// 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. package ssa import ( "cmd/compile/internal/rttype" "reflect" "testing" "unsafe" ) // We generate memmove for copy(x[1:], x[:]), however we may change it to OpMove, // because size is known. Check that OpMove is alias-safe, or we did call memmove. func TestMove(t *testing.T) { x := [...]byte{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40} copy(x[1:], x[:]) for i := 1; i < len(x); i++ { if int(x[i]) != i { t.Errorf("Memmove got converted to OpMove in alias-unsafe way. Got %d instead of %d in position %d", int(x[i]), i, i+1) } } } func TestMoveSmall(t *testing.T) { x := [...]byte{1, 2, 3, 4, 5, 6, 7} copy(x[1:], x[:]) for i := 1; i < len(x); i++ { if int(x[i]) != i { t.Errorf("Memmove got converted to OpMove in alias-unsafe way. Got %d instead of %d in position %d", int(x[i]), i, i+1) } } } func TestSubFlags(t *testing.T) { if !subFlags32(0, 1).lt() { t.Errorf("subFlags32(0,1).lt() returned false") } if !subFlags32(0, 1).ult() { t.Errorf("subFlags32(0,1).ult() returned false") } } func TestIsPPC64WordRotateMask(t *testing.T) { tests := []struct { input int64 expected bool }{ {0x00000001, true}, {0x80000001, true}, {0x80010001, false}, {0xFFFFFFFA, false}, {0xF0F0F0F0, false}, {0xFFFFFFFD, true}, {0x80000000, true}, {0x00000000, false}, {0xFFFFFFFF, true}, {0x0000FFFF, true}, {0xFF0000FF, true}, {0x00FFFF00, true}, } for _, v := range tests { if v.expected != isPPC64WordRotateMask(v.input) { t.Errorf("isPPC64WordRotateMask(0x%x) failed", v.input) } } } func TestEncodeDecodePPC64WordRotateMask(t *testing.T) { tests := []struct { rotate int64 mask uint64 nbits, mb, me, encoded int64 }{ {1, 0x00000001, 32, 31, 31, 0x20011f20}, {2, 0x80000001, 32, 31, 0, 0x20021f01}, {3, 0xFFFFFFFD, 32, 31, 29, 0x20031f1e}, {4, 0x80000000, 32, 0, 0, 0x20040001}, {5, 0xFFFFFFFF, 32, 0, 31, 0x20050020}, {6, 0x0000FFFF, 32, 16, 31, 0x20061020}, {7, 0xFF0000FF, 32, 24, 7, 0x20071808}, {8, 0x00FFFF00, 32, 8, 23, 0x20080818}, {9, 0x0000000000FFFF00, 64, 40, 55, 0x40092838}, {10, 0xFFFF000000000000, 64, 0, 15, 0x400A0010}, {10, 0xFFFF000000000001, 64, 63, 15, 0x400A3f10}, } for i, v := range tests { result := encodePPC64RotateMask(v.rotate, int64(v.mask), v.nbits) if result != v.encoded { t.Errorf("encodePPC64RotateMask(%d,0x%x,%d) = 0x%x, expected 0x%x", v.rotate, v.mask, v.nbits, result, v.encoded) } rotate, mb, me, mask := DecodePPC64RotateMask(result) if rotate != v.rotate || mb != v.mb || me != v.me || mask != v.mask { t.Errorf("DecodePPC64Failure(Test %d) got (%d, %d, %d, %x) expected (%d, %d, %d, %x)", i, rotate, mb, me, mask, v.rotate, v.mb, v.me, v.mask) } } } func TestMergePPC64ClrlsldiSrw(t *testing.T) { tests := []struct { clrlsldi int32 srw int64 valid bool rotate int64 mask uint64 }{ // ((x>>4)&0xFF)<<4 {newPPC64ShiftAuxInt(4, 56, 63, 64), 4, true, 0, 0xFF0}, // ((x>>4)&0xFFFF)<<4 {newPPC64ShiftAuxInt(4, 48, 63, 64), 4, true, 0, 0xFFFF0}, // ((x>>4)&0xFFFF)<<17 {newPPC64ShiftAuxInt(17, 48, 63, 64), 4, false, 0, 0}, // ((x>>4)&0xFFFF)<<16 {newPPC64ShiftAuxInt(16, 48, 63, 64), 4, true, 12, 0xFFFF0000}, // ((x>>32)&0xFFFF)<<17 {newPPC64ShiftAuxInt(17, 48, 63, 64), 32, false, 0, 0}, } for i, v := range tests { result := mergePPC64ClrlsldiSrw(int64(v.clrlsldi), v.srw) if v.valid && result == 0 { t.Errorf("mergePPC64ClrlsldiSrw(Test %d) did not merge", i) } else if !v.valid && result != 0 { t.Errorf("mergePPC64ClrlsldiSrw(Test %d) should return 0", i) } else if r, _, _, m := DecodePPC64RotateMask(result); v.rotate != r || v.mask != m { t.Errorf("mergePPC64ClrlsldiSrw(Test %d) got (%d,0x%x) expected (%d,0x%x)", i, r, m, v.rotate, v.mask) } } } func TestMergePPC64ClrlsldiRlwinm(t *testing.T) { tests := []struct { clrlsldi int32 rlwinm int64 valid bool rotate int64 mask uint64 }{ // ((x<<4)&0xFF00)<<4 {newPPC64ShiftAuxInt(4, 56, 63, 64), encodePPC64RotateMask(4, 0xFF00, 32), false, 0, 0}, // ((x>>4)&0xFF)<<4 {newPPC64ShiftAuxInt(4, 56, 63, 64), encodePPC64RotateMask(28, 0x0FFFFFFF, 32), true, 0, 0xFF0}, // ((x>>4)&0xFFFF)<<4 {newPPC64ShiftAuxInt(4, 48, 63, 64), encodePPC64RotateMask(28, 0xFFFF, 32), true, 0, 0xFFFF0}, // ((x>>4)&0xFFFF)<<17 {newPPC64ShiftAuxInt(17, 48, 63, 64), encodePPC64RotateMask(28, 0xFFFF, 32), false, 0, 0}, // ((x>>4)&0xFFFF)<<16 {newPPC64ShiftAuxInt(16, 48, 63, 64), encodePPC64RotateMask(28, 0xFFFF, 32), true, 12, 0xFFFF0000}, // ((x>>4)&0xF000FFFF)<<16 {newPPC64ShiftAuxInt(16, 48, 63, 64), encodePPC64RotateMask(28, 0xF000FFFF, 32), true, 12, 0xFFFF0000}, } for i, v := range tests { result := mergePPC64ClrlsldiRlwinm(v.clrlsldi, v.rlwinm) if v.valid && result == 0 { t.Errorf("mergePPC64ClrlsldiRlwinm(Test %d) did not merge", i) } else if !v.valid && result != 0 { t.Errorf("mergePPC64ClrlsldiRlwinm(Test %d) should return 0", i) } else if r, _, _, m := DecodePPC64RotateMask(result); v.rotate != r || v.mask != m { t.Errorf("mergePPC64ClrlsldiRlwinm(Test %d) got (%d,0x%x) expected (%d,0x%x)", i, r, m, v.rotate, v.mask) } } } func TestMergePPC64SldiSrw(t *testing.T) { tests := []struct { sld int64 srw int64 valid bool rotate int64 mask uint64 }{ {4, 4, true, 0, 0xFFFFFFF0}, {4, 8, true, 28, 0x0FFFFFF0}, {0, 0, true, 0, 0xFFFFFFFF}, {8, 4, false, 0, 0}, {0, 32, false, 0, 0}, {0, 31, true, 1, 0x1}, {31, 31, true, 0, 0x80000000}, {32, 32, false, 0, 0}, } for i, v := range tests { result := mergePPC64SldiSrw(v.sld, v.srw) if v.valid && result == 0 { t.Errorf("mergePPC64SldiSrw(Test %d) did not merge", i) } else if !v.valid && result != 0 { t.Errorf("mergePPC64SldiSrw(Test %d) should return 0", i) } else if r, _, _, m := DecodePPC64RotateMask(result); v.rotate != r || v.mask != m { t.Errorf("mergePPC64SldiSrw(Test %d) got (%d,0x%x) expected (%d,0x%x)", i, r, m, v.rotate, v.mask) } } } func TestMergePPC64AndSrwi(t *testing.T) { tests := []struct { and int64 srw int64 valid bool rotate int64 mask uint64 }{ {0x000000FF, 8, true, 24, 0xFF}, {0xF00000FF, 8, true, 24, 0xFF}, {0x0F0000FF, 4, false, 0, 0}, {0x00000000, 4, false, 0, 0}, {0xF0000000, 4, false, 0, 0}, {0xF0000000, 32, false, 0, 0}, {0xFFFFFFFF, 0, true, 0, 0xFFFFFFFF}, } for i, v := range tests { result := mergePPC64AndSrwi(v.and, v.srw) if v.valid && result == 0 { t.Errorf("mergePPC64AndSrwi(Test %d) did not merge", i) } else if !v.valid && result != 0 { t.Errorf("mergePPC64AndSrwi(Test %d) should return 0", i) } else if r, _, _, m := DecodePPC64RotateMask(result); v.rotate != r || v.mask != m { t.Errorf("mergePPC64AndSrwi(Test %d) got (%d,0x%x) expected (%d,0x%x)", i, r, m, v.rotate, v.mask) } } } func TestDisjointTypes(t *testing.T) { tests := []struct { v1, v2 any // two pointers to some types expected bool }{ {new(int8), new(int8), false}, {new(int8), new(float32), false}, {new(int8), new(*int8), true}, {new(*int8), new(*float32), false}, {new(*int8), new(chan<- int8), false}, {new(**int8), new(*int8), false}, {new(***int8), new(**int8), false}, {new(int8), new(chan<- int8), true}, {new(int), unsafe.Pointer(nil), false}, {new(byte), new(string), false}, {new(int), new(string), false}, {new(*int8), new(struct{ a, b int }), true}, {new(*int8), new(struct { a *int b int }), false}, {new(*int8), new(struct { a int b *int }), false}, // with more precise analysis it should be true {new(*byte), new(string), false}, {new(int), new(struct { a int b *int }), false}, {new(float64), new(complex128), false}, {new(*byte), new([]byte), false}, {new(int), new([]byte), false}, {new(int), new([2]*byte), false}, // with more recise analysis it should be true {new([2]int), new(*byte), true}, } for _, tst := range tests { t1 := rttype.FromReflect(reflect.TypeOf(tst.v1)) t2 := rttype.FromReflect(reflect.TypeOf(tst.v2)) result := disjointTypes(t1, t2) if result != tst.expected { t.Errorf("disjointTypes(%s, %s) got %t expected %t", t1.String(), t2.String(), result, tst.expected) } } } //go:noinline func foo(p1 *int64, p2 *float64) int64 { *p1 = 10 *p2 = 0 // disjointTypes shouldn't consider this and preceding stores as non-aliasing return *p1 } func TestDisjointTypesRun(t *testing.T) { f := float64(0) i := (*int64)(unsafe.Pointer(&f)) r := foo(i, &f) if r != 0 { t.Errorf("disjointTypes gives an incorrect answer that leads to an incorrect optimization.") } }