go/cfg/builder.go - tools - Git at Google

 // Copyright 2016 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 cfg

 // This file implements the CFG construction pass.

 import (
 	"fmt"
 	"go/ast"
 	"go/token"
 )

 type builder struct {
 	cfg       *CFG
 	mayReturn func(*ast.CallExpr) bool
 	current   *Block
 	lblocks   map[*ast.Object]*lblock // labeled blocks
 	targets   *targets                // linked stack of branch targets
 }

 func (b *builder) stmt(_s ast.Stmt) {
 	// The label of the current statement.  If non-nil, its _goto
 	// target is always set; its _break and _continue are set only
 	// within the body of switch/typeswitch/select/for/range.
 	// It is effectively an additional default-nil parameter of stmt().
 	var label *lblock
 start:
 	switch s := _s.(type) {
 	case *ast.BadStmt,
 		*ast.SendStmt,
 		*ast.IncDecStmt,
 		*ast.GoStmt,
 		*ast.DeferStmt,
 		*ast.EmptyStmt,
 		*ast.AssignStmt:
 		// No effect on control flow.
 		b.add(s)

 	case *ast.ExprStmt:
 		b.add(s)
 		if call, ok := s.X.(*ast.CallExpr); ok && !b.mayReturn(call) {
 			// Calls to panic, os.Exit, etc, never return.
 			b.current = b.newBlock("unreachable.call")
 		}

 	case *ast.DeclStmt:
 		// Treat each var ValueSpec as a separate statement.
 		d := s.Decl.(*ast.GenDecl)
 		if d.Tok == token.VAR {
 			for _, spec := range d.Specs {
 				if spec, ok := spec.(*ast.ValueSpec); ok {
 					b.add(spec)
 				}
 			}
 		}

 	case *ast.LabeledStmt:
 		label = b.labeledBlock(s.Label)
 		b.jump(label._goto)
 		b.current = label._goto
 		_s = s.Stmt
 		goto start // effectively: tailcall stmt(g, s.Stmt, label)

 	case *ast.ReturnStmt:
 		b.add(s)
 		b.current = b.newBlock("unreachable.return")

 	case *ast.BranchStmt:
 		b.branchStmt(s)

 	case *ast.BlockStmt:
 		b.stmtList(s.List)

 	case *ast.IfStmt:
 		if s.Init != nil {
 			b.stmt(s.Init)
 		}
 		then := b.newBlock("if.then")
 		done := b.newBlock("if.done")
 		_else := done
 		if s.Else != nil {
 			_else = b.newBlock("if.else")
 		}
 		b.add(s.Cond)
 		b.ifelse(then, _else)
 		b.current = then
 		b.stmt(s.Body)
 		b.jump(done)

 		if s.Else != nil {
 			b.current = _else
 			b.stmt(s.Else)
 			b.jump(done)
 		}

 		b.current = done

 	case *ast.SwitchStmt:
 		b.switchStmt(s, label)

 	case *ast.TypeSwitchStmt:
 		b.typeSwitchStmt(s, label)

 	case *ast.SelectStmt:
 		b.selectStmt(s, label)

 	case *ast.ForStmt:
 		b.forStmt(s, label)

 	case *ast.RangeStmt:
 		b.rangeStmt(s, label)

 	default:
 		panic(fmt.Sprintf("unexpected statement kind: %T", s))
 	}
 }

 func (b *builder) stmtList(list []ast.Stmt) {
 	for _, s := range list {
 		b.stmt(s)
 	}
 }

 func (b *builder) branchStmt(s *ast.BranchStmt) {
 	var block *Block
 	switch s.Tok {
 	case token.BREAK:
 		if s.Label != nil {
 			if lb := b.labeledBlock(s.Label); lb != nil {
 				block = lb._break
 			}
 		} else {
 			for t := b.targets; t != nil && block == nil; t = t.tail {
 				block = t._break
 			}
 		}

 	case token.CONTINUE:
 		if s.Label != nil {
 			if lb := b.labeledBlock(s.Label); lb != nil {
 				block = lb._continue
 			}
 		} else {
 			for t := b.targets; t != nil && block == nil; t = t.tail {
 				block = t._continue
 			}
 		}

 	case token.FALLTHROUGH:
 		for t := b.targets; t != nil && block == nil; t = t.tail {
 			block = t._fallthrough
 		}

 	case token.GOTO:
 		if s.Label != nil {
 			block = b.labeledBlock(s.Label)._goto
 		}
 	}
 	if block == nil {
 		block = b.newBlock("undefined.branch")
 	}
 	b.jump(block)
 	b.current = b.newBlock("unreachable.branch")
 }

 func (b *builder) switchStmt(s *ast.SwitchStmt, label *lblock) {
 	if s.Init != nil {
 		b.stmt(s.Init)
 	}
 	if s.Tag != nil {
 		b.add(s.Tag)
 	}
 	done := b.newBlock("switch.done")
 	if label != nil {
 		label._break = done
 	}
 	// We pull the default case (if present) down to the end.
 	// But each fallthrough label must point to the next
 	// body block in source order, so we preallocate a
 	// body block (fallthru) for the next case.
 	// Unfortunately this makes for a confusing block order.
 	var defaultBody *[]ast.Stmt
 	var defaultFallthrough *Block
 	var fallthru, defaultBlock *Block
 	ncases := len(s.Body.List)
 	for i, clause := range s.Body.List {
 		body := fallthru
 		if body == nil {
 			body = b.newBlock("switch.body") // first case only
 		}

 		// Preallocate body block for the next case.
 		fallthru = done
 		if i+1 < ncases {
 			fallthru = b.newBlock("switch.body")
 		}

 		cc := clause.(*ast.CaseClause)
 		if cc.List == nil {
 			// Default case.
 			defaultBody = &cc.Body
 			defaultFallthrough = fallthru
 			defaultBlock = body
 			continue
 		}

 		var nextCond *Block
 		for _, cond := range cc.List {
 			nextCond = b.newBlock("switch.next")
 			b.add(cond) // one half of the tag==cond condition
 			b.ifelse(body, nextCond)
 			b.current = nextCond
 		}
 		b.current = body
 		b.targets = &targets{
 			tail:         b.targets,
 			_break:       done,
 			_fallthrough: fallthru,
 		}
 		b.stmtList(cc.Body)
 		b.targets = b.targets.tail
 		b.jump(done)
 		b.current = nextCond
 	}
 	if defaultBlock != nil {
 		b.jump(defaultBlock)
 		b.current = defaultBlock
 		b.targets = &targets{
 			tail:         b.targets,
 			_break:       done,
 			_fallthrough: defaultFallthrough,
 		}
 		b.stmtList(*defaultBody)
 		b.targets = b.targets.tail
 	}
 	b.jump(done)
 	b.current = done
 }

 func (b *builder) typeSwitchStmt(s *ast.TypeSwitchStmt, label *lblock) {
 	if s.Init != nil {
 		b.stmt(s.Init)
 	}
 	if s.Assign != nil {
 		b.add(s.Assign)
 	}

 	done := b.newBlock("typeswitch.done")
 	if label != nil {
 		label._break = done
 	}
 	var default_ *ast.CaseClause
 	for _, clause := range s.Body.List {
 		cc := clause.(*ast.CaseClause)
 		if cc.List == nil {
 			default_ = cc
 			continue
 		}
 		body := b.newBlock("typeswitch.body")
 		var next *Block
 		for _, casetype := range cc.List {
 			next = b.newBlock("typeswitch.next")
 			// casetype is a type, so don't call b.add(casetype).
 			// This block logically contains a type assertion,
 			// x.(casetype), but it's unclear how to represent x.
 			_ = casetype
 			b.ifelse(body, next)
 			b.current = next
 		}
 		b.current = body
 		b.typeCaseBody(cc, done)
 		b.current = next
 	}
 	if default_ != nil {
 		b.typeCaseBody(default_, done)
 	} else {
 		b.jump(done)
 	}
 	b.current = done
 }

 func (b *builder) typeCaseBody(cc *ast.CaseClause, done *Block) {
 	b.targets = &targets{
 		tail:   b.targets,
 		_break: done,
 	}
 	b.stmtList(cc.Body)
 	b.targets = b.targets.tail
 	b.jump(done)
 }

 func (b *builder) selectStmt(s *ast.SelectStmt, label *lblock) {
 	// First evaluate channel expressions.
 	// TODO(adonovan): fix: evaluate only channel exprs here.
 	for _, clause := range s.Body.List {
 		if comm := clause.(*ast.CommClause).Comm; comm != nil {
 			b.stmt(comm)
 		}
 	}

 	done := b.newBlock("select.done")
 	if label != nil {
 		label._break = done
 	}

 	var defaultBody *[]ast.Stmt
 	for _, cc := range s.Body.List {
 		clause := cc.(*ast.CommClause)
 		if clause.Comm == nil {
 			defaultBody = &clause.Body
 			continue
 		}
 		body := b.newBlock("select.body")
 		next := b.newBlock("select.next")
 		b.ifelse(body, next)
 		b.current = body
 		b.targets = &targets{
 			tail:   b.targets,
 			_break: done,
 		}
 		switch comm := clause.Comm.(type) {
 		case *ast.ExprStmt: // <-ch
 			// nop
 		case *ast.AssignStmt: // x := <-states[state].Chan
 			b.add(comm.Lhs[0])
 		}
 		b.stmtList(clause.Body)
 		b.targets = b.targets.tail
 		b.jump(done)
 		b.current = next
 	}
 	if defaultBody != nil {
 		b.targets = &targets{
 			tail:   b.targets,
 			_break: done,
 		}
 		b.stmtList(*defaultBody)
 		b.targets = b.targets.tail
 		b.jump(done)
 	}
 	b.current = done
 }

 func (b *builder) forStmt(s *ast.ForStmt, label *lblock) {
 	//	...init...
 	//      jump loop
 	// loop:
 	//      if cond goto body else done
 	// body:
 	//      ...body...
 	//      jump post
 	// post:				 (target of continue)
 	//      ...post...
 	//      jump loop
 	// done:                                 (target of break)
 	if s.Init != nil {
 		b.stmt(s.Init)
 	}
 	body := b.newBlock("for.body")
 	done := b.newBlock("for.done") // target of 'break'
 	loop := body                   // target of back-edge
 	if s.Cond != nil {
 		loop = b.newBlock("for.loop")
 	}
 	cont := loop // target of 'continue'
 	if s.Post != nil {
 		cont = b.newBlock("for.post")
 	}
 	if label != nil {
 		label._break = done
 		label._continue = cont
 	}
 	b.jump(loop)
 	b.current = loop
 	if loop != body {
 		b.add(s.Cond)
 		b.ifelse(body, done)
 		b.current = body
 	}
 	b.targets = &targets{
 		tail:      b.targets,
 		_break:    done,
 		_continue: cont,
 	}
 	b.stmt(s.Body)
 	b.targets = b.targets.tail
 	b.jump(cont)

 	if s.Post != nil {
 		b.current = cont
 		b.stmt(s.Post)
 		b.jump(loop) // back-edge
 	}
 	b.current = done
 }

 func (b *builder) rangeStmt(s *ast.RangeStmt, label *lblock) {
 	b.add(s.X)

 	if s.Key != nil {
 		b.add(s.Key)
 	}
 	if s.Value != nil {
 		b.add(s.Value)
 	}

 	//      ...
 	// loop:                                   (target of continue)
 	// 	if ... goto body else done
 	// body:
 	//      ...
 	// 	jump loop
 	// done:                                   (target of break)

 	loop := b.newBlock("range.loop")
 	b.jump(loop)
 	b.current = loop

 	body := b.newBlock("range.body")
 	done := b.newBlock("range.done")
 	b.ifelse(body, done)
 	b.current = body

 	if label != nil {
 		label._break = done
 		label._continue = loop
 	}
 	b.targets = &targets{
 		tail:      b.targets,
 		_break:    done,
 		_continue: loop,
 	}
 	b.stmt(s.Body)
 	b.targets = b.targets.tail
 	b.jump(loop) // back-edge
 	b.current = done
 }

 // -------- helpers --------

 // Destinations associated with unlabeled for/switch/select stmts.
 // We push/pop one of these as we enter/leave each construct and for
 // each BranchStmt we scan for the innermost target of the right type.
 //
 type targets struct {
 	tail         *targets // rest of stack
 	_break       *Block
 	_continue    *Block
 	_fallthrough *Block
 }

 // Destinations associated with a labeled block.
 // We populate these as labels are encountered in forward gotos or
 // labeled statements.
 //
 type lblock struct {
 	_goto     *Block
 	_break    *Block
 	_continue *Block
 }

 // labeledBlock returns the branch target associated with the
 // specified label, creating it if needed.
 //
 func (b *builder) labeledBlock(label *ast.Ident) *lblock {
 	lb := b.lblocks[label.Obj]
 	if lb == nil {
 		lb = &lblock{_goto: b.newBlock(label.Name)}
 		if b.lblocks == nil {
 			b.lblocks = make(map[*ast.Object]*lblock)
 		}
 		b.lblocks[label.Obj] = lb
 	}
 	return lb
 }

 // newBlock appends a new unconnected basic block to b.cfg's block
 // slice and returns it.
 // It does not automatically become the current block.
 // comment is an optional string for more readable debugging output.
 func (b *builder) newBlock(comment string) *Block {
 	g := b.cfg
 	block := &Block{
 		Index:   int32(len(g.Blocks)),
 		comment: comment,
 	}
 	block.Succs = block.succs2[:0]
 	g.Blocks = append(g.Blocks, block)
 	return block
 }

 func (b *builder) add(n ast.Node) {
 	b.current.Nodes = append(b.current.Nodes, n)
 }

 // jump adds an edge from the current block to the target block,
 // and sets b.current to nil.
 func (b *builder) jump(target *Block) {
 	b.current.Succs = append(b.current.Succs, target)
 	b.current = nil
 }

 // ifelse emits edges from the current block to the t and f blocks,
 // and sets b.current to nil.
 func (b *builder) ifelse(t, f *Block) {
 	b.current.Succs = append(b.current.Succs, t, f)
 	b.current = nil
 }
	// Copyright 2016 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 cfg

	// This file implements the CFG construction pass.

	import (
	"fmt"
	"go/ast"
	"go/token"
	)

	type builder struct {
	cfg *CFG
	mayReturn func(*ast.CallExpr) bool
	current *Block
	lblocks map[ast.Object]lblock // labeled blocks
	targets *targets // linked stack of branch targets
	}

	func (b *builder) stmt(_s ast.Stmt) {
	// The label of the current statement. If non-nil, its _goto
	// target is always set; its _break and _continue are set only
	// within the body of switch/typeswitch/select/for/range.
	// It is effectively an additional default-nil parameter of stmt().
	var label *lblock
	start:
	switch s := _s.(type) {
	case *ast.BadStmt,
	*ast.SendStmt,
	*ast.IncDecStmt,
	*ast.GoStmt,
	*ast.DeferStmt,
	*ast.EmptyStmt,
	*ast.AssignStmt:
	// No effect on control flow.
	b.add(s)

	case *ast.ExprStmt:
	b.add(s)
	if call, ok := s.X.(*ast.CallExpr); ok && !b.mayReturn(call) {
	// Calls to panic, os.Exit, etc, never return.
	b.current = b.newBlock("unreachable.call")
	}

	case *ast.DeclStmt:
	// Treat each var ValueSpec as a separate statement.
	d := s.Decl.(*ast.GenDecl)
	if d.Tok == token.VAR {
	for _, spec := range d.Specs {
	if spec, ok := spec.(*ast.ValueSpec); ok {
	b.add(spec)
	}
	}
	}

	case *ast.LabeledStmt:
	label = b.labeledBlock(s.Label)
	b.jump(label._goto)
	b.current = label._goto
	_s = s.Stmt
	goto start // effectively: tailcall stmt(g, s.Stmt, label)

	case *ast.ReturnStmt:
	b.add(s)
	b.current = b.newBlock("unreachable.return")

	case *ast.BranchStmt:
	b.branchStmt(s)

	case *ast.BlockStmt:
	b.stmtList(s.List)

	case *ast.IfStmt:
	if s.Init != nil {
	b.stmt(s.Init)
	}
	then := b.newBlock("if.then")
	done := b.newBlock("if.done")
	_else := done
	if s.Else != nil {
	_else = b.newBlock("if.else")
	}
	b.add(s.Cond)
	b.ifelse(then, _else)
	b.current = then
	b.stmt(s.Body)
	b.jump(done)

	if s.Else != nil {
	b.current = _else
	b.stmt(s.Else)
	b.jump(done)
	}

	b.current = done

	case *ast.SwitchStmt:
	b.switchStmt(s, label)

	case *ast.TypeSwitchStmt:
	b.typeSwitchStmt(s, label)

	case *ast.SelectStmt:
	b.selectStmt(s, label)

	case *ast.ForStmt:
	b.forStmt(s, label)

	case *ast.RangeStmt:
	b.rangeStmt(s, label)

	default:
	panic(fmt.Sprintf("unexpected statement kind: %T", s))
	}
	}

	func (b *builder) stmtList(list []ast.Stmt) {
	for _, s := range list {
	b.stmt(s)
	}
	}

	func (b builder) branchStmt(s ast.BranchStmt) {
	var block *Block
	switch s.Tok {
	case token.BREAK:
	if s.Label != nil {
	if lb := b.labeledBlock(s.Label); lb != nil {
	block = lb._break
	}
	} else {
	for t := b.targets; t != nil && block == nil; t = t.tail {
	block = t._break
	}
	}

	case token.CONTINUE:
	if s.Label != nil {
	if lb := b.labeledBlock(s.Label); lb != nil {
	block = lb._continue
	}
	} else {
	for t := b.targets; t != nil && block == nil; t = t.tail {
	block = t._continue
	}
	}

	case token.FALLTHROUGH:
	for t := b.targets; t != nil && block == nil; t = t.tail {
	block = t._fallthrough
	}

	case token.GOTO:
	if s.Label != nil {
	block = b.labeledBlock(s.Label)._goto
	}
	}
	if block == nil {
	block = b.newBlock("undefined.branch")
	}
	b.jump(block)
	b.current = b.newBlock("unreachable.branch")
	}

	func (b builder) switchStmt(s ast.SwitchStmt, label *lblock) {
	if s.Init != nil {
	b.stmt(s.Init)
	}
	if s.Tag != nil {
	b.add(s.Tag)
	}
	done := b.newBlock("switch.done")
	if label != nil {
	label._break = done
	}
	// We pull the default case (if present) down to the end.
	// But each fallthrough label must point to the next
	// body block in source order, so we preallocate a
	// body block (fallthru) for the next case.
	// Unfortunately this makes for a confusing block order.
	var defaultBody *[]ast.Stmt
	var defaultFallthrough *Block
	var fallthru, defaultBlock *Block
	ncases := len(s.Body.List)
	for i, clause := range s.Body.List {
	body := fallthru
	if body == nil {
	body = b.newBlock("switch.body") // first case only
	}

	// Preallocate body block for the next case.
	fallthru = done
	if i+1 < ncases {
	fallthru = b.newBlock("switch.body")
	}

	cc := clause.(*ast.CaseClause)
	if cc.List == nil {
	// Default case.
	defaultBody = &cc.Body
	defaultFallthrough = fallthru
	defaultBlock = body
	continue
	}

	var nextCond *Block
	for _, cond := range cc.List {
	nextCond = b.newBlock("switch.next")
	b.add(cond) // one half of the tag==cond condition
	b.ifelse(body, nextCond)
	b.current = nextCond
	}
	b.current = body
	b.targets = &targets{
	tail: b.targets,
	_break: done,
	_fallthrough: fallthru,
	}
	b.stmtList(cc.Body)
	b.targets = b.targets.tail
	b.jump(done)
	b.current = nextCond
	}
	if defaultBlock != nil {
	b.jump(defaultBlock)
	b.current = defaultBlock
	b.targets = &targets{
	tail: b.targets,
	_break: done,
	_fallthrough: defaultFallthrough,
	}
	b.stmtList(*defaultBody)
	b.targets = b.targets.tail
	}
	b.jump(done)
	b.current = done
	}

	func (b builder) typeSwitchStmt(s ast.TypeSwitchStmt, label *lblock) {
	if s.Init != nil {
	b.stmt(s.Init)
	}
	if s.Assign != nil {
	b.add(s.Assign)
	}

	done := b.newBlock("typeswitch.done")
	if label != nil {
	label._break = done
	}
	var default_ *ast.CaseClause
	for _, clause := range s.Body.List {
	cc := clause.(*ast.CaseClause)
	if cc.List == nil {
	default_ = cc
	continue
	}
	body := b.newBlock("typeswitch.body")
	var next *Block
	for _, casetype := range cc.List {
	next = b.newBlock("typeswitch.next")
	// casetype is a type, so don't call b.add(casetype).
	// This block logically contains a type assertion,
	// x.(casetype), but it's unclear how to represent x.
	_ = casetype
	b.ifelse(body, next)
	b.current = next
	}
	b.current = body
	b.typeCaseBody(cc, done)
	b.current = next
	}
	if default_ != nil {
	b.typeCaseBody(default_, done)
	} else {
	b.jump(done)
	}
	b.current = done
	}

	func (b builder) typeCaseBody(cc ast.CaseClause, done *Block) {
	b.targets = &targets{
	tail: b.targets,
	_break: done,
	}
	b.stmtList(cc.Body)
	b.targets = b.targets.tail
	b.jump(done)
	}

	func (b builder) selectStmt(s ast.SelectStmt, label *lblock) {
	// First evaluate channel expressions.
	// TODO(adonovan): fix: evaluate only channel exprs here.
	for _, clause := range s.Body.List {
	if comm := clause.(*ast.CommClause).Comm; comm != nil {
	b.stmt(comm)
	}
	}

	done := b.newBlock("select.done")
	if label != nil {
	label._break = done
	}

	var defaultBody *[]ast.Stmt
	for _, cc := range s.Body.List {
	clause := cc.(*ast.CommClause)
	if clause.Comm == nil {
	defaultBody = &clause.Body
	continue
	}
	body := b.newBlock("select.body")
	next := b.newBlock("select.next")
	b.ifelse(body, next)
	b.current = body
	b.targets = &targets{
	tail: b.targets,
	_break: done,
	}
	switch comm := clause.Comm.(type) {
	case *ast.ExprStmt: // <-ch
	// nop
	case *ast.AssignStmt: // x := <-states[state].Chan
	b.add(comm.Lhs[0])
	}
	b.stmtList(clause.Body)
	b.targets = b.targets.tail
	b.jump(done)
	b.current = next
	}
	if defaultBody != nil {
	b.targets = &targets{
	tail: b.targets,
	_break: done,
	}
	b.stmtList(*defaultBody)
	b.targets = b.targets.tail
	b.jump(done)
	}
	b.current = done
	}

	func (b builder) forStmt(s ast.ForStmt, label *lblock) {
	// ...init...
	// jump loop
	// loop:
	// if cond goto body else done
	// body:
	// ...body...
	// jump post
	// post: (target of continue)
	// ...post...
	// jump loop
	// done: (target of break)
	if s.Init != nil {
	b.stmt(s.Init)
	}
	body := b.newBlock("for.body")
	done := b.newBlock("for.done") // target of 'break'
	loop := body // target of back-edge
	if s.Cond != nil {
	loop = b.newBlock("for.loop")
	}
	cont := loop // target of 'continue'
	if s.Post != nil {
	cont = b.newBlock("for.post")
	}
	if label != nil {
	label._break = done
	label._continue = cont
	}
	b.jump(loop)
	b.current = loop
	if loop != body {
	b.add(s.Cond)
	b.ifelse(body, done)
	b.current = body
	}
	b.targets = &targets{
	tail: b.targets,
	_break: done,
	_continue: cont,
	}
	b.stmt(s.Body)
	b.targets = b.targets.tail
	b.jump(cont)

	if s.Post != nil {
	b.current = cont
	b.stmt(s.Post)
	b.jump(loop) // back-edge
	}
	b.current = done
	}

	func (b builder) rangeStmt(s ast.RangeStmt, label *lblock) {
	b.add(s.X)

	if s.Key != nil {
	b.add(s.Key)
	}
	if s.Value != nil {
	b.add(s.Value)
	}

	// ...
	// loop: (target of continue)
	// if ... goto body else done
	// body:
	// ...
	// jump loop
	// done: (target of break)

	loop := b.newBlock("range.loop")
	b.jump(loop)
	b.current = loop

	body := b.newBlock("range.body")
	done := b.newBlock("range.done")
	b.ifelse(body, done)
	b.current = body

	if label != nil {
	label._break = done
	label._continue = loop
	}
	b.targets = &targets{
	tail: b.targets,
	_break: done,
	_continue: loop,
	}
	b.stmt(s.Body)
	b.targets = b.targets.tail
	b.jump(loop) // back-edge
	b.current = done
	}

	// -------- helpers --------

	// Destinations associated with unlabeled for/switch/select stmts.
	// We push/pop one of these as we enter/leave each construct and for
	// each BranchStmt we scan for the innermost target of the right type.
	//
	type targets struct {
	tail *targets // rest of stack
	_break *Block
	_continue *Block
	_fallthrough *Block
	}

	// Destinations associated with a labeled block.
	// We populate these as labels are encountered in forward gotos or
	// labeled statements.
	//
	type lblock struct {
	_goto *Block
	_break *Block
	_continue *Block
	}

	// labeledBlock returns the branch target associated with the
	// specified label, creating it if needed.
	//
	func (b builder) labeledBlock(label ast.Ident) *lblock {
	lb := b.lblocks[label.Obj]
	if lb == nil {
	lb = &lblock{_goto: b.newBlock(label.Name)}
	if b.lblocks == nil {
	b.lblocks = make(map[ast.Object]lblock)
	}
	b.lblocks[label.Obj] = lb
	}
	return lb
	}

	// newBlock appends a new unconnected basic block to b.cfg's block
	// slice and returns it.
	// It does not automatically become the current block.
	// comment is an optional string for more readable debugging output.
	func (b builder) newBlock(comment string) Block {
	g := b.cfg
	block := &Block{
	Index: int32(len(g.Blocks)),
	comment: comment,
	}
	block.Succs = block.succs2[:0]
	g.Blocks = append(g.Blocks, block)
	return block
	}

	func (b *builder) add(n ast.Node) {
	b.current.Nodes = append(b.current.Nodes, n)
	}

	// jump adds an edge from the current block to the target block,
	// and sets b.current to nil.
	func (b builder) jump(target Block) {
	b.current.Succs = append(b.current.Succs, target)
	b.current = nil
	}

	// ifelse emits edges from the current block to the t and f blocks,
	// and sets b.current to nil.
	func (b builder) ifelse(t, f Block) {
	b.current.Succs = append(b.current.Succs, t, f)
	b.current = nil
	}