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go/cmd/vet/deadcode.go
Rob Pike 01f8cd246d go.tools: add go/types, ssa, and cmd/vet
They will be deleted from their current homes once this has landed.
Changes made to import paths to make the code compile, and to find
errchk in the right place in cmd/vet's Makefile.
TODO in a later CL: tidy up vet.

R=golang-dev, gri
CC=golang-dev
https://golang.org/cl/9495043
2013-05-17 13:20:39 -07:00

281 lines
6.4 KiB
Go

// Copyright 2013 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.
// Check for syntactically unreachable code.
package main
import (
"go/ast"
"go/token"
)
type deadState struct {
f *File
hasBreak map[ast.Stmt]bool
hasGoto map[string]bool
labels map[string]ast.Stmt
breakTarget ast.Stmt
reachable bool
}
// checkUnreachable checks a function body for dead code.
func (f *File) checkUnreachable(body *ast.BlockStmt) {
if !vet("unreachable") || body == nil {
return
}
d := &deadState{
f: f,
hasBreak: make(map[ast.Stmt]bool),
hasGoto: make(map[string]bool),
labels: make(map[string]ast.Stmt),
}
d.findLabels(body)
d.reachable = true
d.findDead(body)
}
// findLabels gathers information about the labels defined and used by stmt
// and about which statements break, whether a label is involved or not.
func (d *deadState) findLabels(stmt ast.Stmt) {
switch x := stmt.(type) {
default:
d.f.Warnf(x.Pos(), "internal error in findLabels: unexpected statement %T", x)
case *ast.AssignStmt,
*ast.BadStmt,
*ast.DeclStmt,
*ast.DeferStmt,
*ast.EmptyStmt,
*ast.ExprStmt,
*ast.GoStmt,
*ast.IncDecStmt,
*ast.ReturnStmt,
*ast.SendStmt:
// no statements inside
case *ast.BlockStmt:
for _, stmt := range x.List {
d.findLabels(stmt)
}
case *ast.BranchStmt:
switch x.Tok {
case token.GOTO:
d.hasGoto[x.Label.Name] = true
case token.BREAK:
stmt := d.breakTarget
if x.Label != nil {
stmt = d.labels[x.Label.Name]
}
if stmt != nil {
d.hasBreak[stmt] = true
}
}
case *ast.IfStmt:
d.findLabels(x.Body)
if x.Else != nil {
d.findLabels(x.Else)
}
case *ast.LabeledStmt:
d.labels[x.Label.Name] = x.Stmt
d.findLabels(x.Stmt)
// These cases are all the same, but the x.Body only works
// when the specific type of x is known, so the cases cannot
// be merged.
case *ast.ForStmt:
outer := d.breakTarget
d.breakTarget = x
d.findLabels(x.Body)
d.breakTarget = outer
case *ast.RangeStmt:
outer := d.breakTarget
d.breakTarget = x
d.findLabels(x.Body)
d.breakTarget = outer
case *ast.SelectStmt:
outer := d.breakTarget
d.breakTarget = x
d.findLabels(x.Body)
d.breakTarget = outer
case *ast.SwitchStmt:
outer := d.breakTarget
d.breakTarget = x
d.findLabels(x.Body)
d.breakTarget = outer
case *ast.TypeSwitchStmt:
outer := d.breakTarget
d.breakTarget = x
d.findLabels(x.Body)
d.breakTarget = outer
case *ast.CommClause:
for _, stmt := range x.Body {
d.findLabels(stmt)
}
case *ast.CaseClause:
for _, stmt := range x.Body {
d.findLabels(stmt)
}
}
}
// findDead walks the statement looking for dead code.
// If d.reachable is false on entry, stmt itself is dead.
// When findDead returns, d.reachable tells whether the
// statement following stmt is reachable.
func (d *deadState) findDead(stmt ast.Stmt) {
// Is this a labeled goto target?
// If so, assume it is reachable due to the goto.
// This is slightly conservative, in that we don't
// check that the goto is reachable, so
// L: goto L
// will not provoke a warning.
// But it's good enough.
if x, isLabel := stmt.(*ast.LabeledStmt); isLabel && d.hasGoto[x.Label.Name] {
d.reachable = true
}
if !d.reachable {
switch stmt.(type) {
case *ast.EmptyStmt:
// do not warn about unreachable empty statements
default:
d.f.Warnf(stmt.Pos(), "unreachable code")
d.reachable = true // silence error about next statement
}
}
switch x := stmt.(type) {
default:
d.f.Warnf(x.Pos(), "internal error in findDead: unexpected statement %T", x)
case *ast.AssignStmt,
*ast.BadStmt,
*ast.DeclStmt,
*ast.DeferStmt,
*ast.EmptyStmt,
*ast.GoStmt,
*ast.IncDecStmt,
*ast.SendStmt:
// no control flow
case *ast.BlockStmt:
for _, stmt := range x.List {
d.findDead(stmt)
}
case *ast.BranchStmt:
switch x.Tok {
case token.BREAK, token.GOTO, token.FALLTHROUGH:
d.reachable = false
case token.CONTINUE:
// NOTE: We accept "continue" statements as terminating.
// They are not necessary in the spec definition of terminating,
// because a continue statement cannot be the final statement
// before a return. But for the more general problem of syntactically
// identifying dead code, continue redirects control flow just
// like the other terminating statements.
d.reachable = false
}
case *ast.ExprStmt:
// Call to panic?
call, ok := x.X.(*ast.CallExpr)
if ok {
name, ok := call.Fun.(*ast.Ident)
if ok && name.Name == "panic" && name.Obj == nil {
d.reachable = false
}
}
case *ast.ForStmt:
d.findDead(x.Body)
d.reachable = x.Cond != nil || d.hasBreak[x]
case *ast.IfStmt:
d.findDead(x.Body)
if x.Else != nil {
r := d.reachable
d.reachable = true
d.findDead(x.Else)
d.reachable = d.reachable || r
} else {
// might not have executed if statement
d.reachable = true
}
case *ast.LabeledStmt:
d.findDead(x.Stmt)
case *ast.RangeStmt:
d.findDead(x.Body)
d.reachable = true
case *ast.ReturnStmt:
d.reachable = false
case *ast.SelectStmt:
// NOTE: Unlike switch and type switch below, we don't care
// whether a select has a default, because a select without a
// default blocks until one of the cases can run. That's different
// from a switch without a default, which behaves like it has
// a default with an empty body.
anyReachable := false
for _, comm := range x.Body.List {
d.reachable = true
for _, stmt := range comm.(*ast.CommClause).Body {
d.findDead(stmt)
}
anyReachable = anyReachable || d.reachable
}
d.reachable = anyReachable || d.hasBreak[x]
case *ast.SwitchStmt:
anyReachable := false
hasDefault := false
for _, cas := range x.Body.List {
cc := cas.(*ast.CaseClause)
if cc.List == nil {
hasDefault = true
}
d.reachable = true
for _, stmt := range cc.Body {
d.findDead(stmt)
}
anyReachable = anyReachable || d.reachable
}
d.reachable = anyReachable || d.hasBreak[x] || !hasDefault
case *ast.TypeSwitchStmt:
anyReachable := false
hasDefault := false
for _, cas := range x.Body.List {
cc := cas.(*ast.CaseClause)
if cc.List == nil {
hasDefault = true
}
d.reachable = true
for _, stmt := range cc.Body {
d.findDead(stmt)
}
anyReachable = anyReachable || d.reachable
}
d.reachable = anyReachable || d.hasBreak[x] || !hasDefault
}
}