cmd/compile: simplify needwritebarrier

Currently, whether we need a write barrier is simply a property of the pointer slot being written to. The only optimization we currently apply using the value being written is that pointers to stack variables can omit write barriers because they're only written to stack slots... but we already omit write barriers for all writes to the stack anyway. Passes toolstash -cmp. Change-Id: I7f16b71ff473899ed96706232d371d5b2b7ae789 Reviewed-on: https://go-review.googlesource.com/37109Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>

cmd/compile: simplify needwritebarrier
Currently, whether we need a write barrier is simply a property of the pointer slot being written to. The only optimization we currently apply using the value being written is that pointers to stack variables can omit write barriers because they're only written to stack slots... but we already omit write barriers for all writes to the stack anyway. Passes toolstash -cmp. Change-Id: I7f16b71ff473899ed96706232d371d5b2b7ae789 Reviewed-on: https://go-review.googlesource.com/37109Reviewed-by: Cherry Zhang <cherryyz@google.com> Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
794f1ebf · Matthew Dempsky · 211102c8 · 794f1ebf · 794f1ebf · 794f1ebf
Commit 794f1ebf authored Feb 15, 2017 by Matthew Dempsky
3 changed files
--- a/src/cmd/compile/internal/gc/ssa.go
+++ b/src/cmd/compile/internal/gc/ssa.go
@@ -553,7 +553,7 @@ func (s *state) stmt(n *Node) {
 			deref = true
 			res = res.Args[0]
 		}
-		s.assign(n.List.First(), res, needwritebarrier(n.List.First(), n.Rlist.First()), deref, 0, false)
+		s.assign(n.List.First(), res, needwritebarrier(n.List.First()), deref, 0, false)
 		s.assign(n.List.Second(), resok, false, false, 0, false)
 		return

@@ -565,12 +565,8 @@ func (s *state) stmt(n *Node) {
 		v := s.intrinsicCall(n.Rlist.First())
 		v1 := s.newValue1(ssa.OpSelect0, n.List.First().Type, v)
 		v2 := s.newValue1(ssa.OpSelect1, n.List.Second().Type, v)
-		// Make a fake node to mimic loading return value, ONLY for write barrier test.
-		// This is future-proofing against non-scalar 2-result intrinsics.
-		// Currently we only have scalar ones, which result in no write barrier.
-		fakeret := &Node{Op: OINDREGSP}
-		s.assign(n.List.First(), v1, needwritebarrier(n.List.First(), fakeret), false, 0, false)
-		s.assign(n.List.Second(), v2, needwritebarrier(n.List.Second(), fakeret), false, 0, false)
+		s.assign(n.List.First(), v1, needwritebarrier(n.List.First()), false, 0, false)
+		s.assign(n.List.Second(), v2, needwritebarrier(n.List.Second()), false, 0, false)
 		return

 	case ODCL:
@@ -696,7 +692,7 @@ func (s *state) stmt(n *Node) {
 		}
 		var r *ssa.Value
 		var isVolatile bool
-		needwb := n.Right != nil && needwritebarrier(n.Left, n.Right)
+		needwb := n.Right != nil && needwritebarrier(n.Left)
 		deref := !canSSAType(t)
 		if deref {
 			if rhs == nil {
@@ -711,7 +707,7 @@ func (s *state) stmt(n *Node) {
 				r = s.expr(rhs)
 			}
 		}
-		if rhs != nil && rhs.Op == OAPPEND && needwritebarrier(n.Left, rhs) {
+		if rhs != nil && rhs.Op == OAPPEND && needwritebarrier(n.Left) {
 			// The frontend gets rid of the write barrier to enable the special OAPPEND
 			// handling above, but since this is not a special case, we need it.
 			// TODO: just add a ptr graying to the end of growslice?

--- a/src/cmd/compile/internal/gc/subr.go
+++ b/src/cmd/compile/internal/gc/subr.go
@@ -1170,7 +1170,7 @@ func ullmancalc(n *Node) {
 		goto out

 	case OAS:
-		if !needwritebarrier(n.Left, n.Right) {
+		if !needwritebarrier(n.Left) {
 			break
 		}
 		fallthrough

--- a/src/cmd/compile/internal/gc/walk.go
+++ b/src/cmd/compile/internal/gc/walk.go
@@ -1664,8 +1664,7 @@ func fncall(l *Node, rt *Type) bool {
 	if l.Ullman >= UINF || l.Op == OINDEXMAP {
 		return true
 	}
-	var r Node
-	if needwritebarrier(l, &r) {
+	if needwritebarrier(l) {
 		return true
 	}
 	if eqtype(l.Type, rt) {
@@ -2049,8 +2048,8 @@ func isstack(n *Node) bool {
 	return false
 }

-// Do we need a write barrier for the assignment l = r?
-func needwritebarrier(l *Node, r *Node) bool {
+// Do we need a write barrier for assigning to l?
+func needwritebarrier(l *Node) bool {
 	if !use_writebarrier {
 		return false
 	}
@@ -2077,21 +2076,6 @@ func needwritebarrier(l *Node, r *Node) bool {
 		return false
 	}

-	// Implicit zeroing is still zeroing, so it needs write
-	// barriers. In practice, these are all to stack variables
-	// (even if isstack isn't smart enough to figure that out), so
-	// they'll be eliminated by the backend.
-	if r == nil {
-		return true
-	}
-
-	// Ignore no-op conversions when making decision.
-	// Ensures that xp = unsafe.Pointer(&x) is treated
-	// the same as xp = &x.
-	for r.Op == OCONVNOP {
-		r = r.Left
-	}
-
 	// TODO: We can eliminate write barriers if we know *both* the
 	// current and new content of the slot must already be shaded.
 	// We know a pointer is shaded if it's nil, or points to
@@ -2100,12 +2084,6 @@ func needwritebarrier(l *Node, r *Node) bool {
 	// writes to just-allocated objects. Unfortunately, knowing
 	// the "current" value of the slot requires flow analysis.

-	// No write barrier for storing address of stack values,
-	// which are guaranteed only to be written to the stack.
-	if r.Op == OADDR && isstack(r.Left) {
-		return false
-	}
-
 	// Otherwise, be conservative and use write barrier.
 	return true
 }