src/cmd/compile/internal/syntax/branches.go - go - Git at Google

 // Copyright 2017 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 syntax

 import "fmt"

 // TODO(gri) consider making this part of the parser code

 // checkBranches checks correct use of labels and branch
 // statements (break, continue, goto) in a function body.
 // It catches:
 //    - misplaced breaks and continues
 //    - bad labeled breaks and continues
 //    - invalid, unused, duplicate, and missing labels
 //    - gotos jumping over variable declarations and into blocks
 func checkBranches(body *BlockStmt, errh ErrorHandler) {
 	if body == nil {
 		return
 	}

 	// scope of all labels in this body
 	ls := &labelScope{errh: errh}
 	fwdGotos := ls.blockBranches(nil, targets{}, nil, body.Pos(), body.List)

 	// If there are any forward gotos left, no matching label was
 	// found for them. Either those labels were never defined, or
 	// they are inside blocks and not reachable from the gotos.
 	for _, fwd := range fwdGotos {
 		name := fwd.Label.Value
 		if l := ls.labels[name]; l != nil {
 			l.used = true // avoid "defined and not used" error
 			ls.err(fwd.Label.Pos(), "goto %s jumps into block starting at %s", name, l.parent.start)
 		} else {
 			ls.err(fwd.Label.Pos(), "label %s not defined", name)
 		}
 	}

 	// spec: "It is illegal to define a label that is never used."
 	for _, l := range ls.labels {
 		if !l.used {
 			l := l.lstmt.Label
 			ls.err(l.Pos(), "label %s defined and not used", l.Value)
 		}
 	}
 }

 type labelScope struct {
 	errh   ErrorHandler
 	labels map[string]*label // all label declarations inside the function; allocated lazily
 }

 type label struct {
 	parent *block       // block containing this label declaration
 	lstmt  *LabeledStmt // statement declaring the label
 	used   bool         // whether the label is used or not
 }

 type block struct {
 	parent *block       // immediately enclosing block, or nil
 	start  Pos          // start of block
 	lstmt  *LabeledStmt // labeled statement associated with this block, or nil
 }

 func (ls *labelScope) err(pos Pos, format string, args ...interface{}) {
 	ls.errh(Error{pos, fmt.Sprintf(format, args...)})
 }

 // declare declares the label introduced by s in block b and returns
 // the new label. If the label was already declared, declare reports
 // and error and the existing label is returned instead.
 func (ls *labelScope) declare(b *block, s *LabeledStmt) *label {
 	name := s.Label.Value
 	labels := ls.labels
 	if labels == nil {
 		labels = make(map[string]*label)
 		ls.labels = labels
 	} else if alt := labels[name]; alt != nil {
 		ls.err(s.Label.Pos(), "label %s already defined at %s", name, alt.lstmt.Label.Pos().String())
 		return alt
 	}
 	l := &label{b, s, false}
 	labels[name] = l
 	return l
 }

 // gotoTarget returns the labeled statement matching the given name and
 // declared in block b or any of its enclosing blocks. The result is nil
 // if the label is not defined, or doesn't match a valid labeled statement.
 func (ls *labelScope) gotoTarget(b *block, name string) *LabeledStmt {
 	if l := ls.labels[name]; l != nil {
 		l.used = true // even if it's not a valid target
 		for ; b != nil; b = b.parent {
 			if l.parent == b {
 				return l.lstmt
 			}
 		}
 	}
 	return nil
 }

 var invalid = new(LabeledStmt) // singleton to signal invalid enclosing target

 // enclosingTarget returns the innermost enclosing labeled statement matching
 // the given name. The result is nil if the label is not defined, and invalid
 // if the label is defined but doesn't label a valid labeled statement.
 func (ls *labelScope) enclosingTarget(b *block, name string) *LabeledStmt {
 	if l := ls.labels[name]; l != nil {
 		l.used = true // even if it's not a valid target (see e.g., test/fixedbugs/bug136.go)
 		for ; b != nil; b = b.parent {
 			if l.lstmt == b.lstmt {
 				return l.lstmt
 			}
 		}
 		return invalid
 	}
 	return nil
 }

 // targets describes the target statements within which break
 // or continue statements are valid.
 type targets struct {
 	breaks    Stmt     // *ForStmt, *SwitchStmt, *SelectStmt, or nil
 	continues *ForStmt // or nil
 }

 // blockBranches processes a block's body starting at start and returns the
 // list of unresolved (forward) gotos. parent is the immediately enclosing
 // block (or nil), ctxt provides information about the enclosing statements,
 // and lstmt is the labeled statement associated with this block, or nil.
 func (ls *labelScope) blockBranches(parent *block, ctxt targets, lstmt *LabeledStmt, start Pos, body []Stmt) []*BranchStmt {
 	b := &block{parent: parent, start: start, lstmt: lstmt}

 	var varPos Pos
 	var varName Expr
 	var fwdGotos, badGotos []*BranchStmt

 	recordVarDecl := func(pos Pos, name Expr) {
 		varPos = pos
 		varName = name
 		// Any existing forward goto jumping over the variable
 		// declaration is invalid. The goto may still jump out
 		// of the block and be ok, but we don't know that yet.
 		// Remember all forward gotos as potential bad gotos.
 		badGotos = append(badGotos[:0], fwdGotos...)
 	}

 	jumpsOverVarDecl := func(fwd *BranchStmt) bool {
 		if varPos.IsKnown() {
 			for _, bad := range badGotos {
 				if fwd == bad {
 					return true
 				}
 			}
 		}
 		return false
 	}

 	innerBlock := func(ctxt targets, start Pos, body []Stmt) {
 		// Unresolved forward gotos from the inner block
 		// become forward gotos for the current block.
 		fwdGotos = append(fwdGotos, ls.blockBranches(b, ctxt, lstmt, start, body)...)
 	}

 	for _, stmt := range body {
 		lstmt = nil
 	L:
 		switch s := stmt.(type) {
 		case *DeclStmt:
 			for _, d := range s.DeclList {
 				if v, ok := d.(*VarDecl); ok {
 					recordVarDecl(v.Pos(), v.NameList[0])
 					break // the first VarDecl will do
 				}
 			}

 		case *LabeledStmt:
 			// declare non-blank label
 			if name := s.Label.Value; name != "_" {
 				l := ls.declare(b, s)
 				// resolve matching forward gotos
 				i := 0
 				for _, fwd := range fwdGotos {
 					if fwd.Label.Value == name {
 						fwd.Target = s
 						l.used = true
 						if jumpsOverVarDecl(fwd) {
 							ls.err(
 								fwd.Label.Pos(),
 								"goto %s jumps over declaration of %s at %s",
 								name, String(varName), varPos,
 							)
 						}
 					} else {
 						// no match - keep forward goto
 						fwdGotos[i] = fwd
 						i++
 					}
 				}
 				fwdGotos = fwdGotos[:i]
 				lstmt = s
 			}
 			// process labeled statement
 			stmt = s.Stmt
 			goto L

 		case *BranchStmt:
 			// unlabeled branch statement
 			if s.Label == nil {
 				switch s.Tok {
 				case _Break:
 					if t := ctxt.breaks; t != nil {
 						s.Target = t
 					} else {
 						ls.err(s.Pos(), "break is not in a loop, switch, or select")
 					}
 				case _Continue:
 					if t := ctxt.continues; t != nil {
 						s.Target = t
 					} else {
 						ls.err(s.Pos(), "continue is not in a loop")
 					}
 				case _Fallthrough:
 					// nothing to do
 				case _Goto:
 					fallthrough // should always have a label
 				default:
 					panic("invalid BranchStmt")
 				}
 				break
 			}

 			// labeled branch statement
 			name := s.Label.Value
 			switch s.Tok {
 			case _Break:
 				// spec: "If there is a label, it must be that of an enclosing
 				// "for", "switch", or "select" statement, and that is the one
 				// whose execution terminates."
 				if t := ls.enclosingTarget(b, name); t != nil {
 					switch t := t.Stmt.(type) {
 					case *SwitchStmt, *SelectStmt, *ForStmt:
 						s.Target = t
 					default:
 						ls.err(s.Label.Pos(), "invalid break label %s", name)
 					}
 				} else {
 					ls.err(s.Label.Pos(), "break label not defined: %s", name)
 				}

 			case _Continue:
 				// spec: "If there is a label, it must be that of an enclosing
 				// "for" statement, and that is the one whose execution advances."
 				if t := ls.enclosingTarget(b, name); t != nil {
 					if t, ok := t.Stmt.(*ForStmt); ok {
 						s.Target = t
 					} else {
 						ls.err(s.Label.Pos(), "invalid continue label %s", name)
 					}
 				} else {
 					ls.err(s.Label.Pos(), "continue label not defined: %s", name)
 				}

 			case _Goto:
 				if t := ls.gotoTarget(b, name); t != nil {
 					s.Target = t
 				} else {
 					// label may be declared later - add goto to forward gotos
 					fwdGotos = append(fwdGotos, s)
 				}

 			case _Fallthrough:
 				fallthrough // should never have a label
 			default:
 				panic("invalid BranchStmt")
 			}

 		case *AssignStmt:
 			if s.Op == Def {
 				recordVarDecl(s.Pos(), s.Lhs)
 			}

 		case *BlockStmt:
 			innerBlock(ctxt, s.Pos(), s.List)

 		case *IfStmt:
 			innerBlock(ctxt, s.Then.Pos(), s.Then.List)
 			if s.Else != nil {
 				innerBlock(ctxt, s.Else.Pos(), []Stmt{s.Else})
 			}

 		case *ForStmt:
 			innerBlock(targets{s, s}, s.Body.Pos(), s.Body.List)

 		case *SwitchStmt:
 			inner := targets{s, ctxt.continues}
 			for _, cc := range s.Body {
 				innerBlock(inner, cc.Pos(), cc.Body)
 			}

 		case *SelectStmt:
 			inner := targets{s, ctxt.continues}
 			for _, cc := range s.Body {
 				innerBlock(inner, cc.Pos(), cc.Body)
 			}
 		}
 	}

 	return fwdGotos
 }
	// Copyright 2017 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 syntax

	import "fmt"

	// TODO(gri) consider making this part of the parser code

	// checkBranches checks correct use of labels and branch
	// statements (break, continue, goto) in a function body.
	// It catches:
	// - misplaced breaks and continues
	// - bad labeled breaks and continues
	// - invalid, unused, duplicate, and missing labels
	// - gotos jumping over variable declarations and into blocks
	func checkBranches(body *BlockStmt, errh ErrorHandler) {
	if body == nil {
	return
	}

	// scope of all labels in this body
	ls := &labelScope{errh: errh}
	fwdGotos := ls.blockBranches(nil, targets{}, nil, body.Pos(), body.List)

	// If there are any forward gotos left, no matching label was
	// found for them. Either those labels were never defined, or
	// they are inside blocks and not reachable from the gotos.
	for _, fwd := range fwdGotos {
	name := fwd.Label.Value
	if l := ls.labels[name]; l != nil {
	l.used = true // avoid "defined and not used" error
	ls.err(fwd.Label.Pos(), "goto %s jumps into block starting at %s", name, l.parent.start)
	} else {
	ls.err(fwd.Label.Pos(), "label %s not defined", name)
	}
	}

	// spec: "It is illegal to define a label that is never used."
	for _, l := range ls.labels {
	if !l.used {
	l := l.lstmt.Label
	ls.err(l.Pos(), "label %s defined and not used", l.Value)
	}
	}
	}

	type labelScope struct {
	errh ErrorHandler
	labels map[string]*label // all label declarations inside the function; allocated lazily
	}

	type label struct {
	parent *block // block containing this label declaration
	lstmt *LabeledStmt // statement declaring the label
	used bool // whether the label is used or not
	}

	type block struct {
	parent *block // immediately enclosing block, or nil
	start Pos // start of block
	lstmt *LabeledStmt // labeled statement associated with this block, or nil
	}

	func (ls *labelScope) err(pos Pos, format string, args ...interface{}) {
	ls.errh(Error{pos, fmt.Sprintf(format, args...)})
	}

	// declare declares the label introduced by s in block b and returns
	// the new label. If the label was already declared, declare reports
	// and error and the existing label is returned instead.
	func (ls labelScope) declare(b block, s LabeledStmt) label {
	name := s.Label.Value
	labels := ls.labels
	if labels == nil {
	labels = make(map[string]*label)
	ls.labels = labels
	} else if alt := labels[name]; alt != nil {
	ls.err(s.Label.Pos(), "label %s already defined at %s", name, alt.lstmt.Label.Pos().String())
	return alt
	}
	l := &label{b, s, false}
	labels[name] = l
	return l
	}

	// gotoTarget returns the labeled statement matching the given name and
	// declared in block b or any of its enclosing blocks. The result is nil
	// if the label is not defined, or doesn't match a valid labeled statement.
	func (ls labelScope) gotoTarget(b block, name string) *LabeledStmt {
	if l := ls.labels[name]; l != nil {
	l.used = true // even if it's not a valid target
	for ; b != nil; b = b.parent {
	if l.parent == b {
	return l.lstmt
	}
	}
	}
	return nil
	}

	var invalid = new(LabeledStmt) // singleton to signal invalid enclosing target

	// enclosingTarget returns the innermost enclosing labeled statement matching
	// the given name. The result is nil if the label is not defined, and invalid
	// if the label is defined but doesn't label a valid labeled statement.
	func (ls labelScope) enclosingTarget(b block, name string) *LabeledStmt {
	if l := ls.labels[name]; l != nil {
	l.used = true // even if it's not a valid target (see e.g., test/fixedbugs/bug136.go)
	for ; b != nil; b = b.parent {
	if l.lstmt == b.lstmt {
	return l.lstmt
	}
	}
	return invalid
	}
	return nil
	}

	// targets describes the target statements within which break
	// or continue statements are valid.
	type targets struct {
	breaks Stmt // ForStmt, SwitchStmt, *SelectStmt, or nil
	continues *ForStmt // or nil
	}

	// blockBranches processes a block's body starting at start and returns the
	// list of unresolved (forward) gotos. parent is the immediately enclosing
	// block (or nil), ctxt provides information about the enclosing statements,
	// and lstmt is the labeled statement associated with this block, or nil.
	func (ls labelScope) blockBranches(parent block, ctxt targets, lstmt LabeledStmt, start Pos, body []Stmt) []BranchStmt {
	b := &block{parent: parent, start: start, lstmt: lstmt}

	var varPos Pos
	var varName Expr
	var fwdGotos, badGotos []*BranchStmt

	recordVarDecl := func(pos Pos, name Expr) {
	varPos = pos
	varName = name
	// Any existing forward goto jumping over the variable
	// declaration is invalid. The goto may still jump out
	// of the block and be ok, but we don't know that yet.
	// Remember all forward gotos as potential bad gotos.
	badGotos = append(badGotos[:0], fwdGotos...)
	}

	jumpsOverVarDecl := func(fwd *BranchStmt) bool {
	if varPos.IsKnown() {
	for _, bad := range badGotos {
	if fwd == bad {
	return true
	}
	}
	}
	return false
	}

	innerBlock := func(ctxt targets, start Pos, body []Stmt) {
	// Unresolved forward gotos from the inner block
	// become forward gotos for the current block.
	fwdGotos = append(fwdGotos, ls.blockBranches(b, ctxt, lstmt, start, body)...)
	}

	for _, stmt := range body {
	lstmt = nil
	L:
	switch s := stmt.(type) {
	case *DeclStmt:
	for _, d := range s.DeclList {
	if v, ok := d.(*VarDecl); ok {
	recordVarDecl(v.Pos(), v.NameList[0])
	break // the first VarDecl will do
	}
	}

	case *LabeledStmt:
	// declare non-blank label
	if name := s.Label.Value; name != "_" {
	l := ls.declare(b, s)
	// resolve matching forward gotos
	i := 0
	for _, fwd := range fwdGotos {
	if fwd.Label.Value == name {
	fwd.Target = s
	l.used = true
	if jumpsOverVarDecl(fwd) {
	ls.err(
	fwd.Label.Pos(),
	"goto %s jumps over declaration of %s at %s",
	name, String(varName), varPos,
	)
	}
	} else {
	// no match - keep forward goto
	fwdGotos[i] = fwd
	i++
	}
	}
	fwdGotos = fwdGotos[:i]
	lstmt = s
	}
	// process labeled statement
	stmt = s.Stmt
	goto L

	case *BranchStmt:
	// unlabeled branch statement
	if s.Label == nil {
	switch s.Tok {
	case _Break:
	if t := ctxt.breaks; t != nil {
	s.Target = t
	} else {
	ls.err(s.Pos(), "break is not in a loop, switch, or select")
	}
	case _Continue:
	if t := ctxt.continues; t != nil {
	s.Target = t
	} else {
	ls.err(s.Pos(), "continue is not in a loop")
	}
	case _Fallthrough:
	// nothing to do
	case _Goto:
	fallthrough // should always have a label
	default:
	panic("invalid BranchStmt")
	}
	break
	}

	// labeled branch statement
	name := s.Label.Value
	switch s.Tok {
	case _Break:
	// spec: "If there is a label, it must be that of an enclosing
	// "for", "switch", or "select" statement, and that is the one
	// whose execution terminates."
	if t := ls.enclosingTarget(b, name); t != nil {
	switch t := t.Stmt.(type) {
	case SwitchStmt, SelectStmt, *ForStmt:
	s.Target = t
	default:
	ls.err(s.Label.Pos(), "invalid break label %s", name)
	}
	} else {
	ls.err(s.Label.Pos(), "break label not defined: %s", name)
	}

	case _Continue:
	// spec: "If there is a label, it must be that of an enclosing
	// "for" statement, and that is the one whose execution advances."
	if t := ls.enclosingTarget(b, name); t != nil {
	if t, ok := t.Stmt.(*ForStmt); ok {
	s.Target = t
	} else {
	ls.err(s.Label.Pos(), "invalid continue label %s", name)
	}
	} else {
	ls.err(s.Label.Pos(), "continue label not defined: %s", name)
	}

	case _Goto:
	if t := ls.gotoTarget(b, name); t != nil {
	s.Target = t
	} else {
	// label may be declared later - add goto to forward gotos
	fwdGotos = append(fwdGotos, s)
	}

	case _Fallthrough:
	fallthrough // should never have a label
	default:
	panic("invalid BranchStmt")
	}

	case *AssignStmt:
	if s.Op == Def {
	recordVarDecl(s.Pos(), s.Lhs)
	}

	case *BlockStmt:
	innerBlock(ctxt, s.Pos(), s.List)

	case *IfStmt:
	innerBlock(ctxt, s.Then.Pos(), s.Then.List)
	if s.Else != nil {
	innerBlock(ctxt, s.Else.Pos(), []Stmt{s.Else})
	}

	case *ForStmt:
	innerBlock(targets{s, s}, s.Body.Pos(), s.Body.List)

	case *SwitchStmt:
	inner := targets{s, ctxt.continues}
	for _, cc := range s.Body {
	innerBlock(inner, cc.Pos(), cc.Body)
	}

	case *SelectStmt:
	inner := targets{s, ctxt.continues}
	for _, cc := range s.Body {
	innerBlock(inner, cc.Pos(), cc.Body)
	}
	}
	}

	return fwdGotos
	}