDIVL"
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// amd64:"SHRQ",-"IDIVQ"
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// arm:"SRA",-".*udiv"
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// arm64:"ASR",-"REM"
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// ppc64:"SRAD"
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// ppc64le:"SRAD"
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b := n2 % 64 // signed
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return a, b
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}
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// Check that signed divisibility checks get converted to AND on low bits
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func Pow2DivisibleSigned(n1, n2 int) (bool, bool) {
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// 386:"TESTL\t[$]63",-"DIVL",-"SHRL"
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// amd64:"TESTQ\t[$]63",-"DIVQ",-"SHRQ"
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// arm:"AND\t[$]63",-".*udiv",-"SRA"
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// arm64:"TST\t[$]63",-"UDIV",-"ASR",-"AND"
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// ppc64:"ANDCC\t[$]63",-"SRAD"
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// ppc64le:"ANDCC\t[$]63",-"SRAD"
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a := n1%64 == 0 // signed divisible
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// 386:"TESTL\t[$]63",-"DIVL",-"SHRL"
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// amd64:"TESTQ\t[$]63",-"DIVQ",-"SHRQ"
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// arm:"AND\t[$]63",-".*udiv",-"SRA"
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// arm64:"TST\t[$]63",-"UDIV",-"ASR",-"AND"
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// ppc64:"ANDCC\t[$]63",-"SRAD"
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// ppc64le:"ANDCC\t[$]63",-"SRAD"
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b := n2%64 != 0 // signed indivisible
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return a, b
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}
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// Check that constant modulo divs get turned into MULs
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func ConstMods(n1 uint, n2 int) (uint, int) {
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// amd64:"MOVQ\t[$]-1085102592571150095","MULQ",-"DIVQ"
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// 386:"MOVL\t[$]-252645135","MULL",-"DIVL"
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// arm64:`MOVD`,`UMULH`,-`DIV`
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// arm:`MOVW`,`MUL`,-`.*udiv`
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a := n1 % 17 // unsigned
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// amd64:"MOVQ\t[$]-1085102592571150095","IMULQ",-"IDIVQ"
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// 386:"MOVL\t[$]-252645135","IMULL",-"IDIVL"
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// arm64:`SMULH`,-`DIV`
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// arm:`MOVW`,`MUL`,-`.*udiv`
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b := n2 % 17 // signed
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return a, b
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}
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// Check that divisibility checks x%c==0 are converted to MULs and rotates
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func Divisible(n1 uint, n2 int) (bool, bool, bool, bool) {
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// amd64:"MOVQ\t[$]-6148914691236517205","IMULQ","ROLQ\t[$]63",-"DIVQ"
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// 386:"IMUL3L\t[$]-1431655765","ROLL\t[$]31",-"DIVQ"
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// arm64:"MOVD\t[$]-6148914691236517205","MOVD\t[$]3074457345618258602","MUL","ROR",-"DIV"
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// arm:"MUL","CMP\t[$]715827882",-".*udiv"
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// ppc64:"MULLD","ROTL\t[$]63"
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// ppc64le:"MULLD","ROTL\t[$]63"
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evenU := n1%6 == 0
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// amd64:"MOVQ\t[$]-8737931403336103397","IMULQ",-"ROLQ",-"DIVQ"
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// 386:"IMUL3L\t[$]678152731",-"ROLL",-"DIVQ"
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// arm64:"MOVD\t[$]-8737931403336103397","MUL",-"ROR",-"DIV"
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// arm:"MUL","CMP\t[$]226050910",-".*udiv"
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// ppc64:"MULLD",-"ROTL"
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// ppc64le:"MULLD",-"ROTL"
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oddU := n1%19 == 0
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// amd64:"IMULQ","ADD","ROLQ\t[$]63",-"DIVQ"
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// 386:"IMUL3L\t[$]-1431655765","ADDL\t[$]715827882","ROLL\t[$]31",-"DIVQ"
|
|
// arm64:"MUL","ADD\tR","ROR",-"DIV"
|
|
// arm:"MUL","ADD\t[$]715827882",-".*udiv"
|
|
// ppc64/power8:"MULLD","ADD","ROTL\t[$]63"
|
|
// ppc64le/power8:"MULLD","ADD","ROTL\t[$]63"
|
|
// ppc64/power9:"MADDLD","ROTL\t[$]63"
|
|
// ppc64le/power9:"MADDLD","ROTL\t[$]63"
|
|
evenS := n2%6 == 0
|
|
|
|
// amd64:"IMULQ","ADD",-"ROLQ",-"DIVQ"
|
|
// 386:"IMUL3L\t[$]678152731","ADDL\t[$]113025455",-"ROLL",-"DIVQ"
|
|
// arm64:"MUL","MOVD\t[$]485440633518672410","ADD",-"ROR",-"DIV"
|
|
// arm:"MUL","ADD\t[$]113025455",-".*udiv"
|
|
// ppc64/power8:"MULLD","ADD",-"ROTL"
|
|
// ppc64/power9:"MADDLD",-"ROTL"
|
|
// ppc64le/power8:"MULLD","ADD",-"ROTL"
|
|
// ppc64le/power9:"MADDLD",-"ROTL"
|
|
oddS := n2%19 == 0
|
|
|
|
return evenU, oddU, evenS, oddS
|
|
}
|
|
|
|
// Check that fix-up code is not generated for divisions where it has been proven that
|
|
// that the divisor is not -1 or that the dividend is > MinIntNN.
|
|
func NoFix64A(divr int64) (int64, int64) {
|
|
var d int64 = 42
|
|
var e int64 = 84
|
|
if divr > 5 {
|
|
d /= divr // amd64:-"JMP"
|
|
e %= divr // amd64:-"JMP"
|
|
// The following statement is to avoid conflict between the above check
|
|
// and the normal JMP generated at the end of the block.
|
|
d += e
|
|
}
|
|
return d, e
|
|
}
|
|
|
|
func NoFix64B(divd int64) (int64, int64) {
|
|
var d int64
|
|
var e int64
|
|
var divr int64 = -1
|
|
if divd > -9223372036854775808 {
|
|
d = divd / divr // amd64:-"JMP"
|
|
e = divd % divr // amd64:-"JMP"
|
|
d += e
|
|
}
|
|
return d, e
|
|
}
|
|
|
|
func NoFix32A(divr int32) (int32, int32) {
|
|
var d int32 = 42
|
|
var e int32 = 84
|
|
if divr > 5 {
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
d /= divr
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
e %= divr
|
|
d += e
|
|
}
|
|
return d, e
|
|
}
|
|
|
|
func NoFix32B(divd int32) (int32, int32) {
|
|
var d int32
|
|
var e int32
|
|
var divr int32 = -1
|
|
if divd > -2147483648 {
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
d = divd / divr
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
e = divd % divr
|
|
d += e
|
|
}
|
|
return d, e
|
|
}
|
|
|
|
func NoFix16A(divr int16) (int16, int16) {
|
|
var d int16 = 42
|
|
var e int16 = 84
|
|
if divr > 5 {
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
d /= divr
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
e %= divr
|
|
d += e
|
|
}
|
|
return d, e
|
|
}
|
|
|
|
func NoFix16B(divd int16) (int16, int16) {
|
|
var d int16
|
|
var e int16
|
|
var divr int16 = -1
|
|
if divd > -32768 {
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
d = divd / divr
|
|
// amd64:-"JMP"
|
|
// 386:-"JMP"
|
|
e = divd % divr
|
|
d += e
|
|
}
|
|
return d, e
|
|
}
|
|
|
|
// Check that len() and cap() calls divided by powers of two are
|
|
// optimized into shifts and ands
|
|
|
|
func LenDiv1(a []int) int {
|
|
// 386:"SHRL\t[$]10"
|
|
// amd64:"SHRQ\t[$]10"
|
|
// arm64:"LSR\t[$]10",-"SDIV"
|
|
// arm:"SRL\t[$]10",-".*udiv"
|
|
// ppc64:"SRD"\t[$]10"
|
|
// ppc64le:"SRD"\t[$]10"
|
|
return len(a) / 1024
|
|
}
|
|
|
|
func LenDiv2(s string) int {
|
|
// 386:"SHRL\t[$]11"
|
|
// amd64:"SHRQ\t[$]11"
|
|
// arm64:"LSR\t[$]11",-"SDIV"
|
|
// arm:"SRL\t[$]11",-".*udiv"
|
|
// ppc64:"SRD\t[$]11"
|
|
// ppc64le:"SRD\t[$]11"
|
|
return len(s) / (4097 >> 1)
|
|
}
|
|
|
|
func LenMod1(a []int) int {
|
|
// 386:"ANDL\t[$]1023"
|
|
// amd64:"ANDL\t[$]1023"
|
|
// arm64:"AND\t[$]1023",-"SDIV"
|
|
// arm/6:"AND",-".*udiv"
|
|
// arm/7:"BFC",-".*udiv",-"AND"
|
|
// ppc64:"ANDCC\t[$]1023"
|
|
// ppc64le:"ANDCC\t[$]1023"
|
|
return len(a) % 1024
|
|
}
|
|
|
|
func LenMod2(s string) int {
|
|
// 386:"ANDL\t[$]2047"
|
|
// amd64:"ANDL\t[$]2047"
|
|
// arm64:"AND\t[$]2047",-"SDIV"
|
|
// arm/6:"AND",-".*udiv"
|
|
// arm/7:"BFC",-".*udiv",-"AND"
|
|
// ppc64:"ANDCC\t[$]2047"
|
|
// ppc64le:"ANDCC\t[$]2047"
|
|
return len(s) % (4097 >> 1)
|
|
}
|
|
|
|
func CapDiv(a []int) int {
|
|
// 386:"SHRL\t[$]12"
|
|
// amd64:"SHRQ\t[$]12"
|
|
// arm64:"LSR\t[$]12",-"SDIV"
|
|
// arm:"SRL\t[$]12",-".*udiv"
|
|
// ppc64:"SRD\t[$]12"
|
|
// ppc64le:"SRD\t[$]12"
|
|
return cap(a) / ((1 << 11) + 2048)
|
|
}
|
|
|
|
func CapMod(a []int) int {
|
|
// 386:"ANDL\t[$]4095"
|
|
// amd64:"ANDL\t[$]4095"
|
|
// arm64:"AND\t[$]4095",-"SDIV"
|
|
// arm/6:"AND",-".*udiv"
|
|
// arm/7:"BFC",-".*udiv",-"AND"
|
|
// ppc64:"ANDCC\t[$]4095"
|
|
// ppc64le:"ANDCC\t[$]4095"
|
|
return cap(a) % ((1 << 11) + 2048)
|
|
}
|
|
|
|
func AddMul(x int) int {
|
|
// amd64:"LEAQ\t1"
|
|
return 2*x + 1
|
|
}
|
|
|
|
func MULA(a, b, c uint32) (uint32, uint32, uint32) {
|
|
// arm:`MULA`,-`MUL\s`
|
|
// arm64:`MADDW`,-`MULW`
|
|
r0 := a*b + c
|
|
// arm:`MULA`,-`MUL\s`
|
|
// arm64:`MADDW`,-`MULW`
|
|
r1 := c*79 + a
|
|
// arm:`ADD`,-`MULA`,-`MUL\s`
|
|
// arm64:`ADD`,-`MADD`,-`MULW`
|
|
// ppc64:`ADD`,-`MULLD`
|
|
// ppc64le:`ADD`,-`MULLD`
|
|
r2 := b*64 + c
|
|
return r0, r1, r2
|
|
}
|
|
|
|
func MULS(a, b, c uint32) (uint32, uint32, uint32) {
|
|
// arm/7:`MULS`,-`MUL\s`
|
|
// arm/6:`SUB`,`MUL\s`,-`MULS`
|
|
// arm64:`MSUBW`,-`MULW`
|
|
r0 := c - a*b
|
|
// arm/7:`MULS`,-`MUL\s`
|
|
// arm/6:`SUB`,`MUL\s`,-`MULS`
|
|
// arm64:`MSUBW`,-`MULW`
|
|
r1 := a - c*79
|
|
// arm/7:`SUB`,-`MULS`,-`MUL\s`
|
|
// arm64:`SUB`,-`MSUBW`,-`MULW`
|
|
// ppc64:`SUB`,-`MULLD`
|
|
// ppc64le:`SUB`,-`MULLD`
|
|
r2 := c - b*64
|
|
return r0, r1, r2
|
|
}
|
|
|
|
func addSpecial(a, b, c uint32) (uint32, uint32, uint32) {
|
|
// amd64:`INCL`
|
|
a++
|
|
// amd64:`DECL`
|
|
b--
|
|
// amd64:`SUBL.*-128`
|
|
c += 128
|
|
return a, b, c
|
|
}
|
|
|
|
// Divide -> shift rules usually require fixup for negative inputs.
|
|
// If the input is non-negative, make sure the fixup is eliminated.
|
|
func divInt(v int64) int64 {
|
|
if v < 0 {
|
|
return 0
|
|
}
|
|
// amd64:-`.*SARQ.*63,`, -".*SHRQ", ".*SARQ.*[$]9,"
|
|
return v / 512
|
|
}
|
|
|
|
// The reassociate rules "x - (z + C) -> (x - z) - C" and
|
|
// "(z + C) -x -> C + (z - x)" can optimize the following cases.
|
|
func constantFold1(i0, j0, i1, j1, i2, j2, i3, j3 int) (int, int, int, int) {
|
|
// arm64:"SUB","ADD\t[$]2"
|
|
// ppc64:"SUB","ADD\t[$]2"
|
|
// ppc64le:"SUB","ADD\t[$]2"
|
|
r0 := (i0 + 3) - (j0 + 1)
|
|
// arm64:"SUB","SUB\t[$]4"
|
|
// ppc64:"SUB","ADD\t[$]-4"
|
|
// ppc64le:"SUB","ADD\t[$]-4"
|
|
r1 := (i1 - 3) - (j1 + 1)
|
|
// arm64:"SUB","ADD\t[$]4"
|
|
// ppc64:"SUB","ADD\t[$]4"
|
|
// ppc64le:"SUB","ADD\t[$]4"
|
|
r2 := (i2 + 3) - (j2 - 1)
|
|
// arm64:"SUB","SUB\t[$]2"
|
|
// ppc64:"SUB","ADD\t[$]-2"
|
|
// ppc64le:"SUB","ADD\t[$]-2"
|
|
r3 := (i3 - 3) - (j3 - 1)
|
|
return r0, r1, r2, r3
|
|
}
|
|
|
|
// The reassociate rules "x - (z + C) -> (x - z) - C" and
|
|
// "(C - z) - x -> C - (z + x)" can optimize the following cases.
|
|
func constantFold2(i0, j0, i1, j1 int) (int, int) {
|
|
// arm64:"ADD","MOVD\t[$]2","SUB"
|
|
// ppc64le: `SUBC\tR[0-9]+,\s[$]2,\sR`
|
|
// ppc64: `SUBC\tR[0-9]+,\s[$]2,\sR`
|
|
r0 := (3 - i0) - (j0 + 1)
|
|
// arm64:"ADD","MOVD\t[$]4","SUB"
|
|
// ppc64le: `SUBC\tR[0-9]+,\s[$]4,\sR`
|
|
// ppc64: `SUBC\tR[0-9]+,\s[$]4,\sR`
|
|
r1 := (3 - i1) - (j1 - 1)
|
|
return r0, r1
|
|
}
|
|
|
|
func constantFold3(i, j int) int {
|
|
// arm64: "MOVD\t[$]30","MUL",-"ADD",-"LSL"
|
|
// ppc64:"MULLD\t[$]30","MULLD"
|
|
// ppc64le:"MULLD\t[$]30","MULLD"
|
|
r := (5 * i) * (6 * j)
|
|
return r
|
|
}
|