Commit 495f55d2 authored by Daniel Martí's avatar Daniel Martí Committed by Matthew Dempsky

cmd/compile: make duplicate expr cases readable

Instead of just printing the value, print the original node to make the
error more human-friendly. Also print the value if its string form is
different than the original node, to make sure it's obvious what value
was duplicated.

This means that "case '@', '@':", which used to print:

	duplicate case 64 in switch

Will now print:

	duplicate case '@' (value 64) in switch

Factor this logic out into its own function to reuse it in range cases
and any other place where we might want to print a node and its value in
the future.

Also needed to split the errorcheck files because expression switch case
duplicates are now detected earlier, so they stop the compiler before it
gets to generating the AST and detecting the type switch case
duplicates.

Fixes #20112.

Change-Id: I9009b50dec0d0e705e5de9c9ccb08f1dce8a5a99
Reviewed-on: https://go-review.googlesource.com/41852
Run-TryBot: Daniel Martí <mvdan@mvdan.cc>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: default avatarMatthew Dempsky <mdempsky@google.com>
parent 4dcba023
......@@ -6,6 +6,7 @@ package gc
import (
"cmd/compile/internal/types"
"fmt"
"sort"
)
......@@ -203,6 +204,11 @@ func typecheckswitch(n *Node) {
typecheckslice(ncase.Nbody.Slice(), Etop)
}
switch top {
// expression switch
case Erv:
checkDupExprCases(n.Left, n.List.Slice())
}
}
// walkswitch walks a switch statement.
......@@ -523,9 +529,6 @@ func (s *exprSwitch) genCaseClauses(clauses []*Node) caseClauses {
if cc.defjmp == nil {
cc.defjmp = nod(OBREAK, nil, nil)
}
// diagnose duplicate cases
s.checkDupCases(cc.list)
return cc
}
......@@ -599,20 +602,18 @@ Outer:
}
}
func (s *exprSwitch) checkDupCases(cc []caseClause) {
if len(cc) < 2 {
func checkDupExprCases(exprname *Node, clauses []*Node) {
// boolean (naked) switch, nothing to do.
if exprname == nil {
return
}
// The common case is that s's expression is not an interface.
// In that case, all constant clauses have the same type,
// so checking for duplicates can be done solely by value.
if !s.exprname.Type.IsInterface() {
if !exprname.Type.IsInterface() {
seen := make(map[interface{}]*Node)
for _, c := range cc {
switch {
case c.node.Left != nil:
// Single constant.
for _, ncase := range clauses {
for _, n := range ncase.List.Slice() {
// Can't check for duplicates that aren't constants, per the spec. Issue 15896.
// Don't check for duplicate bools. Although the spec allows it,
// (1) the compiler hasn't checked it in the past, so compatibility mandates it, and
......@@ -620,35 +621,18 @@ func (s *exprSwitch) checkDupCases(cc []caseClause) {
// case GOARCH == "arm" && GOARM == "5":
// case GOARCH == "arm":
// which would both evaluate to false for non-ARM compiles.
if ct := consttype(c.node.Left); ct < 0 || ct == CTBOOL {
if ct := consttype(n); ct < 0 || ct == CTBOOL {
continue
}
val := c.node.Left.Val().Interface()
val := n.Val().Interface()
prev, dup := seen[val]
if !dup {
seen[val] = c.node
seen[val] = n
continue
}
setlineno(c.node)
yyerror("duplicate case %#v in switch\n\tprevious case at %v", val, prev.Line())
case c.node.List.Len() == 2:
// Range of integers.
low := c.node.List.First().Int64()
high := c.node.List.Second().Int64()
for i := low; i <= high; i++ {
prev, dup := seen[i]
if !dup {
seen[i] = c.node
continue
}
setlineno(c.node)
yyerror("duplicate case %d in switch\n\tprevious case at %v", i, prev.Line())
}
default:
Fatalf("bad caseClause node in checkDupCases: %v", c.node)
yyerrorl(ncase.Pos, "duplicate case %s in switch\n\tprevious case at %v",
nodeAndVal(n), prev.Line())
}
}
return
......@@ -660,25 +644,35 @@ func (s *exprSwitch) checkDupCases(cc []caseClause) {
val interface{}
}
seen := make(map[typeVal]*Node)
for _, c := range cc {
if ct := consttype(c.node.Left); ct < 0 || ct == CTBOOL {
continue
}
n := c.node.Left
tv := typeVal{
typ: n.Type.LongString(),
val: n.Val().Interface(),
}
prev, dup := seen[tv]
if !dup {
seen[tv] = c.node
continue
for _, ncase := range clauses {
for _, n := range ncase.List.Slice() {
if ct := consttype(n); ct < 0 || ct == CTBOOL {
continue
}
tv := typeVal{
typ: n.Type.LongString(),
val: n.Val().Interface(),
}
prev, dup := seen[tv]
if !dup {
seen[tv] = n
continue
}
yyerrorl(ncase.Pos, "duplicate case %s in switch\n\tprevious case at %v",
nodeAndVal(n), prev.Line())
}
setlineno(c.node)
yyerror("duplicate case %v in switch\n\tprevious case at %v", prev.Left, prev.Line())
}
}
func nodeAndVal(n *Node) string {
show := n.String()
val := n.Val().Interface()
if s := fmt.Sprintf("%#v", val); show != s {
show += " (value " + s + ")"
}
return show
}
// walk generates an AST that implements sw,
// where sw is a type switch.
// The AST is generally of the form of a linear
......
......@@ -9,8 +9,6 @@
package main
import "fmt"
func f0(x int) {
switch x {
case 0:
......@@ -19,7 +17,7 @@ func f0(x int) {
switch x {
case 0:
case int(0): // ERROR "duplicate case 0 in switch"
case int(0): // ERROR "duplicate case int.0. .value 0. in switch"
}
}
......@@ -46,30 +44,9 @@ func f3(e interface{}) {
case 0: // ERROR "duplicate case 0 in switch"
case int64(0):
case float32(10):
case float32(10): // ERROR "duplicate case float32\(10\) in switch"
case float32(10): // ERROR "duplicate case float32\(10\) .value 10. in switch"
case float64(10):
case float64(10): // ERROR "duplicate case float64\(10\) in switch"
}
}
func f4(e interface{}) {
switch e.(type) {
case int:
case int: // ERROR "duplicate case int in type switch"
case int64:
case error:
case error: // ERROR "duplicate case error in type switch"
case fmt.Stringer:
case fmt.Stringer: // ERROR "duplicate case fmt.Stringer in type switch"
case struct {
i int "tag1"
}:
case struct {
i int "tag2"
}:
case struct { // ERROR "duplicate case struct { i int .tag1. } in type switch"
i int "tag1"
}:
case float64(10): // ERROR "duplicate case float64\(10\) .value 10. in switch"
}
}
......@@ -99,3 +76,19 @@ func f7(a int) {
case 1, 2, 3, 4: // ERROR "duplicate case 1"
}
}
// Ensure duplicates with simple literals are printed as they were
// written, not just their values. Particularly useful for runes.
func f8(r rune) {
const x = 10
switch r {
case 33, 33: // ERROR "duplicate case 33 in switch"
case 34, '"': // ERROR "duplicate case '"' .value 34. in switch"
case 35, rune('#'): // ERROR "duplicate case rune.'#'. .value 35. in switch"
case 36, rune(36): // ERROR "duplicate case rune.36. .value 36. in switch"
case 37, '$'+1: // ERROR "duplicate case '\$' \+ 1 .value 37. in switch"
case 'b':
case 'a', 'b', 'c', 'd': // ERROR "duplicate case 'b' .value 98."
case x, x: // ERROR "duplicate case x .value 10."
}
}
// errorcheck
// 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.
// Verify that type switch statements with duplicate cases are detected
// by the compiler.
// Does not compile.
package main
import "fmt"
func f4(e interface{}) {
switch e.(type) {
case int:
case int: // ERROR "duplicate case int in type switch"
case int64:
case error:
case error: // ERROR "duplicate case error in type switch"
case fmt.Stringer:
case fmt.Stringer: // ERROR "duplicate case fmt.Stringer in type switch"
case struct {
i int "tag1"
}:
case struct {
i int "tag2"
}:
case struct { // ERROR "duplicate case struct { i int .tag1. } in type switch"
i int "tag1"
}:
}
}
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