Commit a68e5d94 authored by Josh Bleecher Snyder's avatar Josh Bleecher Snyder

cmd/compile: clean up SSA test API

I noted in CL 38327 that the SSA test API felt a bit
clunky after the ssa.Func/ssa.Cache/ssa.Config refactoring,
and promised to clean it up once the dust settled.
The dust has settled.

Along the way, this CL fixes a potential latent bug,
in which the amd64 test context was used for all dummy Syslook calls.
The lone SSA test using the s390x context did not depend on the
Syslook context being correct, so the bug did not arise in practice.

Change-Id: If964251d1807976073ad7f47da0b1f1f77c58413
Reviewed-on: https://go-review.googlesource.com/38346
Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com>
Reviewed-by: default avatarBrad Fitzpatrick <bradfitz@golang.org>
parent 62947bed
......@@ -34,7 +34,7 @@ func benchmarkCopyElim(b *testing.B, n int) {
}
for i := 0; i < b.N; i++ {
fun := Fun(c, DummyFrontend{b}, "entry", Bloc("entry", values...))
fun := c.Fun("entry", Bloc("entry", values...))
Copyelim(fun.f)
}
}
......@@ -19,7 +19,7 @@ func TestCSEAuxPartitionBug(t *testing.T) {
// construct lots of values with args that have aux values and place
// them in an order that triggers the bug
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sp", OpSP, TypeBytePtr, 0, nil),
......@@ -87,7 +87,7 @@ func TestCSEAuxPartitionBug(t *testing.T) {
func TestZCSE(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sp", OpSP, TypeBytePtr, 0, nil),
......
......@@ -12,7 +12,7 @@ import (
func TestDeadLoop(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Goto("exit")),
......@@ -42,7 +42,7 @@ func TestDeadLoop(t *testing.T) {
func TestDeadValue(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("deadval", OpConst64, TypeInt64, 37, nil),
......@@ -65,7 +65,7 @@ func TestDeadValue(t *testing.T) {
func TestNeverTaken(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("cond", OpConstBool, TypeBool, 0, nil),
Valu("mem", OpInitMem, TypeMem, 0, nil),
......@@ -100,7 +100,7 @@ func TestNeverTaken(t *testing.T) {
func TestNestedDeadBlocks(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("cond", OpConstBool, TypeBool, 0, nil),
......@@ -152,7 +152,7 @@ func BenchmarkDeadCode(b *testing.B) {
}
b.ResetTimer()
for i := 0; i < b.N; i++ {
fun := Fun(c, DummyFrontend{b}, "entry", blocks...)
fun := c.Fun("entry", blocks...)
Deadcode(fun.f)
}
})
......
......@@ -10,7 +10,7 @@ func TestDeadStore(t *testing.T) {
c := testConfig(t)
elemType := &TypeImpl{Size_: 1, Name: "testtype"}
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr", Elem_: elemType} // dummy for testing
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -45,7 +45,7 @@ func TestDeadStorePhi(t *testing.T) {
// make sure we don't get into an infinite loop with phi values.
c := testConfig(t)
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -72,7 +72,7 @@ func TestDeadStoreTypes(t *testing.T) {
c := testConfig(t)
t1 := &TypeImpl{Size_: 8, Ptr: true, Name: "t1"}
t2 := &TypeImpl{Size_: 4, Ptr: true, Name: "t2"}
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -102,7 +102,7 @@ func TestDeadStoreUnsafe(t *testing.T) {
// can get to a point where the size is changed but type unchanged.
c := testConfig(t)
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......
......@@ -161,7 +161,7 @@ var domBenchRes []*Block
func benchmarkDominators(b *testing.B, size int, bg blockGen) {
c := testConfig(b)
fun := Fun(c, DummyFrontend{b}, "entry", bg(size)...)
fun := c.Fun("entry", bg(size)...)
CheckFunc(fun.f)
b.SetBytes(int64(size))
......@@ -221,7 +221,7 @@ func verifyDominators(t *testing.T, fut fun, domFn domFunc, doms map[string]stri
func TestDominatorsSingleBlock(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Exit("mem")))
......@@ -236,7 +236,7 @@ func TestDominatorsSingleBlock(t *testing.T) {
func TestDominatorsSimple(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Goto("a")),
......@@ -264,7 +264,7 @@ func TestDominatorsSimple(t *testing.T) {
func TestDominatorsMultPredFwd(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("p", OpConstBool, TypeBool, 1, nil),
......@@ -292,7 +292,7 @@ func TestDominatorsMultPredFwd(t *testing.T) {
func TestDominatorsDeadCode(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("p", OpConstBool, TypeBool, 0, nil),
......@@ -315,7 +315,7 @@ func TestDominatorsDeadCode(t *testing.T) {
func TestDominatorsMultPredRev(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Goto("first")),
Bloc("first",
......@@ -346,7 +346,7 @@ func TestDominatorsMultPredRev(t *testing.T) {
func TestDominatorsMultPred(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("p", OpConstBool, TypeBool, 1, nil),
......@@ -375,7 +375,7 @@ func TestDominatorsMultPred(t *testing.T) {
func TestInfiniteLoop(t *testing.T) {
c := testConfig(t)
// note lack of an exit block
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("p", OpConstBool, TypeBool, 1, nil),
......@@ -411,7 +411,8 @@ func TestDomTricky(t *testing.T) {
b := 1 & i >> 1
c := 1 & i >> 2
fun := Fun(testConfig(t), DummyFrontend{t}, "1",
cfg := testConfig(t)
fun := cfg.Fun("1",
Bloc("1",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("p", OpConstBool, TypeBool, 1, nil),
......@@ -455,7 +456,7 @@ func generateDominatorMap(fut fun) map[string]string {
func TestDominatorsPostTricky(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "b1",
fun := c.Fun("b1",
Bloc("b1",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("p", OpConstBool, TypeBool, 1, nil),
......
......@@ -16,20 +16,48 @@ var CheckFunc = checkFunc
var Opt = opt
var Deadcode = deadcode
var Copyelim = copyelim
var TestCtxt = obj.Linknew(&x86.Linkamd64)
func testConfig(t testing.TB) *Config {
return NewConfig("amd64", dummyTypes, TestCtxt, true)
var testCtxts = map[string]*obj.Link{
"amd64": obj.Linknew(&x86.Linkamd64),
"s390x": obj.Linknew(&s390x.Links390x),
}
func testConfigS390X(t testing.TB) *Config {
return NewConfig("s390x", dummyTypes, obj.Linknew(&s390x.Links390x), true)
func testConfig(tb testing.TB) *Conf { return testConfigArch(tb, "amd64") }
func testConfigS390X(tb testing.TB) *Conf { return testConfigArch(tb, "s390x") }
func testConfigArch(tb testing.TB, arch string) *Conf {
ctxt, ok := testCtxts[arch]
if !ok {
tb.Fatalf("unknown arch %s", arch)
}
if ctxt.Arch.IntSize != 8 {
tb.Fatal("dummyTypes is 64-bit only")
}
c := &Conf{
config: NewConfig(arch, dummyTypes, ctxt, true),
tb: tb,
}
return c
}
type Conf struct {
config *Config
tb testing.TB
fe Frontend
}
func (c *Conf) Frontend() Frontend {
if c.fe == nil {
c.fe = DummyFrontend{t: c.tb, ctxt: c.config.ctxt}
}
return c.fe
}
// DummyFrontend is a test-only frontend.
// It assumes 64 bit integers and pointers.
type DummyFrontend struct {
t testing.TB
t testing.TB
ctxt *obj.Link
}
type DummyAuto struct {
......@@ -85,8 +113,8 @@ func (DummyFrontend) Line(_ src.XPos) string {
}
func (DummyFrontend) AllocFrame(f *Func) {
}
func (DummyFrontend) Syslook(s string) *obj.LSym {
return obj.Linklookup(TestCtxt, s, 0)
func (d DummyFrontend) Syslook(s string) *obj.LSym {
return obj.Linklookup(d.ctxt, s, 0)
}
func (DummyFrontend) UseWriteBarrier() bool {
return true // only writebarrier_test cares
......
......@@ -143,9 +143,9 @@ var emptyPass pass = pass{
// returns a fun containing the composed Func. entry must be a name
// supplied to one of the Bloc functions. Each of the bloc names and
// valu names should be unique across the Fun.
func Fun(c *Config, fe Frontend, entry string, blocs ...bloc) fun {
f := NewFunc(fe)
f.Config = c
func (c *Conf) Fun(entry string, blocs ...bloc) fun {
f := NewFunc(c.Frontend())
f.Config = c.config
// TODO: Either mark some SSA tests as t.Parallel,
// or set up a shared Cache and Reset it between tests.
// But not both.
......@@ -274,7 +274,7 @@ type valu struct {
func TestArgs(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("a", OpConst64, TypeInt64, 14, nil),
Valu("b", OpConst64, TypeInt64, 26, nil),
......@@ -293,10 +293,11 @@ func TestArgs(t *testing.T) {
}
func TestEquiv(t *testing.T) {
cfg := testConfig(t)
equivalentCases := []struct{ f, g fun }{
// simple case
{
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("a", OpConst64, TypeInt64, 14, nil),
Valu("b", OpConst64, TypeInt64, 26, nil),
......@@ -305,7 +306,7 @@ func TestEquiv(t *testing.T) {
Goto("exit")),
Bloc("exit",
Exit("mem"))),
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("a", OpConst64, TypeInt64, 14, nil),
Valu("b", OpConst64, TypeInt64, 26, nil),
......@@ -317,7 +318,7 @@ func TestEquiv(t *testing.T) {
},
// block order changed
{
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("a", OpConst64, TypeInt64, 14, nil),
Valu("b", OpConst64, TypeInt64, 26, nil),
......@@ -326,7 +327,7 @@ func TestEquiv(t *testing.T) {
Goto("exit")),
Bloc("exit",
Exit("mem"))),
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("exit",
Exit("mem")),
Bloc("entry",
......@@ -348,26 +349,26 @@ func TestEquiv(t *testing.T) {
differentCases := []struct{ f, g fun }{
// different shape
{
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Goto("exit")),
Bloc("exit",
Exit("mem"))),
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Exit("mem"))),
},
// value order changed
{
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("b", OpConst64, TypeInt64, 26, nil),
Valu("a", OpConst64, TypeInt64, 14, nil),
Exit("mem"))),
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("a", OpConst64, TypeInt64, 14, nil),
......@@ -376,12 +377,12 @@ func TestEquiv(t *testing.T) {
},
// value auxint different
{
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("a", OpConst64, TypeInt64, 14, nil),
Exit("mem"))),
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("a", OpConst64, TypeInt64, 26, nil),
......@@ -389,12 +390,12 @@ func TestEquiv(t *testing.T) {
},
// value aux different
{
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("a", OpConst64, TypeInt64, 0, 14),
Exit("mem"))),
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("a", OpConst64, TypeInt64, 0, 26),
......@@ -402,14 +403,14 @@ func TestEquiv(t *testing.T) {
},
// value args different
{
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("a", OpConst64, TypeInt64, 14, nil),
Valu("b", OpConst64, TypeInt64, 26, nil),
Valu("sum", OpAdd64, TypeInt64, 0, nil, "a", "b"),
Exit("mem"))),
Fun(testConfig(t), DummyFrontend{t}, "entry",
cfg.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("a", OpConst64, TypeInt64, 0, nil),
......@@ -430,7 +431,8 @@ func TestEquiv(t *testing.T) {
// TestConstCache ensures that the cache will not return
// reused free'd values with a non-matching AuxInt
func TestConstCache(t *testing.T) {
f := Fun(testConfig(t), DummyFrontend{t}, "entry",
c := testConfig(t)
f := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Exit("mem")))
......
......@@ -9,7 +9,7 @@ import (
func TestFuseEliminatesOneBranch(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -37,7 +37,7 @@ func TestFuseEliminatesOneBranch(t *testing.T) {
func TestFuseEliminatesBothBranches(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -70,7 +70,7 @@ func TestFuseEliminatesBothBranches(t *testing.T) {
func TestFuseHandlesPhis(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -103,7 +103,7 @@ func TestFuseHandlesPhis(t *testing.T) {
func TestFuseEliminatesEmptyBlocks(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -160,7 +160,7 @@ func BenchmarkFuse(b *testing.B) {
b.ResetTimer()
for i := 0; i < b.N; i++ {
fun := Fun(c, DummyFrontend{b}, "entry", blocks...)
fun := c.Fun("entry", blocks...)
fuse(fun.f)
}
})
......
......@@ -23,7 +23,7 @@ func lcaEqual(f *Func, lca1, lca2 lca) bool {
func testLCAgen(t *testing.T, bg blockGen, size int) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry", bg(size)...)
fun := c.Fun("entry", bg(size)...)
CheckFunc(fun.f)
if size == 4 {
t.Logf(fun.f.String())
......
......@@ -44,13 +44,12 @@ func TestLoopConditionS390X(t *testing.T) {
// done:
//
c := testConfigS390X(t)
fe := DummyFrontend{t}
fun := Fun(c, fe, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("SP", OpSP, TypeUInt64, 0, nil),
Valu("ret", OpAddr, TypeInt64Ptr, 0, nil, "SP"),
Valu("N", OpArg, TypeInt64, 0, fe.Auto(TypeInt64)),
Valu("N", OpArg, TypeInt64, 0, c.Frontend().Auto(TypeInt64)),
Valu("starti", OpConst64, TypeInt64, 0, nil),
Valu("startsum", OpConst64, TypeInt64, 0, nil),
Goto("b1")),
......
......@@ -41,7 +41,7 @@ func benchmarkNilCheckDeep(b *testing.B, depth int) {
)
c := testConfig(b)
fun := Fun(c, DummyFrontend{b}, "entry", blocs...)
fun := c.Fun("entry", blocs...)
CheckFunc(fun.f)
b.SetBytes(int64(depth)) // helps for eyeballing linearity
......@@ -65,7 +65,7 @@ func isNilCheck(b *Block) bool {
func TestNilcheckSimple(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -102,7 +102,7 @@ func TestNilcheckSimple(t *testing.T) {
func TestNilcheckDomOrder(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -138,7 +138,7 @@ func TestNilcheckDomOrder(t *testing.T) {
func TestNilcheckAddr(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -171,7 +171,7 @@ func TestNilcheckAddr(t *testing.T) {
func TestNilcheckAddPtr(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -206,7 +206,7 @@ func TestNilcheckAddPtr(t *testing.T) {
func TestNilcheckPhi(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -250,7 +250,7 @@ func TestNilcheckPhi(t *testing.T) {
func TestNilcheckKeepRemove(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -298,7 +298,7 @@ func TestNilcheckKeepRemove(t *testing.T) {
func TestNilcheckInFalseBranch(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -349,7 +349,7 @@ func TestNilcheckInFalseBranch(t *testing.T) {
func TestNilcheckUser(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -388,7 +388,7 @@ func TestNilcheckUser(t *testing.T) {
func TestNilcheckBug(t *testing.T) {
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......
......@@ -34,7 +34,7 @@ func BenchmarkMultiPassBlock(b *testing.B) { benchFnBlock(b, multi, genFunction)
func benchFnPass(b *testing.B, fn passFunc, size int, bg blockGen) {
b.ReportAllocs()
c := testConfig(b)
fun := Fun(c, DummyFrontend{b}, "entry", bg(size)...)
fun := c.Fun("entry", bg(size)...)
CheckFunc(fun.f)
b.ResetTimer()
for i := 0; i < b.N; i++ {
......@@ -49,7 +49,7 @@ func benchFnPass(b *testing.B, fn passFunc, size int, bg blockGen) {
func benchFnBlock(b *testing.B, fn passFunc, bg blockGen) {
b.ReportAllocs()
c := testConfig(b)
fun := Fun(c, DummyFrontend{b}, "entry", bg(b.N)...)
fun := c.Fun("entry", bg(b.N)...)
CheckFunc(fun.f)
b.ResetTimer()
for i := 0; i < passCount; i++ {
......
......@@ -8,7 +8,7 @@ import "testing"
func TestLiveControlOps(t *testing.T) {
c := testConfig(t)
f := Fun(c, DummyFrontend{t}, "entry",
f := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("x", OpAMD64MOVLconst, TypeInt8, 1, nil),
......
......@@ -9,7 +9,7 @@ import "testing"
func TestSchedule(t *testing.T) {
c := testConfig(t)
cases := []fun{
Fun(c, DummyFrontend{t}, "entry",
c.Fun("entry",
Bloc("entry",
Valu("mem0", OpInitMem, TypeMem, 0, nil),
Valu("ptr", OpConst64, TypeInt64, 0xABCD, nil),
......@@ -60,7 +60,7 @@ 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 := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem0", OpInitMem, TypeMem, 0, nil),
Valu("a", OpAdd64, TypeInt64, 0, nil, "b", "c"), // v2
......
......@@ -10,29 +10,28 @@ import (
func TestShiftConstAMD64(t *testing.T) {
c := testConfig(t)
fe := DummyFrontend{t}
fun := makeConstShiftFunc(c, fe, 18, OpLsh64x64, TypeUInt64)
fun := makeConstShiftFunc(c, 18, OpLsh64x64, TypeUInt64)
checkOpcodeCounts(t, fun.f, map[Op]int{OpAMD64SHLQconst: 1, OpAMD64CMPQconst: 0, OpAMD64ANDQconst: 0})
fun = makeConstShiftFunc(c, fe, 66, OpLsh64x64, TypeUInt64)
fun = makeConstShiftFunc(c, 66, OpLsh64x64, TypeUInt64)
checkOpcodeCounts(t, fun.f, map[Op]int{OpAMD64SHLQconst: 0, OpAMD64CMPQconst: 0, OpAMD64ANDQconst: 0})
fun = makeConstShiftFunc(c, fe, 18, OpRsh64Ux64, TypeUInt64)
fun = makeConstShiftFunc(c, 18, OpRsh64Ux64, TypeUInt64)
checkOpcodeCounts(t, fun.f, map[Op]int{OpAMD64SHRQconst: 1, OpAMD64CMPQconst: 0, OpAMD64ANDQconst: 0})
fun = makeConstShiftFunc(c, fe, 66, OpRsh64Ux64, TypeUInt64)
fun = makeConstShiftFunc(c, 66, OpRsh64Ux64, TypeUInt64)
checkOpcodeCounts(t, fun.f, map[Op]int{OpAMD64SHRQconst: 0, OpAMD64CMPQconst: 0, OpAMD64ANDQconst: 0})
fun = makeConstShiftFunc(c, fe, 18, OpRsh64x64, TypeInt64)
fun = makeConstShiftFunc(c, 18, OpRsh64x64, TypeInt64)
checkOpcodeCounts(t, fun.f, map[Op]int{OpAMD64SARQconst: 1, OpAMD64CMPQconst: 0})
fun = makeConstShiftFunc(c, fe, 66, OpRsh64x64, TypeInt64)
fun = makeConstShiftFunc(c, 66, OpRsh64x64, TypeInt64)
checkOpcodeCounts(t, fun.f, map[Op]int{OpAMD64SARQconst: 1, OpAMD64CMPQconst: 0})
}
func makeConstShiftFunc(c *Config, fe Frontend, amount int64, op Op, typ Type) fun {
func makeConstShiftFunc(c *Conf, amount int64, op Op, typ Type) fun {
ptyp := &TypeImpl{Size_: 8, Ptr: true, Name: "ptr"}
fun := Fun(c, fe, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("SP", OpSP, TypeUInt64, 0, nil),
......@@ -77,9 +76,8 @@ func TestShiftToExtensionAMD64(t *testing.T) {
{8, OpLsh16x64, OpRsh16x64, TypeInt16},
}
c := testConfig(t)
fe := DummyFrontend{t}
for _, tc := range tests {
fun := makeShiftExtensionFunc(c, fe, tc.amount, tc.left, tc.right, tc.typ)
fun := makeShiftExtensionFunc(c, tc.amount, tc.left, tc.right, tc.typ)
checkOpcodeCounts(t, fun.f, ops)
}
}
......@@ -89,9 +87,9 @@ func TestShiftToExtensionAMD64(t *testing.T) {
// (rshift (lshift (Const64 [amount])) (Const64 [amount]))
//
// This may be equivalent to a sign or zero extension.
func makeShiftExtensionFunc(c *Config, fe Frontend, amount int64, lshift, rshift Op, typ Type) fun {
func makeShiftExtensionFunc(c *Conf, amount int64, lshift, rshift Op, typ Type) fun {
ptyp := &TypeImpl{Size_: 8, Ptr: true, Name: "ptr"}
fun := Fun(c, fe, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("SP", OpSP, TypeUInt64, 0, nil),
......
......@@ -9,7 +9,7 @@ import "testing"
func TestShortCircuit(t *testing.T) {
c := testConfig(t)
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("mem", OpInitMem, TypeMem, 0, nil),
Valu("arg1", OpArg, TypeInt64, 0, nil),
......
......@@ -10,7 +10,7 @@ func TestWriteBarrierStoreOrder(t *testing.T) {
// Make sure writebarrier phase works even StoreWB ops are not in dependency order
c := testConfig(t)
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......@@ -34,7 +34,7 @@ func TestWriteBarrierPhi(t *testing.T) {
// See issue #19067.
c := testConfig(t)
ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
fun := Fun(c, DummyFrontend{t}, "entry",
fun := c.Fun("entry",
Bloc("entry",
Valu("start", OpInitMem, TypeMem, 0, nil),
Valu("sb", OpSB, TypeInvalid, 0, nil),
......
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