1
0
mirror of https://github.com/golang/go synced 2024-11-23 11:00:08 -07:00
go/test/makeslice.go
Martin Möhrmann 6ed4661807 cmd/compile: optimize make+copy pattern to avoid memclr
match:
 m = make([]T, x); copy(m, s)
for pointer free T and x==len(s) rewrite to:
 m = mallocgc(x*elemsize(T), nil, false); memmove(&m, &s, x*elemsize(T))
otherwise rewrite to:
 m = makeslicecopy([]T, x, s)

This avoids memclear and shading of pointers in the newly created slice
before the copy.

With this CL "s" is only be allowed to bev a variable and not a more
complex expression. This restriction could be lifted in future versions
of this optimization when it can be proven that "s" is not referencing "m".

Triggers 450 times during make.bash..
Reduces go binary size by ~8 kbyte.

name                           old time/op  new time/op  delta
MakeSliceCopy/mallocmove/Byte  71.1ns ± 1%  65.8ns ± 0%  -7.49%  (p=0.000 n=10+9)
MakeSliceCopy/mallocmove/Int   71.2ns ± 1%  66.0ns ± 0%  -7.27%  (p=0.000 n=10+8)
MakeSliceCopy/mallocmove/Ptr    104ns ± 4%    99ns ± 1%  -5.13%  (p=0.000 n=10+10)
MakeSliceCopy/makecopy/Byte    70.3ns ± 0%  68.0ns ± 0%  -3.22%  (p=0.000 n=10+9)
MakeSliceCopy/makecopy/Int     70.3ns ± 0%  68.5ns ± 1%  -2.59%  (p=0.000 n=9+10)
MakeSliceCopy/makecopy/Ptr      102ns ± 0%    99ns ± 1%  -2.97%  (p=0.000 n=9+9)
MakeSliceCopy/nilappend/Byte   75.4ns ± 0%  74.9ns ± 2%  -0.63%  (p=0.015 n=9+9)
MakeSliceCopy/nilappend/Int    75.6ns ± 0%  76.4ns ± 3%    ~     (p=0.245 n=9+10)
MakeSliceCopy/nilappend/Ptr     107ns ± 0%   108ns ± 1%  +0.93%  (p=0.005 n=9+10)

Fixes #26252

Change-Id: Iec553dd1fef6ded16197216a472351c8799a8e71
Reviewed-on: https://go-review.googlesource.com/c/go/+/146719
Reviewed-by: Keith Randall <khr@golang.org>
Run-TryBot: Martin Möhrmann <moehrmann@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-05-07 17:50:24 +00:00

150 lines
5.5 KiB
Go

// run
// Copyright 2013 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 main
import (
"strings"
"unsafe"
)
func main() {
n := -1
testInts(uint64(n))
testBytes(uint64(n))
var t *byte
if unsafe.Sizeof(t) == 8 {
// Test mem > maxAlloc
testInts(1 << 59)
// Test elem.size*cap overflow
testInts(1<<63 - 1)
testInts(1<<64 - 1)
testBytes(1<<64 - 1)
} else {
testInts(1<<31 - 1)
// Test elem.size*cap overflow
testInts(1<<32 - 1)
testBytes(1<<32 - 1)
}
}
func shouldPanic(str string, f func()) {
defer func() {
err := recover()
if err == nil {
panic("did not panic")
}
s := err.(error).Error()
if !strings.Contains(s, str) {
panic("got panic " + s + ", want " + str)
}
}()
f()
}
func testInts(n uint64) {
testMakeInts(n)
testMakeCopyInts(n)
testMakeInAppendInts(n)
}
func testBytes(n uint64) {
testMakeBytes(n)
testMakeCopyBytes(n)
testMakeInAppendBytes(n)
}
// Test make panics for given length or capacity n.
func testMakeInts(n uint64) {
type T []int
shouldPanic("len out of range", func() { _ = make(T, int(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, int(n)) })
shouldPanic("len out of range", func() { _ = make(T, uint(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, uint(n)) })
shouldPanic("len out of range", func() { _ = make(T, int64(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, int64(n)) })
shouldPanic("len out of range", func() { _ = make(T, uint64(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, uint64(n)) })
}
func testMakeBytes(n uint64) {
type T []byte
shouldPanic("len out of range", func() { _ = make(T, int(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, int(n)) })
shouldPanic("len out of range", func() { _ = make(T, uint(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, uint(n)) })
shouldPanic("len out of range", func() { _ = make(T, int64(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, int64(n)) })
shouldPanic("len out of range", func() { _ = make(T, uint64(n)) })
shouldPanic("cap out of range", func() { _ = make(T, 0, uint64(n)) })
}
// Test make+copy panics since the gc compiler optimizes these
// to runtime.makeslicecopy calls.
func testMakeCopyInts(n uint64) {
type T []int
var c = make(T, 8)
shouldPanic("len out of range", func() { x := make(T, int(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, int(n)); copy(x, c) })
shouldPanic("len out of range", func() { x := make(T, uint(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, uint(n)); copy(x, c) })
shouldPanic("len out of range", func() { x := make(T, int64(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, int64(n)); copy(x, c) })
shouldPanic("len out of range", func() { x := make(T, uint64(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, uint64(n)); copy(x, c) })
}
func testMakeCopyBytes(n uint64) {
type T []byte
var c = make(T, 8)
shouldPanic("len out of range", func() { x := make(T, int(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, int(n)); copy(x, c) })
shouldPanic("len out of range", func() { x := make(T, uint(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, uint(n)); copy(x, c) })
shouldPanic("len out of range", func() { x := make(T, int64(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, int64(n)); copy(x, c) })
shouldPanic("len out of range", func() { x := make(T, uint64(n)); copy(x, c) })
shouldPanic("cap out of range", func() { x := make(T, 0, uint64(n)); copy(x, c) })
}
// Test make in append panics for int slices since the gc compiler optimizes makes in appends.
func testMakeInAppendInts(n uint64) {
type T []int
for _, length := range []int{0, 1} {
t := make(T, length)
shouldPanic("len out of range", func() { _ = append(t, make(T, int(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, int(n))...) })
shouldPanic("len out of range", func() { _ = append(t, make(T, int64(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, int64(n))...) })
shouldPanic("len out of range", func() { _ = append(t, make(T, uint64(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, uint64(n))...) })
shouldPanic("len out of range", func() { _ = append(t, make(T, int(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, int(n))...) })
shouldPanic("len out of range", func() { _ = append(t, make(T, uint(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, uint(n))...) })
}
}
func testMakeInAppendBytes(n uint64) {
type T []byte
for _, length := range []int{0, 1} {
t := make(T, length)
shouldPanic("len out of range", func() { _ = append(t, make(T, int(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, int(n))...) })
shouldPanic("len out of range", func() { _ = append(t, make(T, uint(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, uint(n))...) })
shouldPanic("len out of range", func() { _ = append(t, make(T, int64(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, int64(n))...) })
shouldPanic("len out of range", func() { _ = append(t, make(T, uint64(n))...) })
shouldPanic("cap out of range", func() { _ = append(t, make(T, 0, uint64(n))...) })
}
}