src/cmd/compile/internal/test/testdata/addressed_test.go - go - Git at Google

 // 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 main

 import (
 	"fmt"
 	"testing"
 )

 var output string

 func mypanic(t *testing.T, s string) {
 	t.Fatalf(s + "\n" + output)

 }

 func assertEqual(t *testing.T, x, y int) {
 	if x != y {
 		mypanic(t, fmt.Sprintf("assertEqual failed got %d, want %d", x, y))
 	}
 }

 func TestAddressed(t *testing.T) {
 	x := f1_ssa(2, 3)
 	output += fmt.Sprintln("*x is", *x)
 	output += fmt.Sprintln("Gratuitously use some stack")
 	output += fmt.Sprintln("*x is", *x)
 	assertEqual(t, *x, 9)

 	w := f3a_ssa(6)
 	output += fmt.Sprintln("*w is", *w)
 	output += fmt.Sprintln("Gratuitously use some stack")
 	output += fmt.Sprintln("*w is", *w)
 	assertEqual(t, *w, 6)

 	y := f3b_ssa(12)
 	output += fmt.Sprintln("*y.(*int) is", *y.(*int))
 	output += fmt.Sprintln("Gratuitously use some stack")
 	output += fmt.Sprintln("*y.(*int) is", *y.(*int))
 	assertEqual(t, *y.(*int), 12)

 	z := f3c_ssa(8)
 	output += fmt.Sprintln("*z.(*int) is", *z.(*int))
 	output += fmt.Sprintln("Gratuitously use some stack")
 	output += fmt.Sprintln("*z.(*int) is", *z.(*int))
 	assertEqual(t, *z.(*int), 8)

 	args(t)
 	test_autos(t)
 }

 //go:noinline
 func f1_ssa(x, y int) *int {
 	x = x*y + y
 	return &x
 }

 //go:noinline
 func f3a_ssa(x int) *int {
 	return &x
 }

 //go:noinline
 func f3b_ssa(x int) interface{} { // ./foo.go:15: internal error: f3b_ssa ~r1 (type interface {}) recorded as live on entry
 	return &x
 }

 //go:noinline
 func f3c_ssa(y int) interface{} {
 	x := y
 	return &x
 }

 type V struct {
 	p    *V
 	w, x int64
 }

 func args(t *testing.T) {
 	v := V{p: nil, w: 1, x: 1}
 	a := V{p: &v, w: 2, x: 2}
 	b := V{p: &v, w: 0, x: 0}
 	i := v.args_ssa(a, b)
 	output += fmt.Sprintln("i=", i)
 	assertEqual(t, int(i), 2)
 }

 //go:noinline
 func (v V) args_ssa(a, b V) int64 {
 	if v.w == 0 {
 		return v.x
 	}
 	if v.w == 1 {
 		return a.x
 	}
 	if v.w == 2 {
 		return b.x
 	}
 	b.p.p = &a // v.p in caller = &a

 	return -1
 }

 func test_autos(t *testing.T) {
 	test(t, 11)
 	test(t, 12)
 	test(t, 13)
 	test(t, 21)
 	test(t, 22)
 	test(t, 23)
 	test(t, 31)
 	test(t, 32)
 }

 func test(t *testing.T, which int64) {
 	output += fmt.Sprintln("test", which)
 	v1 := V{w: 30, x: 3, p: nil}
 	v2, v3 := v1.autos_ssa(which, 10, 1, 20, 2)
 	if which != v2.val() {
 		output += fmt.Sprintln("Expected which=", which, "got v2.val()=", v2.val())
 		mypanic(t, "Failure of expected V value")
 	}
 	if v2.p.val() != v3.val() {
 		output += fmt.Sprintln("Expected v2.p.val()=", v2.p.val(), "got v3.val()=", v3.val())
 		mypanic(t, "Failure of expected V.p value")
 	}
 	if which != v3.p.p.p.p.p.p.p.val() {
 		output += fmt.Sprintln("Expected which=", which, "got v3.p.p.p.p.p.p.p.val()=", v3.p.p.p.p.p.p.p.val())
 		mypanic(t, "Failure of expected V.p value")
 	}
 }

 func (v V) val() int64 {
 	return v.w + v.x
 }

 // autos_ssa uses contents of v and parameters w1, w2, x1, x2
 // to initialize a bunch of locals, all of which have their
 // address taken to force heap allocation, and then based on
 // the value of which a pair of those locals are copied in
 // various ways to the two results y, and z, which are also
 // addressed. Which is expected to be one of 11-13, 21-23, 31, 32,
 // and y.val() should be equal to which and y.p.val() should
 // be equal to z.val().  Also, x(.p)**8 == x; that is, the
 // autos are all linked into a ring.
 //go:noinline
 func (v V) autos_ssa(which, w1, x1, w2, x2 int64) (y, z V) {
 	fill_ssa(v.w, v.x, &v, v.p) // gratuitous no-op to force addressing
 	var a, b, c, d, e, f, g, h V
 	fill_ssa(w1, x1, &a, &b)
 	fill_ssa(w1, x2, &b, &c)
 	fill_ssa(w1, v.x, &c, &d)
 	fill_ssa(w2, x1, &d, &e)
 	fill_ssa(w2, x2, &e, &f)
 	fill_ssa(w2, v.x, &f, &g)
 	fill_ssa(v.w, x1, &g, &h)
 	fill_ssa(v.w, x2, &h, &a)
 	switch which {
 	case 11:
 		y = a
 		z.getsI(&b)
 	case 12:
 		y.gets(&b)
 		z = c
 	case 13:
 		y.gets(&c)
 		z = d
 	case 21:
 		y.getsI(&d)
 		z.gets(&e)
 	case 22:
 		y = e
 		z = f
 	case 23:
 		y.gets(&f)
 		z.getsI(&g)
 	case 31:
 		y = g
 		z.gets(&h)
 	case 32:
 		y.getsI(&h)
 		z = a
 	default:

 		panic("")
 	}
 	return
 }

 // gets is an address-mentioning way of implementing
 // structure assignment.
 //go:noinline
 func (to *V) gets(from *V) {
 	*to = *from
 }

 // gets is an address-and-interface-mentioning way of
 // implementing structure assignment.
 //go:noinline
 func (to *V) getsI(from interface{}) {
 	*to = *from.(*V)
 }

 // fill_ssa initializes r with V{w:w, x:x, p:p}
 //go:noinline
 func fill_ssa(w, x int64, r, p *V) {
 	*r = V{w: w, x: x, p: p}
 }
	// 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 main

	import (
	"fmt"
	"testing"
	)

	var output string

	func mypanic(t *testing.T, s string) {
	t.Fatalf(s + "\n" + output)

	}

	func assertEqual(t *testing.T, x, y int) {
	if x != y {
	mypanic(t, fmt.Sprintf("assertEqual failed got %d, want %d", x, y))
	}
	}

	func TestAddressed(t *testing.T) {
	x := f1_ssa(2, 3)
	output += fmt.Sprintln("x is", x)
	output += fmt.Sprintln("Gratuitously use some stack")
	output += fmt.Sprintln("x is", x)
	assertEqual(t, *x, 9)

	w := f3a_ssa(6)
	output += fmt.Sprintln("w is", w)
	output += fmt.Sprintln("Gratuitously use some stack")
	output += fmt.Sprintln("w is", w)
	assertEqual(t, *w, 6)

	y := f3b_ssa(12)
	output += fmt.Sprintln("y.(int) is", y.(int))
	output += fmt.Sprintln("Gratuitously use some stack")
	output += fmt.Sprintln("y.(int) is", y.(int))
	assertEqual(t, y.(int), 12)

	z := f3c_ssa(8)
	output += fmt.Sprintln("z.(int) is", z.(int))
	output += fmt.Sprintln("Gratuitously use some stack")
	output += fmt.Sprintln("z.(int) is", z.(int))
	assertEqual(t, z.(int), 8)

	args(t)
	test_autos(t)
	}

	//go:noinline
	func f1_ssa(x, y int) *int {
	x = x*y + y
	return &x
	}

	//go:noinline
	func f3a_ssa(x int) *int {
	return &x
	}

	//go:noinline
	func f3b_ssa(x int) interface{} { // ./foo.go:15: internal error: f3b_ssa ~r1 (type interface {}) recorded as live on entry
	return &x
	}

	//go:noinline
	func f3c_ssa(y int) interface{} {
	x := y
	return &x
	}

	type V struct {
	p *V
	w, x int64
	}

	func args(t *testing.T) {
	v := V{p: nil, w: 1, x: 1}
	a := V{p: &v, w: 2, x: 2}
	b := V{p: &v, w: 0, x: 0}
	i := v.args_ssa(a, b)
	output += fmt.Sprintln("i=", i)
	assertEqual(t, int(i), 2)
	}

	//go:noinline
	func (v V) args_ssa(a, b V) int64 {
	if v.w == 0 {
	return v.x
	}
	if v.w == 1 {
	return a.x
	}
	if v.w == 2 {
	return b.x
	}
	b.p.p = &a // v.p in caller = &a

	return -1
	}

	func test_autos(t *testing.T) {
	test(t, 11)
	test(t, 12)
	test(t, 13)
	test(t, 21)
	test(t, 22)
	test(t, 23)
	test(t, 31)
	test(t, 32)
	}

	func test(t *testing.T, which int64) {
	output += fmt.Sprintln("test", which)
	v1 := V{w: 30, x: 3, p: nil}
	v2, v3 := v1.autos_ssa(which, 10, 1, 20, 2)
	if which != v2.val() {
	output += fmt.Sprintln("Expected which=", which, "got v2.val()=", v2.val())
	mypanic(t, "Failure of expected V value")
	}
	if v2.p.val() != v3.val() {
	output += fmt.Sprintln("Expected v2.p.val()=", v2.p.val(), "got v3.val()=", v3.val())
	mypanic(t, "Failure of expected V.p value")
	}
	if which != v3.p.p.p.p.p.p.p.val() {
	output += fmt.Sprintln("Expected which=", which, "got v3.p.p.p.p.p.p.p.val()=", v3.p.p.p.p.p.p.p.val())
	mypanic(t, "Failure of expected V.p value")
	}
	}

	func (v V) val() int64 {
	return v.w + v.x
	}

	// autos_ssa uses contents of v and parameters w1, w2, x1, x2
	// to initialize a bunch of locals, all of which have their
	// address taken to force heap allocation, and then based on
	// the value of which a pair of those locals are copied in
	// various ways to the two results y, and z, which are also
	// addressed. Which is expected to be one of 11-13, 21-23, 31, 32,
	// and y.val() should be equal to which and y.p.val() should
	// be equal to z.val(). Also, x(.p)**8 == x; that is, the
	// autos are all linked into a ring.
	//go:noinline
	func (v V) autos_ssa(which, w1, x1, w2, x2 int64) (y, z V) {
	fill_ssa(v.w, v.x, &v, v.p) // gratuitous no-op to force addressing
	var a, b, c, d, e, f, g, h V
	fill_ssa(w1, x1, &a, &b)
	fill_ssa(w1, x2, &b, &c)
	fill_ssa(w1, v.x, &c, &d)
	fill_ssa(w2, x1, &d, &e)
	fill_ssa(w2, x2, &e, &f)
	fill_ssa(w2, v.x, &f, &g)
	fill_ssa(v.w, x1, &g, &h)
	fill_ssa(v.w, x2, &h, &a)
	switch which {
	case 11:
	y = a
	z.getsI(&b)
	case 12:
	y.gets(&b)
	z = c
	case 13:
	y.gets(&c)
	z = d
	case 21:
	y.getsI(&d)
	z.gets(&e)
	case 22:
	y = e
	z = f
	case 23:
	y.gets(&f)
	z.getsI(&g)
	case 31:
	y = g
	z.gets(&h)
	case 32:
	y.getsI(&h)
	z = a
	default:

	panic("")
	}
	return
	}

	// gets is an address-mentioning way of implementing
	// structure assignment.
	//go:noinline
	func (to V) gets(from V) {
	to = from
	}

	// gets is an address-and-interface-mentioning way of
	// implementing structure assignment.
	//go:noinline
	func (to *V) getsI(from interface{}) {
	to = from.(*V)
	}

	// fill_ssa initializes r with V{w:w, x:x, p:p}
	//go:noinline
	func fill_ssa(w, x int64, r, p *V) {
	*r = V{w: w, x: x, p: p}
	}