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go/test/zerodivide.go
Alan Donovan 052c942e20 test: ensure all failing tests exit nonzero.
Previously merely printing an error would cause the golden
file comparison (in 'bash run') to fail, but that is no longer
the case with the new run.go driver.

R=iant
CC=golang-dev
https://golang.org/cl/7310087
2013-02-12 13:17:49 -05:00

244 lines
5.5 KiB
Go

// run
// 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.
// Test that zero division causes a panic.
package main
import (
"fmt"
"math"
"runtime"
"strings"
)
type ErrorTest struct {
name string
fn func()
err string
}
var (
i, j, k int = 0, 0, 1
i8, j8, k8 int8 = 0, 0, 1
i16, j16, k16 int16 = 0, 0, 1
i32, j32, k32 int32 = 0, 0, 1
i64, j64, k64 int64 = 0, 0, 1
u, v, w uint = 0, 0, 1
u8, v8, w8 uint8 = 0, 0, 1
u16, v16, w16 uint16 = 0, 0, 1
u32, v32, w32 uint32 = 0, 0, 1
u64, v64, w64 uint64 = 0, 0, 1
up, vp, wp uintptr = 0, 0, 1
f, g, h float64 = 0, 0, 1
f32, g32, h32 float32 = 0, 0, 1
f64, g64, h64, inf, negInf, nan float64 = 0, 0, 1, math.Inf(1), math.Inf(-1), math.NaN()
c, d, e complex128 = 0 + 0i, 0 + 0i, 1 + 1i
c64, d64, e64 complex64 = 0 + 0i, 0 + 0i, 1 + 1i
c128, d128, e128 complex128 = 0 + 0i, 0 + 0i, 1 + 1i
)
// Fool gccgo into thinking that these variables can change.
func NotCalled() {
i++
j++
k++
i8++
j8++
k8++
i16++
j16++
k16++
i32++
j32++
k32++
i64++
j64++
k64++
u++
v++
w++
u8++
v8++
w8++
u16++
v16++
w16++
u32++
v32++
w32++
u64++
v64++
w64++
up++
vp++
wp++
f += 1
g += 1
h += 1
f32 += 1
g32 += 1
h32 += 1
f64 += 1
g64 += 1
h64 += 1
c += 1 + 1i
d += 1 + 1i
e += 1 + 1i
c64 += 1 + 1i
d64 += 1 + 1i
e64 += 1 + 1i
c128 += 1 + 1i
d128 += 1 + 1i
e128 += 1 + 1i
}
var tmp interface{}
// We could assign to _ but the compiler optimizes it too easily.
func use(v interface{}) {
tmp = v
}
// Verify error/no error for all types.
var errorTests = []ErrorTest{
// All integer divide by zero should error.
ErrorTest{"int 0/0", func() { use(i / j) }, "divide"},
ErrorTest{"int8 0/0", func() { use(i8 / j8) }, "divide"},
ErrorTest{"int16 0/0", func() { use(i16 / j16) }, "divide"},
ErrorTest{"int32 0/0", func() { use(i32 / j32) }, "divide"},
ErrorTest{"int64 0/0", func() { use(i64 / j64) }, "divide"},
ErrorTest{"int 1/0", func() { use(k / j) }, "divide"},
ErrorTest{"int8 1/0", func() { use(k8 / j8) }, "divide"},
ErrorTest{"int16 1/0", func() { use(k16 / j16) }, "divide"},
ErrorTest{"int32 1/0", func() { use(k32 / j32) }, "divide"},
ErrorTest{"int64 1/0", func() { use(k64 / j64) }, "divide"},
ErrorTest{"uint 0/0", func() { use(u / v) }, "divide"},
ErrorTest{"uint8 0/0", func() { use(u8 / v8) }, "divide"},
ErrorTest{"uint16 0/0", func() { use(u16 / v16) }, "divide"},
ErrorTest{"uint32 0/0", func() { use(u32 / v32) }, "divide"},
ErrorTest{"uint64 0/0", func() { use(u64 / v64) }, "divide"},
ErrorTest{"uintptr 0/0", func() { use(up / vp) }, "divide"},
ErrorTest{"uint 1/0", func() { use(w / v) }, "divide"},
ErrorTest{"uint8 1/0", func() { use(w8 / v8) }, "divide"},
ErrorTest{"uint16 1/0", func() { use(w16 / v16) }, "divide"},
ErrorTest{"uint32 1/0", func() { use(w32 / v32) }, "divide"},
ErrorTest{"uint64 1/0", func() { use(w64 / v64) }, "divide"},
ErrorTest{"uintptr 1/0", func() { use(wp / vp) }, "divide"},
// All float64ing divide by zero should not error.
ErrorTest{"float64 0/0", func() { use(f / g) }, ""},
ErrorTest{"float32 0/0", func() { use(f32 / g32) }, ""},
ErrorTest{"float64 0/0", func() { use(f64 / g64) }, ""},
ErrorTest{"float64 1/0", func() { use(h / g) }, ""},
ErrorTest{"float32 1/0", func() { use(h32 / g32) }, ""},
ErrorTest{"float64 1/0", func() { use(h64 / g64) }, ""},
ErrorTest{"float64 inf/0", func() { use(inf / g64) }, ""},
ErrorTest{"float64 -inf/0", func() { use(negInf / g64) }, ""},
ErrorTest{"float64 nan/0", func() { use(nan / g64) }, ""},
// All complex divide by zero should not error.
ErrorTest{"complex 0/0", func() { use(c / d) }, ""},
ErrorTest{"complex64 0/0", func() { use(c64 / d64) }, ""},
ErrorTest{"complex128 0/0", func() { use(c128 / d128) }, ""},
ErrorTest{"complex 1/0", func() { use(e / d) }, ""},
ErrorTest{"complex64 1/0", func() { use(e64 / d64) }, ""},
ErrorTest{"complex128 1/0", func() { use(e128 / d128) }, ""},
}
func error_(fn func()) (error string) {
defer func() {
if e := recover(); e != nil {
error = e.(runtime.Error).Error()
}
}()
fn()
return ""
}
type FloatTest struct {
f, g float64
out float64
}
var float64Tests = []FloatTest{
FloatTest{0, 0, nan},
FloatTest{nan, 0, nan},
FloatTest{inf, 0, inf},
FloatTest{negInf, 0, negInf},
}
func alike(a, b float64) bool {
switch {
case math.IsNaN(a) && math.IsNaN(b):
return true
case a == b:
return math.Signbit(a) == math.Signbit(b)
}
return false
}
func main() {
bad := false
for _, t := range errorTests {
if t.err != "" {
continue
}
err := error_(t.fn)
switch {
case t.err == "" && err == "":
// fine
case t.err != "" && err == "":
if !bad {
bad = true
fmt.Printf("BUG\n")
}
fmt.Printf("%s: expected %q; got no error\n", t.name, t.err)
case t.err == "" && err != "":
if !bad {
bad = true
fmt.Printf("BUG\n")
}
fmt.Printf("%s: expected no error; got %q\n", t.name, err)
case t.err != "" && err != "":
if strings.Index(err, t.err) < 0 {
if !bad {
bad = true
fmt.Printf("BUG\n")
}
fmt.Printf("%s: expected %q; got %q\n", t.name, t.err, err)
continue
}
}
}
// At this point we know we don't error on the values we're testing
for _, t := range float64Tests {
x := t.f / t.g
if !alike(x, t.out) {
if !bad {
bad = true
fmt.Printf("BUG\n")
}
fmt.Printf("%v/%v: expected %g error; got %g\n", t.f, t.g, t.out, x)
}
}
if bad {
panic("zerodivide")
}
}