// 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" "testing" ) func TestSchedule(t *testing.T) { c := testConfig(t) cases := []fun{ c.Fun("entry", Bloc("entry", Valu("mem0", OpInitMem, types.TypeMem, 0, nil), Valu("ptr", OpConst64, c.config.Types.Int64, 0xABCD, nil), Valu("v", OpConst64, c.config.Types.Int64, 12, nil), Valu("mem1", OpStore, types.TypeMem, 0, c.config.Types.Int64, "ptr", "v", "mem0"), Valu("mem2", OpStore, types.TypeMem, 0, c.config.Types.Int64, "ptr", "v", "mem1"), Valu("mem3", OpStore, types.TypeMem, 0, c.config.Types.Int64, "ptr", "sum", "mem2"), Valu("l1", OpLoad, c.config.Types.Int64, 0, nil, "ptr", "mem1"), Valu("l2", OpLoad, c.config.Types.Int64, 0, nil, "ptr", "mem2"), Valu("sum", OpAdd64, c.config.Types.Int64, 0, nil, "l1", "l2"), Goto("exit")), Bloc("exit", Exit("mem3"))), } for _, c := range cases { schedule(c.f) if !isSingleLiveMem(c.f) { t.Error("single-live-mem restriction not enforced by schedule for func:") printFunc(c.f) } } } func isSingleLiveMem(f *Func) bool { for _, b := range f.Blocks { var liveMem *Value for _, v := range b.Values { for _, w := range v.Args { if w.Type.IsMemory() { if liveMem == nil { liveMem = w continue } if w != liveMem { return false } } } if v.Type.IsMemory() { liveMem = v } } } return true } func TestStoreOrder(t *testing.T) { // In the function below, v2 depends on v3 and v4, v4 depends on v3, and v3 depends on store v5. // storeOrder did not handle this case correctly. c := testConfig(t) fun := c.Fun("entry", Bloc("entry", Valu("mem0", OpInitMem, types.TypeMem, 0, nil), Valu("a", OpAdd64, c.config.Types.Int64, 0, nil, "b", "c"), // v2 Valu("b", OpLoad, c.config.Types.Int64, 0, nil, "ptr", "mem1"), // v3 Valu("c", OpNeg64, c.config.Types.Int64, 0, nil, "b"), // v4 Valu("mem1", OpStore, types.TypeMem, 0, c.config.Types.Int64, "ptr", "v", "mem0"), // v5 Valu("mem2", OpStore, types.TypeMem, 0, c.config.Types.Int64, "ptr", "a", "mem1"), Valu("ptr", OpConst64, c.config.Types.Int64, 0xABCD, nil), Valu("v", OpConst64, c.config.Types.Int64, 12, nil), Goto("exit")), Bloc("exit", Exit("mem2"))) CheckFunc(fun.f) order := storeOrder(fun.f.Blocks[0].Values, fun.f.newSparseSet(fun.f.NumValues()), make([]int32, fun.f.NumValues())) // check that v2, v3, v4 is sorted after v5 var ai, bi, ci, si int for i, v := range order { switch v.ID { case 2: ai = i case 3: bi = i case 4: ci = i case 5: si = i } } if ai < si || bi < si || ci < si { t.Logf("Func: %s", fun.f) t.Errorf("store order is wrong: got %v, want v2 v3 v4 after v5", order) } } func TestCarryChainOrder(t *testing.T) { // In the function below, there are two carry chains that have no dependencies on each other, // one is A1 -> A1carry -> A1Carryvalue, the other is A2 -> A2carry -> A2Carryvalue. If they // are not scheduled properly, the carry will be clobbered, causing the carry to be regenerated. c := testConfigARM64(t) fun := c.Fun("entry", Bloc("entry", Valu("mem0", OpInitMem, types.TypeMem, 0, nil), Valu("x", OpARM64MOVDconst, c.config.Types.UInt64, 5, nil), Valu("y", OpARM64MOVDconst, c.config.Types.UInt64, 6, nil), Valu("z", OpARM64MOVDconst, c.config.Types.UInt64, 7, nil), Valu("A1", OpARM64ADDSflags, types.NewTuple(c.config.Types.UInt64, types.TypeFlags), 0, nil, "x", "z"), // x+z, set flags Valu("A1carry", OpSelect1, types.TypeFlags, 0, nil, "A1"), Valu("A2", OpARM64ADDSflags, types.NewTuple(c.config.Types.UInt64, types.TypeFlags), 0, nil, "y", "z"), // y+z, set flags Valu("A2carry", OpSelect1, types.TypeFlags, 0, nil, "A2"), Valu("A1value", OpSelect0, c.config.Types.UInt64, 0, nil, "A1"), Valu("A1Carryvalue", OpARM64ADCzerocarry, c.config.Types.UInt64, 0, nil, "A1carry"), // 0+0+A1carry Valu("A2value", OpSelect0, c.config.Types.UInt64, 0, nil, "A2"), Valu("A2Carryvalue", OpARM64ADCzerocarry, c.config.Types.UInt64, 0, nil, "A2carry"), // 0+0+A2carry Valu("ValueSum", OpARM64ADD, c.config.Types.UInt64, 0, nil, "A1value", "A2value"), Valu("CarrySum", OpARM64ADD, c.config.Types.UInt64, 0, nil, "A1Carryvalue", "A2Carryvalue"), Valu("Sum", OpARM64AND, c.config.Types.UInt64, 0, nil, "ValueSum", "CarrySum"), Goto("exit")), Bloc("exit", Exit("mem0")), ) CheckFunc(fun.f) schedule(fun.f) // The expected order is A1 < A1carry < A1Carryvalue < A2 < A2carry < A2Carryvalue. // There is no dependency between the two carry chains, so it doesn't matter which // comes first and which comes after, but the unsorted position of A1 is before A2, // so A1Carryvalue < A2. var ai, bi, ci, di, ei, fi int for i, v := range fun.f.Blocks[0].Values { switch { case fun.values["A1"] == v: ai = i case fun.values["A1carry"] == v: bi = i case fun.values["A1Carryvalue"] == v: ci = i case fun.values["A2"] == v: di = i case fun.values["A2carry"] == v: ei = i case fun.values["A2Carryvalue"] == v: fi = i } } if !(ai < bi && bi < ci && ci < di && di < ei && ei < fi) { t.Logf("Func: %s", fun.f) t.Errorf("carry chain order is wrong: got %v, want V%d after V%d after V%d after V%d after V%d after V%d,", fun.f.Blocks[0], fun.values["A1"].ID, fun.values["A1carry"].ID, fun.values["A1Carryvalue"].ID, fun.values["A2"].ID, fun.values["A2carry"].ID, fun.values["A2Carryvalue"].ID) } }