src/cmd/compile/internal/ssa/nilcheck_test.go - go - Git at Google

 package ssa

 import (
 	"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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing

 	var blocs []bloc
 	blocs = append(blocs,
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 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, TypeBool, 0, nil, ptrn(i)),
 				If(booln(i), blockn(i+1), "exit"),
 			),
 		)
 	}
 	blocs = append(blocs,
 		Bloc(blockn(depth), Goto("exit")),
 		Bloc("exit", Exit("mem")),
 	)

 	c := NewConfig("amd64", DummyFrontend{b}, nil, true)
 	fun := Fun(c, "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.Control.Op == OpIsNonNil
 }

 // TestNilcheckSimple verifies that a second repeated nilcheck is removed.
 func TestNilcheckSimple(t *testing.T) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
 			Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
 			If("bool1", "secondCheck", "exit")),
 		Bloc("secondCheck",
 			Valu("bool2", OpIsNonNil, TypeBool, 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)
 	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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
 			Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
 			If("bool1", "secondCheck", "exit")),
 		Bloc("exit",
 			Exit("mem")),
 		Bloc("secondCheck",
 			Valu("bool2", OpIsNonNil, TypeBool, 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)
 	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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("ptr1", OpAddr, ptrType, 0, nil, "sb"),
 			Valu("bool1", OpIsNonNil, TypeBool, 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)
 	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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("off", OpConst64, TypeInt64, 20, nil),
 			Valu("ptr1", OpAddPtr, ptrType, 0, nil, "sb", "off"),
 			Valu("bool1", OpIsNonNil, TypeBool, 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)
 	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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Valu("sp", OpSP, TypeInvalid, 0, nil),
 			Valu("baddr", OpAddr, TypeBool, 0, "b", "sp"),
 			Valu("bool1", OpLoad, TypeBool, 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, TypeBool, 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)
 	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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
 			Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
 			If("bool1", "differentCheck", "exit")),
 		Bloc("differentCheck",
 			Valu("ptr2", OpLoad, ptrType, 0, nil, "sb", "mem"),
 			Valu("bool2", OpIsNonNil, TypeBool, 0, nil, "ptr2"),
 			If("bool2", "secondCheck", "exit")),
 		Bloc("secondCheck",
 			Valu("bool3", OpIsNonNil, TypeBool, 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)
 	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 an nilcheck
 // block are *not* removed.
 func TestNilcheckInFalseBranch(t *testing.T) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
 			Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
 			If("bool1", "extra", "secondCheck")),
 		Bloc("secondCheck",
 			Valu("bool2", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
 			If("bool2", "extra", "thirdCheck")),
 		Bloc("thirdCheck",
 			Valu("bool3", OpIsNonNil, TypeBool, 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)
 	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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
 			Valu("nilptr", OpConstNil, ptrType, 0, nil),
 			Valu("bool1", OpNeqPtr, TypeBool, 0, nil, "ptr1", "nilptr"),
 			If("bool1", "secondCheck", "exit")),
 		Bloc("secondCheck",
 			Valu("bool2", OpIsNonNil, TypeBool, 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)
 	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) {
 	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
 	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
 	fun := Fun(c, "entry",
 		Bloc("entry",
 			Valu("mem", OpInitMem, TypeMem, 0, nil),
 			Valu("sb", OpSB, TypeInvalid, 0, nil),
 			Goto("checkPtr")),
 		Bloc("checkPtr",
 			Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
 			Valu("nilptr", OpConstNil, ptrType, 0, nil),
 			Valu("bool1", OpNeqPtr, TypeBool, 0, nil, "ptr1", "nilptr"),
 			If("bool1", "secondCheck", "couldBeNil")),
 		Bloc("couldBeNil",
 			Goto("secondCheck")),
 		Bloc("secondCheck",
 			Valu("bool2", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
 			If("bool2", "extra", "exit")),
 		Bloc("extra",
 			// prevent fuse from eliminating this block
 			Valu("store", OpStore, TypeMem, 8, nil, "ptr1", "nilptr", "mem"),
 			Goto("exit")),
 		Bloc("exit",
 			Valu("phi", OpPhi, 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)
 	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")
 	}
 }
	package ssa

	import (
	"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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing

	var blocs []bloc
	blocs = append(blocs,
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 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, TypeBool, 0, nil, ptrn(i)),
	If(booln(i), blockn(i+1), "exit"),
	),
	)
	}
	blocs = append(blocs,
	Bloc(blockn(depth), Goto("exit")),
	Bloc("exit", Exit("mem")),
	)

	c := NewConfig("amd64", DummyFrontend{b}, nil, true)
	fun := Fun(c, "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.Control.Op == OpIsNonNil
	}

	// TestNilcheckSimple verifies that a second repeated nilcheck is removed.
	func TestNilcheckSimple(t *testing.T) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
	Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
	If("bool1", "secondCheck", "exit")),
	Bloc("secondCheck",
	Valu("bool2", OpIsNonNil, TypeBool, 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)
	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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
	Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
	If("bool1", "secondCheck", "exit")),
	Bloc("exit",
	Exit("mem")),
	Bloc("secondCheck",
	Valu("bool2", OpIsNonNil, TypeBool, 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)
	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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("ptr1", OpAddr, ptrType, 0, nil, "sb"),
	Valu("bool1", OpIsNonNil, TypeBool, 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)
	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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("off", OpConst64, TypeInt64, 20, nil),
	Valu("ptr1", OpAddPtr, ptrType, 0, nil, "sb", "off"),
	Valu("bool1", OpIsNonNil, TypeBool, 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)
	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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Valu("sp", OpSP, TypeInvalid, 0, nil),
	Valu("baddr", OpAddr, TypeBool, 0, "b", "sp"),
	Valu("bool1", OpLoad, TypeBool, 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, TypeBool, 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)
	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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
	Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
	If("bool1", "differentCheck", "exit")),
	Bloc("differentCheck",
	Valu("ptr2", OpLoad, ptrType, 0, nil, "sb", "mem"),
	Valu("bool2", OpIsNonNil, TypeBool, 0, nil, "ptr2"),
	If("bool2", "secondCheck", "exit")),
	Bloc("secondCheck",
	Valu("bool3", OpIsNonNil, TypeBool, 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)
	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 an nilcheck
	// block are not removed.
	func TestNilcheckInFalseBranch(t *testing.T) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
	Valu("bool1", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
	If("bool1", "extra", "secondCheck")),
	Bloc("secondCheck",
	Valu("bool2", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
	If("bool2", "extra", "thirdCheck")),
	Bloc("thirdCheck",
	Valu("bool3", OpIsNonNil, TypeBool, 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)
	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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
	Valu("nilptr", OpConstNil, ptrType, 0, nil),
	Valu("bool1", OpNeqPtr, TypeBool, 0, nil, "ptr1", "nilptr"),
	If("bool1", "secondCheck", "exit")),
	Bloc("secondCheck",
	Valu("bool2", OpIsNonNil, TypeBool, 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)
	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) {
	ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
	c := NewConfig("amd64", DummyFrontend{t}, nil, true)
	fun := Fun(c, "entry",
	Bloc("entry",
	Valu("mem", OpInitMem, TypeMem, 0, nil),
	Valu("sb", OpSB, TypeInvalid, 0, nil),
	Goto("checkPtr")),
	Bloc("checkPtr",
	Valu("ptr1", OpLoad, ptrType, 0, nil, "sb", "mem"),
	Valu("nilptr", OpConstNil, ptrType, 0, nil),
	Valu("bool1", OpNeqPtr, TypeBool, 0, nil, "ptr1", "nilptr"),
	If("bool1", "secondCheck", "couldBeNil")),
	Bloc("couldBeNil",
	Goto("secondCheck")),
	Bloc("secondCheck",
	Valu("bool2", OpIsNonNil, TypeBool, 0, nil, "ptr1"),
	If("bool2", "extra", "exit")),
	Bloc("extra",
	// prevent fuse from eliminating this block
	Valu("store", OpStore, TypeMem, 8, nil, "ptr1", "nilptr", "mem"),
	Goto("exit")),
	Bloc("exit",
	Valu("phi", OpPhi, 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)
	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")
	}
	}