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cmd/compile: retire "IsHiddenClosure" and "IsDeadcodeClosure"
Since CL 522318, all closures are now hidden. Thus this CL removes all codes that worries about hidden vs non-hidden closures. Change-Id: I1ea124168c76cedbfc4053d2f150937a382aa330 Reviewed-on: https://go-review.googlesource.com/c/go/+/523275 LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com> Reviewed-by: Dmitri Shuralyov <dmitshur@google.com> Auto-Submit: Cuong Manh Le <cuong.manhle.vn@gmail.com> Reviewed-by: Than McIntosh <thanm@google.com>
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@ -139,7 +139,7 @@ func Batch(fns []*ir.Func, recursive bool) {
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b.initFunc(fn)
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}
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for _, fn := range fns {
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if !fn.IsHiddenClosure() {
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if !fn.IsClosure() {
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b.walkFunc(fn)
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}
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}
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@ -230,7 +230,7 @@ func (e *escape) exprSkipInit(k hole, n ir.Node) {
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k = e.spill(k, n)
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e.closures = append(e.closures, closure{k, n})
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if fn := n.Func; fn.IsHiddenClosure() {
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if fn := n.Func; fn.IsClosure() {
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for _, cv := range fn.ClosureVars {
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if loc := e.oldLoc(cv); !loc.captured {
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loc.captured = true
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@ -39,12 +39,7 @@ func enqueueFunc(fn *ir.Func) {
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return
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}
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// Don't try compiling dead hidden closure.
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if fn.IsDeadcodeClosure() {
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return
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}
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if clo := fn.OClosure; clo != nil && !ir.IsTrivialClosure(clo) {
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if fn.IsClosure() {
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return // we'll get this as part of its enclosing function
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}
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@ -186,57 +186,6 @@ func CanInlineFuncs(funcs []*ir.Func, profile *pgoir.Profile) {
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})
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}
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// GarbageCollectUnreferencedHiddenClosures makes a pass over all the
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// top-level (non-hidden-closure) functions looking for nested closure
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// functions that are reachable, then sweeps through the Target.Decls
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// list and marks any non-reachable hidden closure function as dead.
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// See issues #59404 and #59638 for more context.
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func GarbageCollectUnreferencedHiddenClosures() {
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liveFuncs := make(map[*ir.Func]bool)
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var markLiveFuncs func(fn *ir.Func)
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markLiveFuncs = func(fn *ir.Func) {
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if liveFuncs[fn] {
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return
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}
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liveFuncs[fn] = true
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ir.Visit(fn, func(n ir.Node) {
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if clo, ok := n.(*ir.ClosureExpr); ok {
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markLiveFuncs(clo.Func)
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}
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})
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}
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for i := 0; i < len(typecheck.Target.Funcs); i++ {
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fn := typecheck.Target.Funcs[i]
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if fn.IsHiddenClosure() {
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continue
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}
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markLiveFuncs(fn)
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}
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for i := 0; i < len(typecheck.Target.Funcs); i++ {
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fn := typecheck.Target.Funcs[i]
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if !fn.IsHiddenClosure() {
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continue
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}
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if fn.IsDeadcodeClosure() {
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continue
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}
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if liveFuncs[fn] {
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continue
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}
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fn.SetIsDeadcodeClosure(true)
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if base.Flag.LowerM > 2 {
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fmt.Printf("%v: unreferenced closure %v marked as dead\n", ir.Line(fn), fn)
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}
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if fn.Inl != nil && fn.LSym == nil {
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ir.InitLSym(fn, true)
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}
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}
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}
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// inlineBudget determines the max budget for function 'fn' prior to
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// analyzing the hairiness of the body of 'fn'. We pass in the pgo
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// profile if available (which can change the budget), also a
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@ -49,11 +49,6 @@ func DevirtualizeAndInlinePackage(pkg *ir.Package, profile *pgoir.Profile) {
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}
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if base.Flag.LowerL != 0 {
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// Perform a garbage collection of hidden closures functions that
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// are no longer reachable from top-level functions following
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// inlining. See #59404 and #59638 for more context.
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inline.GarbageCollectUnreferencedHiddenClosures()
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if base.Debug.DumpInlFuncProps != "" {
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inlheur.DumpFuncProps(nil, base.Debug.DumpInlFuncProps)
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}
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@ -222,21 +222,17 @@ type Mark struct {
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type ScopeID int32
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const (
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funcDupok = 1 << iota // duplicate definitions ok
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funcWrapper // hide frame from users (elide in tracebacks, don't count as a frame for recover())
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funcABIWrapper // is an ABI wrapper (also set flagWrapper)
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funcNeedctxt // function uses context register (has closure variables)
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// true if closure inside a function; false if a simple function or a
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// closure in a global variable initialization
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funcIsHiddenClosure
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funcIsDeadcodeClosure // true if closure is deadcode
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funcHasDefer // contains a defer statement
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funcNilCheckDisabled // disable nil checks when compiling this function
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funcInlinabilityChecked // inliner has already determined whether the function is inlinable
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funcNeverReturns // function never returns (in most cases calls panic(), os.Exit(), or equivalent)
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funcOpenCodedDeferDisallowed // can't do open-coded defers
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funcClosureResultsLost // closure is called indirectly and we lost track of its results; used by escape analysis
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funcPackageInit // compiler emitted .init func for package
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funcDupok = 1 << iota // duplicate definitions ok
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funcWrapper // hide frame from users (elide in tracebacks, don't count as a frame for recover())
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funcABIWrapper // is an ABI wrapper (also set flagWrapper)
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funcNeedctxt // function uses context register (has closure variables)
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funcHasDefer // contains a defer statement
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funcNilCheckDisabled // disable nil checks when compiling this function
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funcInlinabilityChecked // inliner has already determined whether the function is inlinable
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funcNeverReturns // function never returns (in most cases calls panic(), os.Exit(), or equivalent)
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funcOpenCodedDeferDisallowed // can't do open-coded defers
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funcClosureResultsLost // closure is called indirectly and we lost track of its results; used by escape analysis
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funcPackageInit // compiler emitted .init func for package
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)
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type SymAndPos struct {
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@ -248,8 +244,6 @@ func (f *Func) Dupok() bool { return f.flags&funcDupok != 0 }
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func (f *Func) Wrapper() bool { return f.flags&funcWrapper != 0 }
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func (f *Func) ABIWrapper() bool { return f.flags&funcABIWrapper != 0 }
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func (f *Func) Needctxt() bool { return f.flags&funcNeedctxt != 0 }
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func (f *Func) IsHiddenClosure() bool { return f.flags&funcIsHiddenClosure != 0 }
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func (f *Func) IsDeadcodeClosure() bool { return f.flags&funcIsDeadcodeClosure != 0 }
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func (f *Func) HasDefer() bool { return f.flags&funcHasDefer != 0 }
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func (f *Func) NilCheckDisabled() bool { return f.flags&funcNilCheckDisabled != 0 }
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func (f *Func) InlinabilityChecked() bool { return f.flags&funcInlinabilityChecked != 0 }
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@ -262,8 +256,6 @@ func (f *Func) SetDupok(b bool) { f.flags.set(funcDupok, b) }
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func (f *Func) SetWrapper(b bool) { f.flags.set(funcWrapper, b) }
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func (f *Func) SetABIWrapper(b bool) { f.flags.set(funcABIWrapper, b) }
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func (f *Func) SetNeedctxt(b bool) { f.flags.set(funcNeedctxt, b) }
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func (f *Func) SetIsHiddenClosure(b bool) { f.flags.set(funcIsHiddenClosure, b) }
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func (f *Func) SetIsDeadcodeClosure(b bool) { f.flags.set(funcIsDeadcodeClosure, b) }
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func (f *Func) SetHasDefer(b bool) { f.flags.set(funcHasDefer, b) }
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func (f *Func) SetNilCheckDisabled(b bool) { f.flags.set(funcNilCheckDisabled, b) }
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func (f *Func) SetInlinabilityChecked(b bool) { f.flags.set(funcInlinabilityChecked, b) }
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@ -281,6 +273,14 @@ func (f *Func) SetWBPos(pos src.XPos) {
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}
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}
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func (f *Func) IsClosure() bool {
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if f.OClosure == nil {
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return false
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}
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// Trivial closure will be converted to global.
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return !IsTrivialClosure(f.OClosure)
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}
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// FuncName returns the name (without the package) of the function f.
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func FuncName(f *Func) string {
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if f == nil || f.Nname == nil {
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@ -484,19 +484,20 @@ func closureName(outerfn *Func, pos src.XPos, why Op) *types.Sym {
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// should have an inline-adjusted position, whereas the ODCLFUNC and
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// ONAME must not.
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//
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// outerfn is the enclosing function, if any. The returned function is
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// outerfn is the enclosing function. The returned function is
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// appending to pkg.Funcs.
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//
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// why is the reason we're generating this Func. It can be OCLOSURE
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// (for a normal function literal) or OGO or ODEFER (for wrapping a
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// call expression that has parameters or results).
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func NewClosureFunc(fpos, cpos src.XPos, why Op, typ *types.Type, outerfn *Func, pkg *Package) *Func {
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fn := NewFunc(fpos, fpos, closureName(outerfn, cpos, why), typ)
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fn.SetIsHiddenClosure(outerfn != nil)
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if outerfn != nil {
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fn.SetDupok(outerfn.Dupok()) // if the outer function is dupok, so is the closure
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if outerfn == nil {
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base.FatalfAt(fpos, "outerfn is nil")
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}
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fn := NewFunc(fpos, fpos, closureName(outerfn, cpos, why), typ)
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fn.SetDupok(outerfn.Dupok()) // if the outer function is dupok, so is the closure
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clo := &ClosureExpr{Func: fn}
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clo.op = OCLOSURE
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clo.pos = cpos
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@ -14,10 +14,10 @@ package ir
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// The algorithm (known as Tarjan's algorithm) for doing that is taken from
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// Sedgewick, Algorithms, Second Edition, p. 482, with two adaptations.
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//
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// First, a hidden closure function (n.Func.IsHiddenClosure()) cannot be the
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// root of a connected component. Refusing to use it as a root
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// forces it into the component of the function in which it appears.
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// This is more convenient for escape analysis.
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// First, a non-trivial closure function (fn.OClosure != nil) cannot be
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// the root of a connected component. Refusing to use it as a root forces
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// it into the component of the function in which it appears. This is
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// more convenient for escape analysis.
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//
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// Second, each function becomes two virtual nodes in the graph,
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// with numbers n and n+1. We record the function's node number as n
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@ -54,7 +54,7 @@ func VisitFuncsBottomUp(list []*Func, analyze func(list []*Func, recursive bool)
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v.analyze = analyze
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v.nodeID = make(map[*Func]uint32)
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for _, n := range list {
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if !n.IsHiddenClosure() {
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if !n.IsClosure() {
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v.visit(n)
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}
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}
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@ -97,7 +97,7 @@ func (v *bottomUpVisitor) visit(n *Func) uint32 {
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}
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})
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if (min == id || min == id+1) && !n.IsHiddenClosure() {
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if (min == id || min == id+1) && !n.IsClosure() {
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// This node is the root of a strongly connected component.
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// The original min was id+1. If the bottomUpVisitor found its way
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@ -3061,11 +3061,6 @@ func (r *reader) funcLit() ir.Node {
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r.addBody(fn, nil)
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// un-hide closures belong to init function.
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if (r.curfn.IsPackageInit() || strings.HasPrefix(r.curfn.Sym().Name, "init.")) && ir.IsTrivialClosure(fn.OClosure) {
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fn.SetIsHiddenClosure(false)
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}
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return fn.OClosure
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}
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@ -393,12 +393,6 @@ func (s *Schedule) StaticAssign(l *ir.Name, loff int64, r ir.Node, typ *types.Ty
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if base.Debug.Closure > 0 {
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base.WarnfAt(r.Pos(), "closure converted to global")
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}
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// Issue 59680: if the closure we're looking at was produced
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// by inlining, it could be marked as hidden, which we don't
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// want (moving the func to a static init will effectively
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// hide it from escape analysis). Mark as non-hidden here.
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// so that it will participated in escape analysis.
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r.Func.SetIsHiddenClosure(false)
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// Closures with no captured variables are globals,
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// so the assignment can be done at link time.
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// TODO if roff != 0 { panic }
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@ -94,7 +94,7 @@ func main() {
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return x + 2
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}
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y, sink = func() (func(int) int, int) { // ERROR "can inline main.func12"
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return func(x int) int { // ERROR "can inline main.func12"
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return func(x int) int { // ERROR "can inline main.func12" "func literal escapes to heap"
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return x + 1
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}, 42
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}() // ERROR "func literal does not escape" "inlining call to main.func12"
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@ -109,7 +109,7 @@ func main() {
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return x + 2
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}
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y, sink = func() (func(int) int, int) { // ERROR "can inline main.func13.2"
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return func(x int) int { // ERROR "can inline main.func13.2"
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return func(x int) int { // ERROR "can inline main.func13.2" "func literal escapes to heap"
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return x + 1
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}, 42
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}() // ERROR "func literal does not escape" "inlining call to main.func13.2"
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@ -25,7 +25,7 @@ func f1() {
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// Escape analysis used to miss inlined code in closures.
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func() { // ERROR "can inline f1.func1"
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p = alloc(3) // ERROR "inlining call to alloc"
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p = alloc(3) // ERROR "inlining call to alloc" "moved to heap: x"
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}() // ERROR "inlining call to f1.func1" "inlining call to alloc" "moved to heap: x"
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f = func() { // ERROR "func literal escapes to heap" "can inline f1.func2"
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@ -134,7 +134,7 @@ func ClosureCallArgs14() {
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func ClosureCallArgs15() {
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x := 0 // ERROR "moved to heap: x"
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p := &x
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sink = func(p **int) *int { // ERROR "leaking param content: p" "func literal does not escape"
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sink = func(p **int) *int { // ERROR "leaking param: p to result ~r0 level=1" "func literal does not escape"
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return *p
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}(&p)
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}
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