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go/test/index.go
Ian Lance Taylor 433b2f17ee test: fix index.go to pass with recent index checks
The compiler now gives an error for out of bounds constant
indexes for arrays, and for negative constant indexes for both
arrays and slices.

With this change the index.go test passes if CLs 6815085,
6815088, and 6812089 are committed.

R=golang-dev, remyoudompheng, rsc
CC=golang-dev
https://golang.org/cl/6810085
2012-11-06 11:38:16 -08:00

279 lines
5.9 KiB
Go

// $G $D/$F.go && $L $F.$A &&
// ./$A.out -pass 0 >tmp.go && $G tmp.go && $L -o $A.out1 tmp.$A && ./$A.out1 &&
// ./$A.out -pass 1 >tmp.go && errchk $G -e tmp.go &&
// ./$A.out -pass 2 >tmp.go && errchk $G -e tmp.go
// rm -f tmp.go $A.out1
// NOTE: This test is not run by 'run.go' and so not run by all.bash.
// To run this test you must use the ./run shell script.
// Copyright 2010 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.
// Generate test of index and slice bounds checks.
// The output is compiled and run.
package main
import (
"bufio"
"flag"
"fmt"
"os"
"runtime"
)
const prolog = `
package main
import (
"runtime"
)
type quad struct { x, y, z, w int }
const (
cj = 100011
ci int = 100012
ci8 int8 = 115
ci16 int16 = 10016
ci32 int32 = 100013
ci64 int64 = 100014
ci64big int64 = 1<<31
ci64bigger int64 = 1<<32
chuge = 1<<100
cnj = -2
cni int = -3
cni8 int8 = -6
cni16 int16 = -7
cni32 int32 = -4
cni64 int64 = -5
cni64big int64 = -1<<31
cni64bigger int64 = -1<<32
cnhuge = -1<<100
)
var j int = 100020
var i int = 100021
var i8 int8 = 126
var i16 int16 = 10025
var i32 int32 = 100022
var i64 int64 = 100023
var i64big int64 = 1<<31
var i64bigger int64 = 1<<32
var huge uint64 = 1<<64 - 1
var nj int = -10
var ni int = -11
var ni8 int8 = -14
var ni16 int16 = -15
var ni32 int32 = -12
var ni64 int64 = -13
var ni64big int64 = -1<<31
var ni64bigger int64 = -1<<32
var nhuge int64 = -1<<63
var si []int = make([]int, 10)
var ai [10]int
var pai *[10]int = &ai
var sq []quad = make([]quad, 10)
var aq [10]quad
var paq *[10]quad = &aq
var sib []int = make([]int, 100000)
var aib [100000]int
var paib *[100000]int = &aib
var sqb []quad = make([]quad, 100000)
var aqb [100000]quad
var paqb *[100000]quad = &aqb
type T struct {
si []int
ai [10]int
pai *[10]int
sq []quad
aq [10]quad
paq *[10]quad
sib []int
aib [100000]int
paib *[100000]int
sqb []quad
aqb [100000]quad
paqb *[100000]quad
}
var t = T{si, ai, pai, sq, aq, paq, sib, aib, paib, sqb, aqb, paqb}
var pt = &T{si, ai, pai, sq, aq, paq, sib, aib, paib, sqb, aqb, paqb}
// test that f panics
func test(f func(), s string) {
defer func() {
if err := recover(); err == nil {
_, file, line, _ := runtime.Caller(2)
bug()
print(file, ":", line, ": ", s, " did not panic\n")
} else if !contains(err.(error).Error(), "out of range") {
_, file, line, _ := runtime.Caller(2)
bug()
print(file, ":", line, ": ", s, " unexpected panic: ", err.(error).Error(), "\n")
}
}()
f()
}
func contains(x, y string) bool {
for i := 0; i+len(y) <= len(x); i++ {
if x[i:i+len(y)] == y {
return true
}
}
return false
}
var X interface{}
func use(y interface{}) {
X = y
}
var didBug = false
func bug() {
if !didBug {
didBug = true
println("BUG")
}
}
func main() {
`
// Passes:
// 0 - dynamic checks
// 1 - static checks of invalid constants (cannot assign to types)
// 2 - static checks of array bounds
var pass = flag.Int("pass", 0, "which test (0,1,2)")
func testExpr(b *bufio.Writer, expr string) {
if *pass == 0 {
fmt.Fprintf(b, "\ttest(func(){use(%s)}, %q)\n", expr, expr)
} else {
fmt.Fprintf(b, "\tuse(%s) // ERROR \"index|overflow\"\n", expr)
}
}
func main() {
b := bufio.NewWriter(os.Stdout)
flag.Parse()
if *pass == 0 {
fmt.Fprint(b, "// $G $D/$F.go && $L $F.$A && ./$A.out\n\n")
} else {
fmt.Fprint(b, "// errchk $G -e $D/$F.go\n\n")
}
fmt.Fprint(b, prolog)
var choices = [][]string{
// Direct value, fetch from struct, fetch from struct pointer.
// The last two cases get us to oindex_const_sudo in gsubr.c.
[]string{"", "t.", "pt."},
// Array, pointer to array, slice.
[]string{"a", "pa", "s"},
// Element is int, element is quad (struct).
// This controls whether we end up in gsubr.c (i) or cgen.c (q).
[]string{"i", "q"},
// Small or big len.
[]string{"", "b"},
// Variable or constant.
[]string{"", "c"},
// Positive or negative.
[]string{"", "n"},
// Size of index.
[]string{"j", "i", "i8", "i16", "i32", "i64", "i64big", "i64bigger", "huge"},
}
forall(choices, func(x []string) {
p, a, e, big, c, n, i := x[0], x[1], x[2], x[3], x[4], x[5], x[6]
// Pass: dynamic=0, static=1, 2.
// Which cases should be caught statically?
// Only constants, obviously.
// Beyond that, must be one of these:
// indexing into array or pointer to array
// negative constant
// large constant
thisPass := 0
if c == "c" && (a == "a" || a == "pa" || n == "n" || i == "i64big" || i == "i64bigger" || i == "huge") {
if i == "huge" {
// Due to a detail of 6g's internals,
// the huge constant errors happen in an
// earlier pass than the others and inhibits
// the next pass from running.
// So run it as a separate check.
thisPass = 1
} else if a == "s" && n == "" && (i == "i64big" || i == "i64bigger") && runtime.GOARCH == "amd64" {
// On amd64, these huge numbers do fit in an int, so they are not
// rejected at compile time.
thisPass = 0
} else {
thisPass = 2
}
}
// If we're using the big-len data, positive int8 and int16 cannot overflow.
if big == "b" && n == "" && (i == "i8" || i == "i16") {
return
}
// Only print the test case if it is appropriate for this pass.
if thisPass == *pass {
pae := p+a+e+big
cni := c+n+i
// Index operation
testExpr(b, pae + "[" + cni + "]")
// Slice operation.
// Low index 0 is a special case in ggen.c
// so test both 0 and 1.
testExpr(b, pae + "[0:" + cni + "]")
testExpr(b, pae + "[1:" + cni + "]")
testExpr(b, pae + "[" + cni + ":]")
testExpr(b, pae + "[" + cni + ":" + cni + "]")
}
})
fmt.Fprintln(b, "}")
b.Flush()
}
func forall(choices [][]string, f func([]string)) {
x := make([]string, len(choices))
var recurse func(d int)
recurse = func(d int) {
if d >= len(choices) {
f(x)
return
}
for _, x[d] = range choices[d] {
recurse(d+1)
}
}
recurse(0)
}