-// +build amd64
-// errorcheck -0 -d=ssa/loopbce/debug=3
+// errorcheck -0 -d=ssa/prove/debug=1
+
+//go:build amd64
package main
+import "math"
+
func f0a(a []int) int {
x := 0
- for i := range a { // ERROR "Induction variable with minimum 0 and increment 1$"
- x += a[i] // ERROR "Found redundant IsInBounds$"
+ for i := range a { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ x += a[i] // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
}
return x
}
func f0b(a []int) int {
x := 0
- for i := range a { // ERROR "Induction variable with minimum 0 and increment 1$"
- b := a[i:] // ERROR "Found redundant IsSliceInBounds$"
+ for i := range a { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ b := a[i:] // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
x += b[0]
}
return x
func f0c(a []int) int {
x := 0
- for i := range a { // ERROR "Induction variable with minimum 0 and increment 1$"
- b := a[:i+1] // ERROR "Found redundant IsSliceInBounds \(len promoted to cap\)$"
+ for i := range a { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ b := a[:i+1] // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
x += b[0]
}
return x
func f1(a []int) int {
x := 0
- for _, i := range a { // ERROR "Induction variable with minimum 0 and increment 1$"
+ for _, i := range a { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
x += i
}
return x
func f2(a []int) int {
x := 0
- for i := 1; i < len(a); i++ { // ERROR "Induction variable with minimum 1 and increment 1$"
- x += a[i] // ERROR "Found redundant IsInBounds$"
+ for i := 1; i < len(a); i++ { // ERROR "Induction variable: limits \[1,\?\), increment 1$"
+ x += a[i] // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
}
return x
}
func f4(a [10]int) int {
x := 0
- for i := 0; i < len(a); i += 2 { // ERROR "Induction variable with minimum 0 and increment 2$"
- x += a[i] // ERROR "Found redundant IsInBounds$"
+ for i := 0; i < len(a); i += 2 { // ERROR "Induction variable: limits \[0,8\], increment 2$"
+ x += a[i] // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
}
return x
}
func f5(a [10]int) int {
x := 0
- for i := -10; i < len(a); i += 2 { // ERROR "Induction variable with minimum -10 and increment 2$"
- x += a[i]
+ for i := -10; i < len(a); i += 2 { // ERROR "Induction variable: limits \[-10,8\], increment 2$"
+ x += a[i+10]
+ }
+ return x
+}
+
+func f5_int32(a [10]int) int {
+ x := 0
+ for i := int32(-10); i < int32(len(a)); i += 2 { // ERROR "Induction variable: limits \[-10,8\], increment 2$"
+ x += a[i+10]
+ }
+ return x
+}
+
+func f5_int16(a [10]int) int {
+ x := 0
+ for i := int16(-10); i < int16(len(a)); i += 2 { // ERROR "Induction variable: limits \[-10,8\], increment 2$"
+ x += a[i+10]
+ }
+ return x
+}
+
+func f5_int8(a [10]int) int {
+ x := 0
+ for i := int8(-10); i < int8(len(a)); i += 2 { // ERROR "Induction variable: limits \[-10,8\], increment 2$"
+ x += a[i+10]
}
return x
}
func f6(a []int) {
- for i := range a { // ERROR "Induction variable with minimum 0 and increment 1$"
- b := a[0:i] // ERROR "Found redundant IsSliceInBounds \(len promoted to cap\)$"
+ for i := range a { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ b := a[0:i] // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
f6(b)
}
}
func g0a(a string) int {
x := 0
- for i := 0; i < len(a); i++ { // ERROR "Induction variable with minimum 0 and increment 1$"
- x += int(a[i]) // ERROR "Found redundant IsInBounds$"
+ for i := 0; i < len(a); i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ x += int(a[i]) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
}
return x
}
func g0b(a string) int {
x := 0
- for i := 0; len(a) > i; i++ { // ERROR "Induction variable with minimum 0 and increment 1$"
- x += int(a[i]) // ERROR "Found redundant IsInBounds$"
+ for i := 0; len(a) > i; i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ x += int(a[i]) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ }
+ return x
+}
+
+func g0c(a string) int {
+ x := 0
+ for i := len(a); i > 0; i-- { // ERROR "Induction variable: limits \(0,\?\], increment 1$"
+ x += int(a[i-1]) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ }
+ return x
+}
+
+func g0d(a string) int {
+ x := 0
+ for i := len(a); 0 < i; i-- { // ERROR "Induction variable: limits \(0,\?\], increment 1$"
+ x += int(a[i-1]) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ }
+ return x
+}
+
+func g0e(a string) int {
+ x := 0
+ for i := len(a) - 1; i >= 0; i-- { // ERROR "Induction variable: limits \[0,\?\], increment 1$"
+ x += int(a[i]) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ }
+ return x
+}
+
+func g0f(a string) int {
+ x := 0
+ for i := len(a) - 1; 0 <= i; i-- { // ERROR "Induction variable: limits \[0,\?\], increment 1$"
+ x += int(a[i]) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
}
return x
}
func g1() int {
a := "evenlength"
x := 0
- for i := 0; i < len(a); i += 2 { // ERROR "Induction variable with minimum 0 and increment 2$"
- x += int(a[i]) // ERROR "Found redundant IsInBounds$"
+ for i := 0; i < len(a); i += 2 { // ERROR "Induction variable: limits \[0,8\], increment 2$"
+ x += int(a[i]) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
}
return x
}
func g2() int {
a := "evenlength"
x := 0
- for i := 0; i < len(a); i += 2 { // ERROR "Induction variable with minimum 0 and increment 2$"
+ for i := 0; i < len(a); i += 2 { // ERROR "Induction variable: limits \[0,8\], increment 2$"
j := i
- if a[i] == 'e' { // ERROR "Found redundant IsInBounds$"
+ if a[i] == 'e' { // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
j = j + 1
}
x += int(a[j])
func g3a() {
a := "this string has length 25"
- for i := 0; i < len(a); i += 5 { // ERROR "Induction variable with minimum 0 and increment 5$"
- useString(a[i:]) // ERROR "Found redundant IsSliceInBounds$"
- useString(a[:i+3])
+ for i := 0; i < len(a); i += 5 { // ERROR "Induction variable: limits \[0,20\], increment 5$"
+ useString(a[i:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useString(a[:i+3]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useString(a[:i+5]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useString(a[:i+6])
}
}
func g3b(a string) {
- for i := 0; i < len(a); i++ { // ERROR "Induction variable with minimum 0 and increment 1$"
- useString(a[i+1:]) // ERROR "Found redundant IsSliceInBounds$"
+ for i := 0; i < len(a); i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ useString(a[i+1:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
}
}
func g3c(a string) {
- for i := 0; i < len(a); i++ { // ERROR "Induction variable with minimum 0 and increment 1$"
- useString(a[:i+1]) // ERROR "Found redundant IsSliceInBounds$"
+ for i := 0; i < len(a); i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ useString(a[:i+1]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
}
}
func h1(a []byte) {
c := a[:128]
- for i := range c { // ERROR "Induction variable with minimum 0 and increment 1$"
- c[i] = byte(i) // ERROR "Found redundant IsInBounds$"
+ for i := range c { // ERROR "Induction variable: limits \[0,128\), increment 1$"
+ c[i] = byte(i) // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
}
}
func h2(a []byte) {
- for i := range a[:128] { // ERROR "Induction variable with minimum 0 and increment 1$"
+ for i := range a[:128] { // ERROR "Induction variable: limits \[0,128\), increment 1$"
a[i] = byte(i)
}
}
-func nobce1() {
+func k0(a [100]int) [100]int {
+ for i := 10; i < 90; i++ { // ERROR "Induction variable: limits \[10,90\), increment 1$"
+ if a[0] == 0xdeadbeef {
+ // This is a trick to prohibit sccp to optimize out the following out of bound check
+ continue
+ }
+ a[i-11] = i
+ a[i-10] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i-5] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i+5] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i+10] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i+11] = i
+ }
+ return a
+}
+
+func k1(a [100]int) [100]int {
+ for i := 10; i < 90; i++ { // ERROR "Induction variable: limits \[10,90\), increment 1$"
+ if a[0] == 0xdeadbeef {
+ // This is a trick to prohibit sccp to optimize out the following out of bound check
+ continue
+ }
+ useSlice(a[:i-11])
+ useSlice(a[:i-10]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[:i-5]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[:i]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[:i+5]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[:i+10]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[:i+11]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[:i+12])
+
+ }
+ return a
+}
+
+func k2(a [100]int) [100]int {
+ for i := 10; i < 90; i++ { // ERROR "Induction variable: limits \[10,90\), increment 1$"
+ if a[0] == 0xdeadbeef {
+ // This is a trick to prohibit sccp to optimize out the following out of bound check
+ continue
+ }
+ useSlice(a[i-11:])
+ useSlice(a[i-10:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[i-5:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[i:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[i+5:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[i+10:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[i+11:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ useSlice(a[i+12:])
+ }
+ return a
+}
+
+func k3(a [100]int) [100]int {
+ for i := -10; i < 90; i++ { // ERROR "Induction variable: limits \[-10,90\), increment 1$"
+ if a[0] == 0xdeadbeef {
+ // This is a trick to prohibit sccp to optimize out the following out of bound check
+ continue
+ }
+ a[i+9] = i
+ a[i+10] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i+11] = i
+ }
+ return a
+}
+
+func k3neg(a [100]int) [100]int {
+ for i := 89; i > -11; i-- { // ERROR "Induction variable: limits \(-11,89\], increment 1$"
+ if a[0] == 0xdeadbeef {
+ // This is a trick to prohibit sccp to optimize out the following out of bound check
+ continue
+ }
+ a[i+9] = i
+ a[i+10] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i+11] = i
+ }
+ return a
+}
+
+func k3neg2(a [100]int) [100]int {
+ for i := 89; i >= -10; i-- { // ERROR "Induction variable: limits \[-10,89\], increment 1$"
+ if a[0] == 0xdeadbeef {
+ // This is a trick to prohibit sccp to optimize out the following out of bound check
+ continue
+ }
+ a[i+9] = i
+ a[i+10] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i+11] = i
+ }
+ return a
+}
+
+func k4(a [100]int) [100]int {
+ min := (-1) << 63
+ for i := min; i < min+50; i++ { // ERROR "Induction variable: limits \[-9223372036854775808,-9223372036854775758\), increment 1$"
+ a[i-min] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ }
+ return a
+}
+
+func k5(a [100]int) [100]int {
+ max := (1 << 63) - 1
+ for i := max - 50; i < max; i++ { // ERROR "Induction variable: limits \[9223372036854775757,9223372036854775807\), increment 1$"
+ a[i-max+50] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ a[i-(max-70)] = i // ERROR "(\([0-9]+\) )?Proved IsInBounds$"
+ }
+ return a
+}
+
+func d1(a [100]int) [100]int {
+ for i := 0; i < 100; i++ { // ERROR "Induction variable: limits \[0,100\), increment 1$"
+ for j := 0; j < i; j++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ a[j] = 0 // ERROR "Proved IsInBounds$"
+ a[j+1] = 0 // FIXME: this boundcheck should be eliminated
+ a[j+2] = 0
+ }
+ }
+ return a
+}
+
+func d2(a [100]int) [100]int {
+ for i := 0; i < 100; i++ { // ERROR "Induction variable: limits \[0,100\), increment 1$"
+ for j := 0; i > j; j++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ a[j] = 0 // ERROR "Proved IsInBounds$"
+ a[j+1] = 0 // FIXME: this boundcheck should be eliminated
+ a[j+2] = 0
+ }
+ }
+ return a
+}
+
+func d3(a [100]int) [100]int {
+ for i := 0; i <= 99; i++ { // ERROR "Induction variable: limits \[0,99\], increment 1$"
+ for j := 0; j <= i-1; j++ {
+ a[j] = 0
+ a[j+1] = 0 // ERROR "Proved IsInBounds$"
+ a[j+2] = 0
+ }
+ }
+ return a
+}
+
+func d4() {
+ for i := int64(math.MaxInt64 - 9); i < math.MaxInt64-2; i += 4 { // ERROR "Induction variable: limits \[9223372036854775798,9223372036854775802\], increment 4$"
+ useString("foo")
+ }
+ for i := int64(math.MaxInt64 - 8); i < math.MaxInt64-2; i += 4 { // ERROR "Induction variable: limits \[9223372036854775799,9223372036854775803\], increment 4$"
+ useString("foo")
+ }
+ for i := int64(math.MaxInt64 - 7); i < math.MaxInt64-2; i += 4 {
+ useString("foo")
+ }
+ for i := int64(math.MaxInt64 - 6); i < math.MaxInt64-2; i += 4 { // ERROR "Induction variable: limits \[9223372036854775801,9223372036854775801\], increment 4$"
+ useString("foo")
+ }
+ for i := int64(math.MaxInt64 - 9); i <= math.MaxInt64-2; i += 4 { // ERROR "Induction variable: limits \[9223372036854775798,9223372036854775802\], increment 4$"
+ useString("foo")
+ }
+ for i := int64(math.MaxInt64 - 8); i <= math.MaxInt64-2; i += 4 { // ERROR "Induction variable: limits \[9223372036854775799,9223372036854775803\], increment 4$"
+ useString("foo")
+ }
+ for i := int64(math.MaxInt64 - 7); i <= math.MaxInt64-2; i += 4 {
+ useString("foo")
+ }
+ for i := int64(math.MaxInt64 - 6); i <= math.MaxInt64-2; i += 4 {
+ useString("foo")
+ }
+}
+
+func d5() {
+ for i := int64(math.MinInt64 + 9); i > math.MinInt64+2; i -= 4 { // ERROR "Induction variable: limits \[-9223372036854775803,-9223372036854775799\], increment 4"
+ useString("foo")
+ }
+ for i := int64(math.MinInt64 + 8); i > math.MinInt64+2; i -= 4 { // ERROR "Induction variable: limits \[-9223372036854775804,-9223372036854775800\], increment 4"
+ useString("foo")
+ }
+ for i := int64(math.MinInt64 + 7); i > math.MinInt64+2; i -= 4 {
+ useString("foo")
+ }
+ for i := int64(math.MinInt64 + 6); i > math.MinInt64+2; i -= 4 { // ERROR "Induction variable: limits \[-9223372036854775802,-9223372036854775802\], increment 4"
+ useString("foo")
+ }
+ for i := int64(math.MinInt64 + 9); i >= math.MinInt64+2; i -= 4 { // ERROR "Induction variable: limits \[-9223372036854775803,-9223372036854775799\], increment 4"
+ useString("foo")
+ }
+ for i := int64(math.MinInt64 + 8); i >= math.MinInt64+2; i -= 4 { // ERROR "Induction variable: limits \[-9223372036854775804,-9223372036854775800\], increment 4"
+ useString("foo")
+ }
+ for i := int64(math.MinInt64 + 7); i >= math.MinInt64+2; i -= 4 {
+ useString("foo")
+ }
+ for i := int64(math.MinInt64 + 6); i >= math.MinInt64+2; i -= 4 {
+ useString("foo")
+ }
+}
+
+func bce1() {
// tests overflow of max-min
a := int64(9223372036854774057)
b := int64(-1547)
panic("invalid test: modulos should differ")
}
- for i := b; i < a; i += z {
- // No induction variable is possible because i will overflow a first iteration.
+ for i := b; i < a; i += z { // ERROR "Induction variable: limits \[-1547,9223372036854772720\], increment 1337"
useString("foobar")
}
}
func nobce2(a string) {
- for i := int64(0); i < int64(len(a)); i++ { // ERROR "Induction variable with minimum 0 and increment 1$"
- useString(a[i:]) // ERROR "Found redundant IsSliceInBounds$"
+ for i := int64(0); i < int64(len(a)); i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ useString(a[i:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ }
+ for i := int64(0); i < int64(len(a))-31337; i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ useString(a[i:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
}
- for i := int64(0); i < int64(len(a))-31337; i++ { // ERROR "Induction variable with minimum 0 and increment 1$"
- useString(a[i:]) // ERROR "Found redundant IsSliceInBounds$"
+ for i := int64(0); i < int64(len(a))+int64(-1<<63); i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ useString(a[i:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
}
- for i := int64(0); i < int64(len(a))+int64(-1<<63); i++ { // ERROR "Induction variable with minimum 0 and increment 1$"
- // tests an overflow of StringLen-MinInt64
+ j := int64(len(a)) - 123
+ for i := int64(0); i < j+123+int64(-1<<63); i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ useString(a[i:]) // ERROR "(\([0-9]+\) )?Proved IsSliceInBounds$"
+ }
+ for i := int64(0); i < j+122+int64(-1<<63); i++ { // ERROR "Induction variable: limits \[0,\?\), increment 1$"
+ // len(a)-123+122+MinInt overflows when len(a) == 0, so a bound check is needed here
useString(a[i:])
}
}
+func nobce3(a [100]int64) [100]int64 {
+ min := int64((-1) << 63)
+ max := int64((1 << 63) - 1)
+ for i := min; i < max; i++ { // ERROR "Induction variable: limits \[-9223372036854775808,9223372036854775807\), increment 1$"
+ }
+ return a
+}
+
+func issue26116a(a []int) {
+ // There is no induction variable here. The comparison is in the wrong direction.
+ for i := 3; i > 6; i++ {
+ a[i] = 0
+ }
+ for i := 7; i < 3; i-- {
+ a[i] = 1
+ }
+}
+
+func stride1(x *[7]int) int {
+ s := 0
+ for i := 0; i <= 8; i += 3 { // ERROR "Induction variable: limits \[0,6\], increment 3"
+ s += x[i] // ERROR "Proved IsInBounds"
+ }
+ return s
+}
+
+func stride2(x *[7]int) int {
+ s := 0
+ for i := 0; i < 9; i += 3 { // ERROR "Induction variable: limits \[0,6\], increment 3"
+ s += x[i] // ERROR "Proved IsInBounds"
+ }
+ return s
+}
+
//go:noinline
func useString(a string) {
}
+//go:noinline
+func useSlice(a []int) {
+}
+
func main() {
}