// Copyright 2015 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/types" "strconv" "testing" ) func BenchmarkNilCheckDeep1(b *testing.B) { benchmarkNilCheckDeep(b, 1) } func BenchmarkNilCheckDeep10(b *testing.B) { benchmarkNilCheckDeep(b, 10) } func BenchmarkNilCheckDeep100(b *testing.B) { benchmarkNilCheckDeep(b, 100) } func BenchmarkNilCheckDeep1000(b *testing.B) { benchmarkNilCheckDeep(b, 1000) } func BenchmarkNilCheckDeep10000(b *testing.B) { benchmarkNilCheckDeep(b, 10000) } // benchmarkNilCheckDeep is a stress test of nilcheckelim. // It uses the worst possible input: A linear string of // nil checks, none of which can be eliminated. // Run with multiple depths to observe big-O behavior. func benchmarkNilCheckDeep(b *testing.B, depth int) { c := testConfig(b) ptrType := c.config.Types.BytePtr var blocs []bloc blocs = append(blocs, Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto(blockn(0)), ), ) for i := 0; i < depth; i++ { blocs = append(blocs, Bloc(blockn(i), Valu(ptrn(i), OpAddr, ptrType, 0, nil, "sb"), Valu(booln(i), OpIsNonNil, c.config.Types.Bool, 0, nil, ptrn(i)), If(booln(i), blockn(i+1), "exit"), ), ) } blocs = append(blocs, Bloc(blockn(depth), Goto("exit")), Bloc("exit", Exit("mem")), ) fun := c.Fun("entry", blocs...) CheckFunc(fun.f) b.SetBytes(int64(depth)) // helps for eyeballing linearity b.ResetTimer() b.ReportAllocs() for i := 0; i < b.N; i++ { nilcheckelim(fun.f) } } func blockn(n int) string { return "b" + strconv.Itoa(n) } func ptrn(n int) string { return "p" + strconv.Itoa(n) } func booln(n int) string { return "c" + strconv.Itoa(n) } func isNilCheck(b *Block) bool { return b.Kind == BlockIf && b.Controls[0].Op == OpIsNonNil } // TestNilcheckSimple verifies that a second repeated nilcheck is removed. func TestNilcheckSimple(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"), Valu("bool1", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool1", "secondCheck", "exit")), Bloc("secondCheck", Valu("bool2", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool2", "extra", "exit")), Bloc("extra", Goto("exit")), Bloc("exit", Exit("mem"))) CheckFunc(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) for _, b := range fun.f.Blocks { if b == fun.blocks["secondCheck"] && isNilCheck(b) { t.Errorf("secondCheck was not eliminated") } } } // TestNilcheckDomOrder ensures that the nil check elimination isn't dependent // on the order of the dominees. func TestNilcheckDomOrder(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"), Valu("bool1", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool1", "secondCheck", "exit")), Bloc("exit", Exit("mem")), Bloc("secondCheck", Valu("bool2", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool2", "extra", "exit")), Bloc("extra", Goto("exit"))) CheckFunc(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) for _, b := range fun.f.Blocks { if b == fun.blocks["secondCheck"] && isNilCheck(b) { t.Errorf("secondCheck was not eliminated") } } } // TestNilcheckAddr verifies that nilchecks of OpAddr constructed values are removed. func TestNilcheckAddr(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("ptr1", OpAddr, ptrType, 0, nil, "sb"), Valu("bool1", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool1", "extra", "exit")), Bloc("extra", Goto("exit")), Bloc("exit", Exit("mem"))) CheckFunc(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) for _, b := range fun.f.Blocks { if b == fun.blocks["checkPtr"] && isNilCheck(b) { t.Errorf("checkPtr was not eliminated") } } } // TestNilcheckAddPtr verifies that nilchecks of OpAddPtr constructed values are removed. func TestNilcheckAddPtr(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("off", OpConst64, c.config.Types.Int64, 20, nil), Valu("ptr1", OpAddPtr, ptrType, 0, nil, "sb", "off"), Valu("bool1", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool1", "extra", "exit")), Bloc("extra", Goto("exit")), Bloc("exit", Exit("mem"))) CheckFunc(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) for _, b := range fun.f.Blocks { if b == fun.blocks["checkPtr"] && isNilCheck(b) { t.Errorf("checkPtr was not eliminated") } } } // TestNilcheckPhi tests that nil checks of phis, for which all values are known to be // non-nil are removed. func TestNilcheckPhi(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Valu("sp", OpSP, c.config.Types.Uintptr, 0, nil), Valu("baddr", OpLocalAddr, c.config.Types.Bool, 0, StringToAux("b"), "sp", "mem"), Valu("bool1", OpLoad, c.config.Types.Bool, 0, nil, "baddr", "mem"), If("bool1", "b1", "b2")), Bloc("b1", Valu("ptr1", OpAddr, ptrType, 0, nil, "sb"), Goto("checkPtr")), Bloc("b2", Valu("ptr2", OpAddr, ptrType, 0, nil, "sb"), Goto("checkPtr")), // both ptr1 and ptr2 are guaranteed non-nil here Bloc("checkPtr", Valu("phi", OpPhi, ptrType, 0, nil, "ptr1", "ptr2"), Valu("bool2", OpIsNonNil, c.config.Types.Bool, 0, nil, "phi"), If("bool2", "extra", "exit")), Bloc("extra", Goto("exit")), Bloc("exit", Exit("mem"))) CheckFunc(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) for _, b := range fun.f.Blocks { if b == fun.blocks["checkPtr"] && isNilCheck(b) { t.Errorf("checkPtr was not eliminated") } } } // TestNilcheckKeepRemove verifies that duplicate checks of the same pointer // are removed, but checks of different pointers are not. func TestNilcheckKeepRemove(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"), Valu("bool1", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool1", "differentCheck", "exit")), Bloc("differentCheck", Valu("ptr2", OpLoad, ptrType, 0, nil, "sb", "mem"), Valu("bool2", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr2"), If("bool2", "secondCheck", "exit")), Bloc("secondCheck", Valu("bool3", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool3", "extra", "exit")), Bloc("extra", Goto("exit")), Bloc("exit", Exit("mem"))) CheckFunc(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) foundDifferentCheck := false for _, b := range fun.f.Blocks { if b == fun.blocks["secondCheck"] && isNilCheck(b) { t.Errorf("secondCheck was not eliminated") } if b == fun.blocks["differentCheck"] && isNilCheck(b) { foundDifferentCheck = true } } if !foundDifferentCheck { t.Errorf("removed differentCheck, but shouldn't have") } } // TestNilcheckInFalseBranch tests that nil checks in the false branch of a nilcheck // block are *not* removed. func TestNilcheckInFalseBranch(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"), Valu("bool1", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool1", "extra", "secondCheck")), Bloc("secondCheck", Valu("bool2", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool2", "extra", "thirdCheck")), Bloc("thirdCheck", Valu("bool3", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool3", "extra", "exit")), Bloc("extra", Goto("exit")), Bloc("exit", Exit("mem"))) CheckFunc(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) foundSecondCheck := false foundThirdCheck := false for _, b := range fun.f.Blocks { if b == fun.blocks["secondCheck"] && isNilCheck(b) { foundSecondCheck = true } if b == fun.blocks["thirdCheck"] && isNilCheck(b) { foundThirdCheck = true } } if !foundSecondCheck { t.Errorf("removed secondCheck, but shouldn't have [false branch]") } if !foundThirdCheck { t.Errorf("removed thirdCheck, but shouldn't have [false branch]") } } // TestNilcheckUser verifies that a user nil check that dominates a generated nil check // wil remove the generated nil check. func TestNilcheckUser(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"), Valu("nilptr", OpConstNil, ptrType, 0, nil), Valu("bool1", OpNeqPtr, c.config.Types.Bool, 0, nil, "ptr1", "nilptr"), If("bool1", "secondCheck", "exit")), Bloc("secondCheck", Valu("bool2", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool2", "extra", "exit")), Bloc("extra", Goto("exit")), Bloc("exit", Exit("mem"))) CheckFunc(fun.f) // we need the opt here to rewrite the user nilcheck opt(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) for _, b := range fun.f.Blocks { if b == fun.blocks["secondCheck"] && isNilCheck(b) { t.Errorf("secondCheck was not eliminated") } } } // TestNilcheckBug reproduces a bug in nilcheckelim found by compiling math/big func TestNilcheckBug(t *testing.T) { c := testConfig(t) ptrType := c.config.Types.BytePtr fun := c.Fun("entry", Bloc("entry", Valu("mem", OpInitMem, types.TypeMem, 0, nil), Valu("sb", OpSB, c.config.Types.Uintptr, 0, nil), Goto("checkPtr")), Bloc("checkPtr", Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"), Valu("nilptr", OpConstNil, ptrType, 0, nil), Valu("bool1", OpNeqPtr, c.config.Types.Bool, 0, nil, "ptr1", "nilptr"), If("bool1", "secondCheck", "couldBeNil")), Bloc("couldBeNil", Goto("secondCheck")), Bloc("secondCheck", Valu("bool2", OpIsNonNil, c.config.Types.Bool, 0, nil, "ptr1"), If("bool2", "extra", "exit")), Bloc("extra", // prevent fuse from eliminating this block Valu("store", OpStore, types.TypeMem, 0, ptrType, "ptr1", "nilptr", "mem"), Goto("exit")), Bloc("exit", Valu("phi", OpPhi, types.TypeMem, 0, nil, "mem", "store"), Exit("phi"))) CheckFunc(fun.f) // we need the opt here to rewrite the user nilcheck opt(fun.f) nilcheckelim(fun.f) // clean up the removed nil check fuse(fun.f, fuseTypePlain) deadcode(fun.f) CheckFunc(fun.f) foundSecondCheck := false for _, b := range fun.f.Blocks { if b == fun.blocks["secondCheck"] && isNilCheck(b) { foundSecondCheck = true } } if !foundSecondCheck { t.Errorf("secondCheck was eliminated, but shouldn't have") } }