go/test/checkbce.go
Yi Yang 4ee1d542ed cmd/compile: sparse conditional constant propagation
sparse conditional constant propagation can discover optimization
opportunities that cannot be found by just combining constant folding
and constant propagation and dead code elimination separately.

This is a re-submit of PR#59575, which fix a broken dominance relationship caught by ssacheck

Updates https://github.com/golang/go/issues/59399

Change-Id: I57482dee38f8e80a610aed4f64295e60c38b7a47
GitHub-Last-Rev: 830016f24e
GitHub-Pull-Request: golang/go#60469
Reviewed-on: https://go-review.googlesource.com/c/go/+/498795
LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com>
Reviewed-by: Keith Randall <khr@google.com>
Reviewed-by: Heschi Kreinick <heschi@google.com>
Reviewed-by: Keith Randall <khr@golang.org>
2023-09-12 21:01:50 +00:00

185 lines
3.7 KiB
Go

// +build amd64,!gcflags_noopt
// errorcheck -0 -d=ssa/check_bce/debug=3
// Copyright 2016 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.
// Test that the compiler does bounds check elimination as expected.
// This avoids accidental regressions.
package main
import "encoding/binary"
func f0(a []int) {
a[0] = 1 // ERROR "Found IsInBounds$"
a[0] = 1
a[6] = 1 // ERROR "Found IsInBounds$"
a[6] = 1
a[5] = 1
a[5] = 1
}
func f1(a [256]int, i int) {
var j int
useInt(a[i]) // ERROR "Found IsInBounds$"
j = i % 256
useInt(a[j]) // ERROR "Found IsInBounds$"
j = i & 255
useInt(a[j])
j = i & 17
useInt(a[j])
if 4 <= i && i < len(a) {
useInt(a[i])
useInt(a[i-1])
useInt(a[i-4])
}
}
func f2(a [256]int, i uint) {
useInt(a[i]) // ERROR "Found IsInBounds$"
j := i % 256
useInt(a[j])
j = i & 255
useInt(a[j])
j = i & 17
useInt(a[j])
}
func f2a(a [35]int, i uint8) {
useInt(a[i]) // ERROR "Found IsInBounds$"
j := i & 34
useInt(a[j])
j = i & 17
useInt(a[j])
}
func f2b(a [35]int, i uint16) {
useInt(a[i]) // ERROR "Found IsInBounds$"
j := i & 34
useInt(a[j])
j = i & 17
useInt(a[j])
}
func f2c(a [35]int, i uint32) {
useInt(a[i]) // ERROR "Found IsInBounds$"
j := i & 34
useInt(a[j])
j = i & 17
useInt(a[j])
}
func f3(a [256]int, i uint8) {
useInt(a[i])
useInt(a[i+10])
useInt(a[i+14])
}
func f4(a [27]int, i uint8) {
useInt(a[i%15])
useInt(a[i%19])
useInt(a[i%27])
}
func f5(a []int) {
if len(a) > 5 {
useInt(a[5])
useSlice(a[6:])
useSlice(a[:6])
}
}
func f6(a [32]int, b [64]int, i int) {
useInt(a[uint32(i*0x07C4ACDD)>>27])
useInt(b[uint64(i*0x07C4ACDD)>>58])
useInt(a[uint(i*0x07C4ACDD)>>59])
// The following bounds should not be removed because they can overflow.
useInt(a[uint32(i*0x106297f105d0cc86)>>26]) // ERROR "Found IsInBounds$"
useInt(b[uint64(i*0x106297f105d0cc86)>>57]) // ERROR "Found IsInBounds$"
useInt(a[int32(i*0x106297f105d0cc86)>>26]) // ERROR "Found IsInBounds$"
useInt(b[int64(i*0x106297f105d0cc86)>>57]) // ERROR "Found IsInBounds$"
}
func g1(a []int) {
for i := range a {
a[i] = i
useSlice(a[:i+1])
useSlice(a[:i])
}
}
func g2(a []int) {
useInt(a[3]) // ERROR "Found IsInBounds$"
useInt(a[2])
useInt(a[1])
useInt(a[0])
}
func g3(a []int) {
for i := range a[:256] { // ERROR "Found IsSliceInBounds$"
useInt(a[i]) // ERROR "Found IsInBounds$"
}
b := a[:256]
for i := range b {
useInt(b[i])
}
}
func g4(a [100]int) {
for i := 10; i < 50; i++ {
useInt(a[i-10])
useInt(a[i])
useInt(a[i+25])
useInt(a[i+50])
// The following are out of bounds.
if a[0] == 0xdeadbeef {
// This is a trick to prohibit sccp to optimize out the following out of bound check
continue
}
useInt(a[i-11]) // ERROR "Found IsInBounds$"
useInt(a[i+51]) // ERROR "Found IsInBounds$"
}
}
func decode1(data []byte) (x uint64) {
for len(data) >= 32 {
x += binary.BigEndian.Uint64(data[:8])
x += binary.BigEndian.Uint64(data[8:16])
x += binary.BigEndian.Uint64(data[16:24])
x += binary.BigEndian.Uint64(data[24:32])
data = data[32:]
}
return x
}
func decode2(data []byte) (x uint64) {
// TODO(rasky): this should behave like decode1 and compile to no
// boundchecks. We're currently not able to remove all of them.
for len(data) >= 32 {
x += binary.BigEndian.Uint64(data)
data = data[8:]
x += binary.BigEndian.Uint64(data) // ERROR "Found IsInBounds$"
data = data[8:]
x += binary.BigEndian.Uint64(data) // ERROR "Found IsInBounds$"
data = data[8:]
x += binary.BigEndian.Uint64(data) // ERROR "Found IsInBounds$"
data = data[8:]
}
return x
}
//go:noinline
func useInt(a int) {
}
//go:noinline
func useSlice(a []int) {
}
func main() {
}