src/cmd/compile/internal/walk/stmt.go - toolchain/go - Git at Google

 // Copyright 2009 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 walk

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

 // The result of walkStmt MUST be assigned back to n, e.g.
 //
 //	n.Left = walkStmt(n.Left)
 func walkStmt(n ir.Node) ir.Node {
 	if n == nil {
 		return n
 	}

 	ir.SetPos(n)

 	walkStmtList(n.Init())

 	switch n.Op() {
 	default:
 		if n.Op() == ir.ONAME {
 			n := n.(*ir.Name)
 			base.Errorf("%v is not a top level statement", n.Sym())
 		} else {
 			base.Errorf("%v is not a top level statement", n.Op())
 		}
 		ir.Dump("nottop", n)
 		return n

 	case ir.OAS,
 		ir.OASOP,
 		ir.OAS2,
 		ir.OAS2DOTTYPE,
 		ir.OAS2RECV,
 		ir.OAS2FUNC,
 		ir.OAS2MAPR,
 		ir.OCLEAR,
 		ir.OCLOSE,
 		ir.OCOPY,
 		ir.OCALLINTER,
 		ir.OCALL,
 		ir.OCALLFUNC,
 		ir.ODELETE,
 		ir.OSEND,
 		ir.OPRINT,
 		ir.OPRINTLN,
 		ir.OPANIC,
 		ir.ORECOVERFP,
 		ir.OGETG:
 		if n.Typecheck() == 0 {
 			base.Fatalf("missing typecheck: %+v", n)
 		}

 		init := ir.TakeInit(n)
 		n = walkExpr(n, &init)
 		if n.Op() == ir.ONAME {
 			// copy rewrote to a statement list and a temp for the length.
 			// Throw away the temp to avoid plain values as statements.
 			n = ir.NewBlockStmt(n.Pos(), init)
 			init = nil
 		}
 		if len(init) > 0 {
 			switch n.Op() {
 			case ir.OAS, ir.OAS2, ir.OBLOCK:
 				n.(ir.InitNode).PtrInit().Prepend(init...)

 			default:
 				init.Append(n)
 				n = ir.NewBlockStmt(n.Pos(), init)
 			}
 		}
 		return n

 	// special case for a receive where we throw away
 	// the value received.
 	case ir.ORECV:
 		n := n.(*ir.UnaryExpr)
 		return walkRecv(n)

 	case ir.OBREAK,
 		ir.OCONTINUE,
 		ir.OFALL,
 		ir.OGOTO,
 		ir.OLABEL,
 		ir.OJUMPTABLE,
 		ir.OINTERFACESWITCH,
 		ir.ODCL,
 		ir.OCHECKNIL:
 		return n

 	case ir.OBLOCK:
 		n := n.(*ir.BlockStmt)
 		walkStmtList(n.List)
 		return n

 	case ir.OCASE:
 		base.Errorf("case statement out of place")
 		panic("unreachable")

 	case ir.ODEFER:
 		n := n.(*ir.GoDeferStmt)
 		ir.CurFunc.SetHasDefer(true)
 		ir.CurFunc.NumDefers++
 		if ir.CurFunc.NumDefers > maxOpenDefers || n.DeferAt != nil {
 			// Don't allow open-coded defers if there are more than
 			// 8 defers in the function, since we use a single
 			// byte to record active defers.
 			// Also don't allow if we need to use deferprocat.
 			ir.CurFunc.SetOpenCodedDeferDisallowed(true)
 		}
 		if n.Esc() != ir.EscNever {
 			// If n.Esc is not EscNever, then this defer occurs in a loop,
 			// so open-coded defers cannot be used in this function.
 			ir.CurFunc.SetOpenCodedDeferDisallowed(true)
 		}
 		fallthrough
 	case ir.OGO:
 		n := n.(*ir.GoDeferStmt)
 		return walkGoDefer(n)

 	case ir.OFOR:
 		n := n.(*ir.ForStmt)
 		return walkFor(n)

 	case ir.OIF:
 		n := n.(*ir.IfStmt)
 		return walkIf(n)

 	case ir.ORETURN:
 		n := n.(*ir.ReturnStmt)
 		return walkReturn(n)

 	case ir.OTAILCALL:
 		n := n.(*ir.TailCallStmt)

 		var init ir.Nodes
 		n.Call.Fun = walkExpr(n.Call.Fun, &init)

 		if len(init) > 0 {
 			init.Append(n)
 			return ir.NewBlockStmt(n.Pos(), init)
 		}
 		return n

 	case ir.OINLMARK:
 		n := n.(*ir.InlineMarkStmt)
 		return n

 	case ir.OSELECT:
 		n := n.(*ir.SelectStmt)
 		walkSelect(n)
 		return n

 	case ir.OSWITCH:
 		n := n.(*ir.SwitchStmt)
 		walkSwitch(n)
 		return n

 	case ir.ORANGE:
 		n := n.(*ir.RangeStmt)
 		return walkRange(n)
 	}

 	// No return! Each case must return (or panic),
 	// to avoid confusion about what gets returned
 	// in the presence of type assertions.
 }

 func walkStmtList(s []ir.Node) {
 	for i := range s {
 		s[i] = walkStmt(s[i])
 	}
 }

 // walkFor walks an OFOR node.
 func walkFor(n *ir.ForStmt) ir.Node {
 	if n.Cond != nil {
 		init := ir.TakeInit(n.Cond)
 		walkStmtList(init)
 		n.Cond = walkExpr(n.Cond, &init)
 		n.Cond = ir.InitExpr(init, n.Cond)
 	}

 	n.Post = walkStmt(n.Post)
 	walkStmtList(n.Body)
 	return n
 }

 // validGoDeferCall reports whether call is a valid call to appear in
 // a go or defer statement; that is, whether it's a regular function
 // call without arguments or results.
 func validGoDeferCall(call ir.Node) bool {
 	if call, ok := call.(*ir.CallExpr); ok && call.Op() == ir.OCALLFUNC && len(call.KeepAlive) == 0 {
 		sig := call.Fun.Type()
 		return sig.NumParams()+sig.NumResults() == 0
 	}
 	return false
 }

 // walkGoDefer walks an OGO or ODEFER node.
 func walkGoDefer(n *ir.GoDeferStmt) ir.Node {
 	if !validGoDeferCall(n.Call) {
 		base.FatalfAt(n.Pos(), "invalid %v call: %v", n.Op(), n.Call)
 	}

 	var init ir.Nodes

 	call := n.Call.(*ir.CallExpr)
 	call.Fun = walkExpr(call.Fun, &init)

 	if len(init) > 0 {
 		init.Append(n)
 		return ir.NewBlockStmt(n.Pos(), init)
 	}
 	return n
 }

 // walkIf walks an OIF node.
 func walkIf(n *ir.IfStmt) ir.Node {
 	n.Cond = walkExpr(n.Cond, n.PtrInit())
 	walkStmtList(n.Body)
 	walkStmtList(n.Else)
 	return n
 }
	// Copyright 2009 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 walk

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

	// The result of walkStmt MUST be assigned back to n, e.g.
	//
	// n.Left = walkStmt(n.Left)
	func walkStmt(n ir.Node) ir.Node {
	if n == nil {
	return n
	}

	ir.SetPos(n)

	walkStmtList(n.Init())

	switch n.Op() {
	default:
	if n.Op() == ir.ONAME {
	n := n.(*ir.Name)
	base.Errorf("%v is not a top level statement", n.Sym())
	} else {
	base.Errorf("%v is not a top level statement", n.Op())
	}
	ir.Dump("nottop", n)
	return n

	case ir.OAS,
	ir.OASOP,
	ir.OAS2,
	ir.OAS2DOTTYPE,
	ir.OAS2RECV,
	ir.OAS2FUNC,
	ir.OAS2MAPR,
	ir.OCLEAR,
	ir.OCLOSE,
	ir.OCOPY,
	ir.OCALLINTER,
	ir.OCALL,
	ir.OCALLFUNC,
	ir.ODELETE,
	ir.OSEND,
	ir.OPRINT,
	ir.OPRINTLN,
	ir.OPANIC,
	ir.ORECOVERFP,
	ir.OGETG:
	if n.Typecheck() == 0 {
	base.Fatalf("missing typecheck: %+v", n)
	}

	init := ir.TakeInit(n)
	n = walkExpr(n, &init)
	if n.Op() == ir.ONAME {
	// copy rewrote to a statement list and a temp for the length.
	// Throw away the temp to avoid plain values as statements.
	n = ir.NewBlockStmt(n.Pos(), init)
	init = nil
	}
	if len(init) > 0 {
	switch n.Op() {
	case ir.OAS, ir.OAS2, ir.OBLOCK:
	n.(ir.InitNode).PtrInit().Prepend(init...)

	default:
	init.Append(n)
	n = ir.NewBlockStmt(n.Pos(), init)
	}
	}
	return n

	// special case for a receive where we throw away
	// the value received.
	case ir.ORECV:
	n := n.(*ir.UnaryExpr)
	return walkRecv(n)

	case ir.OBREAK,
	ir.OCONTINUE,
	ir.OFALL,
	ir.OGOTO,
	ir.OLABEL,
	ir.OJUMPTABLE,
	ir.OINTERFACESWITCH,
	ir.ODCL,
	ir.OCHECKNIL:
	return n

	case ir.OBLOCK:
	n := n.(*ir.BlockStmt)
	walkStmtList(n.List)
	return n

	case ir.OCASE:
	base.Errorf("case statement out of place")
	panic("unreachable")

	case ir.ODEFER:
	n := n.(*ir.GoDeferStmt)
	ir.CurFunc.SetHasDefer(true)
	ir.CurFunc.NumDefers++
	if ir.CurFunc.NumDefers > maxOpenDefers \|\| n.DeferAt != nil {
	// Don't allow open-coded defers if there are more than
	// 8 defers in the function, since we use a single
	// byte to record active defers.
	// Also don't allow if we need to use deferprocat.
	ir.CurFunc.SetOpenCodedDeferDisallowed(true)
	}
	if n.Esc() != ir.EscNever {
	// If n.Esc is not EscNever, then this defer occurs in a loop,
	// so open-coded defers cannot be used in this function.
	ir.CurFunc.SetOpenCodedDeferDisallowed(true)
	}
	fallthrough
	case ir.OGO:
	n := n.(*ir.GoDeferStmt)
	return walkGoDefer(n)

	case ir.OFOR:
	n := n.(*ir.ForStmt)
	return walkFor(n)

	case ir.OIF:
	n := n.(*ir.IfStmt)
	return walkIf(n)

	case ir.ORETURN:
	n := n.(*ir.ReturnStmt)
	return walkReturn(n)

	case ir.OTAILCALL:
	n := n.(*ir.TailCallStmt)

	var init ir.Nodes
	n.Call.Fun = walkExpr(n.Call.Fun, &init)

	if len(init) > 0 {
	init.Append(n)
	return ir.NewBlockStmt(n.Pos(), init)
	}
	return n

	case ir.OINLMARK:
	n := n.(*ir.InlineMarkStmt)
	return n

	case ir.OSELECT:
	n := n.(*ir.SelectStmt)
	walkSelect(n)
	return n

	case ir.OSWITCH:
	n := n.(*ir.SwitchStmt)
	walkSwitch(n)
	return n

	case ir.ORANGE:
	n := n.(*ir.RangeStmt)
	return walkRange(n)
	}

	// No return! Each case must return (or panic),
	// to avoid confusion about what gets returned
	// in the presence of type assertions.
	}

	func walkStmtList(s []ir.Node) {
	for i := range s {
	s[i] = walkStmt(s[i])
	}
	}

	// walkFor walks an OFOR node.
	func walkFor(n *ir.ForStmt) ir.Node {
	if n.Cond != nil {
	init := ir.TakeInit(n.Cond)
	walkStmtList(init)
	n.Cond = walkExpr(n.Cond, &init)
	n.Cond = ir.InitExpr(init, n.Cond)
	}

	n.Post = walkStmt(n.Post)
	walkStmtList(n.Body)
	return n
	}

	// validGoDeferCall reports whether call is a valid call to appear in
	// a go or defer statement; that is, whether it's a regular function
	// call without arguments or results.
	func validGoDeferCall(call ir.Node) bool {
	if call, ok := call.(*ir.CallExpr); ok && call.Op() == ir.OCALLFUNC && len(call.KeepAlive) == 0 {
	sig := call.Fun.Type()
	return sig.NumParams()+sig.NumResults() == 0
	}
	return false
	}

	// walkGoDefer walks an OGO or ODEFER node.
	func walkGoDefer(n *ir.GoDeferStmt) ir.Node {
	if !validGoDeferCall(n.Call) {
	base.FatalfAt(n.Pos(), "invalid %v call: %v", n.Op(), n.Call)
	}

	var init ir.Nodes

	call := n.Call.(*ir.CallExpr)
	call.Fun = walkExpr(call.Fun, &init)

	if len(init) > 0 {
	init.Append(n)
	return ir.NewBlockStmt(n.Pos(), init)
	}
	return n
	}

	// walkIf walks an OIF node.
	func walkIf(n *ir.IfStmt) ir.Node {
	n.Cond = walkExpr(n.Cond, n.PtrInit())
	walkStmtList(n.Body)
	walkStmtList(n.Else)
	return n
	}