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[dev.regabi] cmd/compile: remove toolstash scaffolding

Now that CaptureVars is gone, we can remove the extra code in escape
analysis that only served to appease toolstash -cmp.

Change-Id: I8c811834f3d966e76702e2d362e3de414c94bea6
Reviewed-on: https://go-review.googlesource.com/c/go/+/281544
Run-TryBot: Matthew Dempsky <mdempsky@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Trust: Matthew Dempsky <mdempsky@google.com>
Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
This commit is contained in:
Matthew Dempsky 2021-01-05 09:37:28 -08:00
parent 9821838832
commit cb05a0aa6a
4 changed files with 4 additions and 68 deletions

View File

@ -116,12 +116,6 @@ type escape struct {
// label with a corresponding backwards "goto" (i.e., // label with a corresponding backwards "goto" (i.e.,
// unstructured loop). // unstructured loop).
loopDepth int loopDepth int
// loopSlop tracks how far off typecheck's "decldepth" variable
// would be from loopDepth at the same point during type checking.
// It's only needed to match CaptureVars's pessimism until it can be
// removed entirely.
loopSlop int
} }
// An location represents an abstract location that stores a Go // An location represents an abstract location that stores a Go
@ -131,7 +125,6 @@ type location struct {
curfn *ir.Func // enclosing function curfn *ir.Func // enclosing function
edges []edge // incoming edges edges []edge // incoming edges
loopDepth int // loopDepth at declaration loopDepth int // loopDepth at declaration
loopSlop int // loopSlop at declaration
// derefs and walkgen are used during walkOne to track the // derefs and walkgen are used during walkOne to track the
// minimal dereferences from the walk root. // minimal dereferences from the walk root.
@ -233,14 +226,10 @@ func Batch(fns []*ir.Func, recursive bool) {
// can decide whether closures should capture their free variables // can decide whether closures should capture their free variables
// by value or reference. // by value or reference.
for _, closure := range b.closures { for _, closure := range b.closures {
b.flowClosure(closure.k, closure.clo, false) b.flowClosure(closure.k, closure.clo)
} }
b.closures = nil b.closures = nil
for _, orphan := range findOrphans(fns) {
b.flowClosure(b.blankLoc.asHole(), orphan, true)
}
for _, loc := range b.allLocs { for _, loc := range b.allLocs {
if why := HeapAllocReason(loc.n); why != "" { if why := HeapAllocReason(loc.n); why != "" {
b.flow(b.heapHole().addr(loc.n, why), loc) b.flow(b.heapHole().addr(loc.n, why), loc)
@ -251,46 +240,6 @@ func Batch(fns []*ir.Func, recursive bool) {
b.finish(fns) b.finish(fns)
} }
// findOrphans finds orphaned closure expressions that were originally
// contained within a function in fns, but were lost due to earlier
// optimizations.
// TODO(mdempsky): Remove after CaptureVars is gone.
func findOrphans(fns []*ir.Func) []*ir.ClosureExpr {
have := make(map[*ir.Func]bool)
for _, fn := range fns {
have[fn] = true
}
parent := func(fn *ir.Func) *ir.Func {
if len(fn.ClosureVars) == 0 {
return nil
}
cv := fn.ClosureVars[0]
if cv.Defn == nil {
return nil // method value wrapper
}
return cv.Outer.Curfn
}
outermost := func(fn *ir.Func) *ir.Func {
for {
outer := parent(fn)
if outer == nil {
return fn
}
fn = outer
}
}
var orphans []*ir.ClosureExpr
for _, fn := range typecheck.Target.Decls {
if fn, ok := fn.(*ir.Func); ok && have[outermost(fn)] && !have[fn] {
orphans = append(orphans, fn.OClosure)
}
}
return orphans
}
func (b *batch) with(fn *ir.Func) *escape { func (b *batch) with(fn *ir.Func) *escape {
return &escape{ return &escape{
batch: b, batch: b,
@ -348,15 +297,11 @@ func (b *batch) walkFunc(fn *ir.Func) {
} }
} }
func (b *batch) flowClosure(k hole, clo *ir.ClosureExpr, orphan bool) { func (b *batch) flowClosure(k hole, clo *ir.ClosureExpr) {
for _, cv := range clo.Func.ClosureVars { for _, cv := range clo.Func.ClosureVars {
n := cv.Canonical() n := cv.Canonical()
if n.Opt == nil && orphan {
continue // n.Curfn must have been an orphan too
}
loc := b.oldLoc(cv) loc := b.oldLoc(cv)
if !loc.captured && !orphan { if !loc.captured {
base.FatalfAt(cv.Pos(), "closure variable never captured: %v", cv) base.FatalfAt(cv.Pos(), "closure variable never captured: %v", cv)
} }
@ -454,9 +399,6 @@ func (e *escape) stmt(n ir.Node) {
if base.Flag.LowerM > 2 { if base.Flag.LowerM > 2 {
fmt.Printf("%v:%v non-looping label\n", base.FmtPos(base.Pos), n) fmt.Printf("%v:%v non-looping label\n", base.FmtPos(base.Pos), n)
} }
if s := n.Label.Name; !strings.HasPrefix(s, ".") && !strings.Contains(s, "·") {
e.loopSlop++
}
case looping: case looping:
if base.Flag.LowerM > 2 { if base.Flag.LowerM > 2 {
fmt.Printf("%v: %v looping label\n", base.FmtPos(base.Pos), n) fmt.Printf("%v: %v looping label\n", base.FmtPos(base.Pos), n)
@ -597,7 +539,6 @@ func (e *escape) stmts(l ir.Nodes) {
func (e *escape) block(l ir.Nodes) { func (e *escape) block(l ir.Nodes) {
old := e.loopDepth old := e.loopDepth
e.stmts(l) e.stmts(l)
e.loopSlop += e.loopDepth - old
e.loopDepth = old e.loopDepth = old
} }
@ -821,7 +762,7 @@ func (e *escape) exprSkipInit(k hole, n ir.Node) {
// Ignore reassignments to the variable in straightline code // Ignore reassignments to the variable in straightline code
// preceding the first capture by a closure. // preceding the first capture by a closure.
if loc.loopDepth+loc.loopSlop == e.loopDepth+e.loopSlop { if loc.loopDepth == e.loopDepth {
loc.reassigned = false loc.reassigned = false
} }
} }
@ -1286,7 +1227,6 @@ func (e *escape) dcl(n *ir.Name) hole {
} }
loc := e.oldLoc(n) loc := e.oldLoc(n)
loc.loopDepth = e.loopDepth loc.loopDepth = e.loopDepth
loc.loopSlop = e.loopSlop
return loc.asHole() return loc.asHole()
} }
@ -1323,7 +1263,6 @@ func (e *escape) newLoc(n ir.Node, transient bool) *location {
n: n, n: n,
curfn: e.curfn, curfn: e.curfn,
loopDepth: e.loopDepth, loopDepth: e.loopDepth,
loopSlop: e.loopSlop,
transient: transient, transient: transient,
} }
e.allLocs = append(e.allLocs, loc) e.allLocs = append(e.allLocs, loc)

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@ -154,7 +154,6 @@ func s15a8(x *[15]int64) [15]int64 {
// On not-amd64, test the host architecture and os // On not-amd64, test the host architecture and os
arches := []string{runtime.GOARCH} arches := []string{runtime.GOARCH}
goos0 := runtime.GOOS goos0 := runtime.GOOS
goos0 = "" + goos0 // TODO(mdempsky): Remove once CaptureVars is gone.
if runtime.GOARCH == "amd64" { // Test many things with "linux" (wasm will get "js") if runtime.GOARCH == "amd64" { // Test many things with "linux" (wasm will get "js")
arches = []string{"arm", "arm64", "386", "amd64", "mips", "mips64", "ppc64le", "riscv64", "s390x", "wasm"} arches = []string{"arm", "arm64", "386", "amd64", "mips", "mips64", "ppc64le", "riscv64", "s390x", "wasm"}
goos0 = "linux" goos0 = "linux"

View File

@ -41,7 +41,6 @@ func main() {
n := -1 n := -1
shouldPanic("makechan: size out of range", func() { _ = make(T, n) }) shouldPanic("makechan: size out of range", func() { _ = make(T, n) })
shouldPanic("makechan: size out of range", func() { _ = make(T, int64(n)) }) shouldPanic("makechan: size out of range", func() { _ = make(T, int64(n)) })
n = 0 + n // TODO(mdempsky): Remove once CaptureVars is gone.
if ptrSize == 8 { if ptrSize == 8 {
// Test mem > maxAlloc // Test mem > maxAlloc
var n2 int64 = 1 << 59 var n2 int64 = 1 << 59

View File

@ -22,7 +22,6 @@ func main() {
testMakeInAppend(n) testMakeInAppend(n)
var t *byte var t *byte
n = 0 + n // TODO(mdempsky): Remove once CaptureVars is gone.
if unsafe.Sizeof(t) == 8 { if unsafe.Sizeof(t) == 8 {
// Test mem > maxAlloc // Test mem > maxAlloc
var n2 int64 = 1 << 59 var n2 int64 = 1 << 59