package gc
import "testing"
// Tests to make sure logic simplification rules are correct.
func TestLogic64(t *testing.T) {
// test values to determine function equality
values := [...]int64{-1 << 63, 1<<63 - 1, -4, -3, -2, -1, 0, 1, 2, 3, 4}
// golden functions we use repeatedly
zero := func(x int64) int64 { return 0 }
id := func(x int64) int64 { return x }
or := func(x, y int64) int64 { return x | y }
and := func(x, y int64) int64 { return x & y }
y := func(x, y int64) int64 { return y }
for _, test := range [...]struct {
name string
f func(int64) int64
golden func(int64) int64
}{
{"x|x", func(x int64) int64 { return x | x }, id},
{"x|0", func(x int64) int64 { return x | 0 }, id},
{"x|-1", func(x int64) int64 { return x | -1 }, func(x int64) int64 { return -1 }},
{"x&x", func(x int64) int64 { return x & x }, id},
{"x&0", func(x int64) int64 { return x & 0 }, zero},
{"x&-1", func(x int64) int64 { return x & -1 }, id},
{"x^x", func(x int64) int64 { return x ^ x }, zero},
{"x^0", func(x int64) int64 { return x ^ 0 }, id},
{"x^-1", func(x int64) int64 { return x ^ -1 }, func(x int64) int64 { return ^x }},
{"x+0", func(x int64) int64 { return x + 0 }, id},
{"x-x", func(x int64) int64 { return x - x }, zero},
{"x*0", func(x int64) int64 { return x * 0 }, zero},
{"^^x", func(x int64) int64 { return ^^x }, id},
} {
for _, v := range values {
got := test.f(v)
want := test.golden(v)
if want != got {
t.Errorf("[%s](%d)=%d, want %d", test.name, v, got, want)
}
}
}
for _, test := range [...]struct {
name string
f func(int64, int64) int64
golden func(int64, int64) int64
}{
{"x|(x|y)", func(x, y int64) int64 { return x | (x | y) }, or},
{"x|(y|x)", func(x, y int64) int64 { return x | (y | x) }, or},
{"(x|y)|x", func(x, y int64) int64 { return (x | y) | x }, or},
{"(y|x)|x", func(x, y int64) int64 { return (y | x) | x }, or},
{"x&(x&y)", func(x, y int64) int64 { return x & (x & y) }, and},
{"x&(y&x)", func(x, y int64) int64 { return x & (y & x) }, and},
{"(x&y)&x", func(x, y int64) int64 { return (x & y) & x }, and},
{"(y&x)&x", func(x, y int64) int64 { return (y & x) & x }, and},
{"x^(x^y)", func(x, y int64) int64 { return x ^ (x ^ y) }, y},
{"x^(y^x)", func(x, y int64) int64 { return x ^ (y ^ x) }, y},
{"(x^y)^x", func(x, y int64) int64 { return (x ^ y) ^ x }, y},
{"(y^x)^x", func(x, y int64) int64 { return (y ^ x) ^ x }, y},
{"-(y-x)", func(x, y int64) int64 { return -(y - x) }, func(x, y int64) int64 { return x - y }},
{"(x+y)-x", func(x, y int64) int64 { return (x + y) - x }, y},
{"(y+x)-x", func(x, y int64) int64 { return (y + x) - x }, y},
} {
for _, v := range values {
for _, w := range values {
got := test.f(v, w)
want := test.golden(v, w)
if want != got {
t.Errorf("[%s](%d,%d)=%d, want %d", test.name, v, w, got, want)
}
}
}
}
}
func TestLogic32(t *testing.T) {
// test values to determine function equality
values := [...]int32{-1 << 31, 1<<31 - 1, -4, -3, -2, -1, 0, 1, 2, 3, 4}
// golden functions we use repeatedly
zero := func(x int32) int32 { return 0 }
id := func(x int32) int32 { return x }
or := func(x, y int32) int32 { return x | y }
and := func(x, y int32) int32 { return x & y }
y := func(x, y int32) int32 { return y }
for _, test := range [...]struct {
name string
f func(int32) int32
golden func(int32) int32
}{
{"x|x", func(x int32) int32 { return x | x }, id},
{"x|0", func(x int32) int32 { return x | 0 }, id},
{"x|-1", func(x int32) int32 { return x | -1 }, func(x int32) int32 { return -1 }},
{"x&x", func(x int32) int32 { return x & x }, id},
{"x&0", func(x int32) int32 { return x & 0 }, zero},
{"x&-1", func(x int32) int32 { return x & -1 }, id},
{"x^x", func(x int32) int32 { return x ^ x }, zero},
{"x^0", func(x int32) int32 { return x ^ 0 }, id},
{"x^-1", func(x int32) int32 { return x ^ -1 }, func(x int32) int32 { return ^x }},
{"x+0", func(x int32) int32 { return x + 0 }, id},
{"x-x", func(x int32) int32 { return x - x }, zero},
{"x*0", func(x int32) int32 { return x * 0 }, zero},
{"^^x", func(x int32) int32 { return ^^x }, id},
} {
for _, v := range values {
got := test.f(v)
want := test.golden(v)
if want != got {
t.Errorf("[%s](%d)=%d, want %d", test.name, v, got, want)
}
}
}
for _, test := range [...]struct {
name string
f func(int32, int32) int32
golden func(int32, int32) int32
}{
{"x|(x|y)", func(x, y int32) int32 { return x | (x | y) }, or},
{"x|(y|x)", func(x, y int32) int32 { return x | (y | x) }, or},
{"(x|y)|x", func(x, y int32) int32 { return (x | y) | x }, or},
{"(y|x)|x", func(x, y int32) int32 { return (y | x) | x }, or},
{"x&(x&y)", func(x, y int32) int32 { return x & (x & y) }, and},
{"x&(y&x)", func(x, y int32) int32 { return x & (y & x) }, and},
{"(x&y)&x", func(x, y int32) int32 { return (x & y) & x }, and},
{"(y&x)&x", func(x, y int32) int32 { return (y & x) & x }, and},
{"x^(x^y)", func(x, y int32) int32 { return x ^ (x ^ y) }, y},
{"x^(y^x)", func(x, y int32) int32 { return x ^ (y ^ x) }, y},
{"(x^y)^x", func(x, y int32) int32 { return (x ^ y) ^ x }, y},
{"(y^x)^x", func(x, y int32) int32 { return (y ^ x) ^ x }, y},
{"-(y-x)", func(x, y int32) int32 { return -(y - x) }, func(x, y int32) int32 { return x - y }},
{"(x+y)-x", func(x, y int32) int32 { return (x + y) - x }, y},
{"(y+x)-x", func(x, y int32) int32 { return (y + x) - x }, y},
} {
for _, v := range values {
for _, w := range values {
got := test.f(v, w)
want := test.golden(v, w)
if want != got {
t.Errorf("[%s](%d,%d)=%d, want %d", test.name, v, w, got, want)
}
}
}
}
}
func TestLogic16(t *testing.T) {
// test values to determine function equality
values := [...]int16{-1 << 15, 1<<15 - 1, -4, -3, -2, -1, 0, 1, 2, 3, 4}
// golden functions we use repeatedly
zero := func(x int16) int16 { return 0 }
id := func(x int16) int16 { return x }
or := func(x, y int16) int16 { return x | y }
and := func(x, y int16) int16 { return x & y }
y := func(x, y int16) int16 { return y }
for _, test := range [...]struct {
name string
f func(int16) int16
golden func(int16) int16
}{
{"x|x", func(x int16) int16 { return x | x }, id},
{"x|0", func(x int16) int16 { return x | 0 }, id},
{"x|-1", func(x int16) int16 { return x | -1 }, func(x int16) int16 { return -1 }},
{"x&x", func(x int16) int16 { return x & x }, id},
{"x&0", func(x int16) int16 { return x & 0 }, zero},
{"x&-1", func(x int16) int16 { return x & -1 }, id},
{"x^x", func(x int16) int16 { return x ^ x }, zero},
{"x^0", func(x int16) int16 { return x ^ 0 }, id},
{"x^-1", func(x int16) int16 { return x ^ -1 }, func(x int16) int16 { return ^x }},
{"x+0", func(x int16) int16 { return x + 0 }, id},
{"x-x", func(x int16) int16 { return x - x }, zero},
{"x*0", func(x int16) int16 { return x * 0 }, zero},
{"^^x", func(x int16) int16 { return ^^x }, id},
} {
for _, v := range values {
got := test.f(v)
want := test.golden(v)
if want != got {
t.Errorf("[%s](%d)=%d, want %d", test.name, v, got, want)
}
}
}
for _, test := range [...]struct {
name string
f func(int16, int16) int16
golden func(int16, int16) int16
}{
{"x|(x|y)", func(x, y int16) int16 { return x | (x | y) }, or},
{"x|(y|x)", func(x, y int16) int16 { return x | (y | x) }, or},
{"(x|y)|x", func(x, y int16) int16 { return (x | y) | x }, or},
{"(y|x)|x", func(x, y int16) int16 { return (y | x) | x }, or},
{"x&(x&y)", func(x, y int16) int16 { return x & (x & y) }, and},
{"x&(y&x)", func(x, y int16) int16 { return x & (y & x) }, and},
{"(x&y)&x", func(x, y int16) int16 { return (x & y) & x }, and},
{"(y&x)&x", func(x, y int16) int16 { return (y & x) & x }, and},
{"x^(x^y)", func(x, y int16) int16 { return x ^ (x ^ y) }, y},
{"x^(y^x)", func(x, y int16) int16 { return x ^ (y ^ x) }, y},
{"(x^y)^x", func(x, y int16) int16 { return (x ^ y) ^ x }, y},
{"(y^x)^x", func(x, y int16) int16 { return (y ^ x) ^ x }, y},
{"-(y-x)", func(x, y int16) int16 { return -(y - x) }, func(x, y int16) int16 { return x - y }},
{"(x+y)-x", func(x, y int16) int16 { return (x + y) - x }, y},
{"(y+x)-x", func(x, y int16) int16 { return (y + x) - x }, y},
} {
for _, v := range values {
for _, w := range values {
got := test.f(v, w)
want := test.golden(v, w)
if want != got {
t.Errorf("[%s](%d,%d)=%d, want %d", test.name, v, w, got, want)
}
}
}
}
}
func TestLogic8(t *testing.T) {
// test values to determine function equality
values := [...]int8{-1 << 7, 1<<7 - 1, -4, -3, -2, -1, 0, 1, 2, 3, 4}
// golden functions we use repeatedly
zero := func(x int8) int8 { return 0 }
id := func(x int8) int8 { return x }
or := func(x, y int8) int8 { return x | y }
and := func(x, y int8) int8 { return x & y }
y := func(x, y int8) int8 { return y }
for _, test := range [...]struct {
name string
f func(int8) int8
golden func(int8) int8
}{
{"x|x", func(x int8) int8 { return x | x }, id},
{"x|0", func(x int8) int8 { return x | 0 }, id},
{"x|-1", func(x int8) int8 { return x | -1 }, func(x int8) int8 { return -1 }},
{"x&x", func(x int8) int8 { return x & x }, id},
{"x&0", func(x int8) int8 { return x & 0 }, zero},
{"x&-1", func(x int8) int8 { return x & -1 }, id},
{"x^x", func(x int8) int8 { return x ^ x }, zero},
{"x^0", func(x int8) int8 { return x ^ 0 }, id},
{"x^-1", func(x int8) int8 { return x ^ -1 }, func(x int8) int8 { return ^x }},
{"x+0", func(x int8) int8 { return x + 0 }, id},
{"x-x", func(x int8) int8 { return x - x }, zero},
{"x*0", func(x int8) int8 { return x * 0 }, zero},
{"^^x", func(x int8) int8 { return ^^x }, id},
} {
for _, v := range values {
got := test.f(v)
want := test.golden(v)
if want != got {
t.Errorf("[%s](%d)=%d, want %d", test.name, v, got, want)
}
}
}
for _, test := range [...]struct {
name string
f func(int8, int8) int8
golden func(int8, int8) int8
}{
{"x|(x|y)", func(x, y int8) int8 { return x | (x | y) }, or},
{"x|(y|x)", func(x, y int8) int8 { return x | (y | x) }, or},
{"(x|y)|x", func(x, y int8) int8 { return (x | y) | x }, or},
{"(y|x)|x", func(x, y int8) int8 { return (y | x) | x }, or},
{"x&(x&y)", func(x, y int8) int8 { return x & (x & y) }, and},
{"x&(y&x)", func(x, y int8) int8 { return x & (y & x) }, and},
{"(x&y)&x", func(x, y int8) int8 { return (x & y) & x }, and},
{"(y&x)&x", func(x, y int8) int8 { return (y & x) & x }, and},
{"x^(x^y)", func(x, y int8) int8 { return x ^ (x ^ y) }, y},
{"x^(y^x)", func(x, y int8) int8 { return x ^ (y ^ x) }, y},
{"(x^y)^x", func(x, y int8) int8 { return (x ^ y) ^ x }, y},
{"(y^x)^x", func(x, y int8) int8 { return (y ^ x) ^ x }, y},
{"-(y-x)", func(x, y int8) int8 { return -(y - x) }, func(x, y int8) int8 { return x - y }},
{"(x+y)-x", func(x, y int8) int8 { return (x + y) - x }, y},
{"(y+x)-x", func(x, y int8) int8 { return (y + x) - x }, y},
} {
for _, v := range values {
for _, w := range values {
got := test.f(v, w)
want := test.golden(v, w)
if want != got {
t.Errorf("[%s](%d,%d)=%d, want %d", test.name, v, w, got, want)
}
}
}
}
}