src/cmd/compile/internal/escape/assign.go - go - Git at Google

 // Copyright 2018 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 escape

 import (
 	"cmd/compile/internal/base"
 	"cmd/compile/internal/ir"
 )

 // addr evaluates an addressable expression n and returns a hole
 // that represents storing into the represented location.
 func (e *escape) addr(n ir.Node) hole {
 	if n == nil || ir.IsBlank(n) {
 		// Can happen in select case, range, maybe others.
 		return e.discardHole()
 	}

 	k := e.heapHole()

 	switch n.Op() {
 	default:
 		base.Fatalf("unexpected addr: %v", n)
 	case ir.ONAME:
 		n := n.(*ir.Name)
 		if n.Class == ir.PEXTERN {
 			break
 		}
 		k = e.oldLoc(n).asHole()
 	case ir.OLINKSYMOFFSET:
 		break
 	case ir.ODOT:
 		n := n.(*ir.SelectorExpr)
 		k = e.addr(n.X)
 	case ir.OINDEX:
 		n := n.(*ir.IndexExpr)
 		e.discard(n.Index)
 		if n.X.Type().IsArray() {
 			k = e.addr(n.X)
 		} else {
 			e.discard(n.X)
 		}
 	case ir.ODEREF, ir.ODOTPTR:
 		e.discard(n)
 	case ir.OINDEXMAP:
 		n := n.(*ir.IndexExpr)
 		e.discard(n.X)
 		e.assignHeap(n.Index, "key of map put", n)
 	}

 	return k
 }

 func (e *escape) addrs(l ir.Nodes) []hole {
 	var ks []hole
 	for _, n := range l {
 		ks = append(ks, e.addr(n))
 	}
 	return ks
 }

 func (e *escape) assignHeap(src ir.Node, why string, where ir.Node) {
 	e.expr(e.heapHole().note(where, why), src)
 }

 // assignList evaluates the assignment dsts... = srcs....
 func (e *escape) assignList(dsts, srcs []ir.Node, why string, where ir.Node) {
 	ks := e.addrs(dsts)
 	for i, k := range ks {
 		var src ir.Node
 		if i < len(srcs) {
 			src = srcs[i]
 		}

 		if dst := dsts[i]; dst != nil {
 			// Detect implicit conversion of uintptr to unsafe.Pointer when
 			// storing into reflect.{Slice,String}Header.
 			if dst.Op() == ir.ODOTPTR && ir.IsReflectHeaderDataField(dst) {
 				e.unsafeValue(e.heapHole().note(where, why), src)
 				continue
 			}

 			// Filter out some no-op assignments for escape analysis.
 			if src != nil && isSelfAssign(dst, src) {
 				if base.Flag.LowerM != 0 {
 					base.WarnfAt(where.Pos(), "%v ignoring self-assignment in %v", e.curfn, where)
 				}
 				k = e.discardHole()
 			}
 		}

 		e.expr(k.note(where, why), src)
 	}

 	e.reassigned(ks, where)
 }

 // reassigned marks the locations associated with the given holes as
 // reassigned, unless the location represents a variable declared and
 // assigned exactly once by where.
 func (e *escape) reassigned(ks []hole, where ir.Node) {
 	if as, ok := where.(*ir.AssignStmt); ok && as.Op() == ir.OAS && as.Y == nil {
 		if dst, ok := as.X.(*ir.Name); ok && dst.Op() == ir.ONAME && dst.Defn == nil {
 			// Zero-value assignment for variable declared without an
 			// explicit initial value. Assume this is its initialization
 			// statement.
 			return
 		}
 	}

 	for _, k := range ks {
 		loc := k.dst
 		// Variables declared by range statements are assigned on every iteration.
 		if n, ok := loc.n.(*ir.Name); ok && n.Defn == where && where.Op() != ir.ORANGE {
 			continue
 		}
 		loc.reassigned = true
 	}
 }
	// Copyright 2018 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 escape

	import (
	"cmd/compile/internal/base"
	"cmd/compile/internal/ir"
	)

	// addr evaluates an addressable expression n and returns a hole
	// that represents storing into the represented location.
	func (e *escape) addr(n ir.Node) hole {
	if n == nil \|\| ir.IsBlank(n) {
	// Can happen in select case, range, maybe others.
	return e.discardHole()
	}

	k := e.heapHole()

	switch n.Op() {
	default:
	base.Fatalf("unexpected addr: %v", n)
	case ir.ONAME:
	n := n.(*ir.Name)
	if n.Class == ir.PEXTERN {
	break
	}
	k = e.oldLoc(n).asHole()
	case ir.OLINKSYMOFFSET:
	break
	case ir.ODOT:
	n := n.(*ir.SelectorExpr)
	k = e.addr(n.X)
	case ir.OINDEX:
	n := n.(*ir.IndexExpr)
	e.discard(n.Index)
	if n.X.Type().IsArray() {
	k = e.addr(n.X)
	} else {
	e.discard(n.X)
	}
	case ir.ODEREF, ir.ODOTPTR:
	e.discard(n)
	case ir.OINDEXMAP:
	n := n.(*ir.IndexExpr)
	e.discard(n.X)
	e.assignHeap(n.Index, "key of map put", n)
	}

	return k
	}

	func (e *escape) addrs(l ir.Nodes) []hole {
	var ks []hole
	for _, n := range l {
	ks = append(ks, e.addr(n))
	}
	return ks
	}

	func (e *escape) assignHeap(src ir.Node, why string, where ir.Node) {
	e.expr(e.heapHole().note(where, why), src)
	}

	// assignList evaluates the assignment dsts... = srcs....
	func (e *escape) assignList(dsts, srcs []ir.Node, why string, where ir.Node) {
	ks := e.addrs(dsts)
	for i, k := range ks {
	var src ir.Node
	if i < len(srcs) {
	src = srcs[i]
	}

	if dst := dsts[i]; dst != nil {
	// Detect implicit conversion of uintptr to unsafe.Pointer when
	// storing into reflect.{Slice,String}Header.
	if dst.Op() == ir.ODOTPTR && ir.IsReflectHeaderDataField(dst) {
	e.unsafeValue(e.heapHole().note(where, why), src)
	continue
	}

	// Filter out some no-op assignments for escape analysis.
	if src != nil && isSelfAssign(dst, src) {
	if base.Flag.LowerM != 0 {
	base.WarnfAt(where.Pos(), "%v ignoring self-assignment in %v", e.curfn, where)
	}
	k = e.discardHole()
	}
	}

	e.expr(k.note(where, why), src)
	}

	e.reassigned(ks, where)
	}

	// reassigned marks the locations associated with the given holes as
	// reassigned, unless the location represents a variable declared and
	// assigned exactly once by where.
	func (e *escape) reassigned(ks []hole, where ir.Node) {
	if as, ok := where.(*ir.AssignStmt); ok && as.Op() == ir.OAS && as.Y == nil {
	if dst, ok := as.X.(*ir.Name); ok && dst.Op() == ir.ONAME && dst.Defn == nil {
	// Zero-value assignment for variable declared without an
	// explicit initial value. Assume this is its initialization
	// statement.
	return
	}
	}

	for _, k := range ks {
	loc := k.dst
	// Variables declared by range statements are assigned on every iteration.
	if n, ok := loc.n.(*ir.Name); ok && n.Defn == where && where.Op() != ir.ORANGE {
	continue
	}
	loc.reassigned = true
	}
	}