test/recover.go - go - Git at Google

 // run

 // Copyright 2010 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.

 // Test of basic recover functionality.

 package main

 import "runtime"

 func main() {
 	test1()
 	test1WithClosures()
 	test2()
 	test3()
 	test4()
 	test5()
 	test6()
 	test6WithClosures()
 	test7()
 }

 func die() {
 	runtime.Breakpoint() // can't depend on panic
 }

 func mustRecover(x interface{}) {
 	mustNotRecover() // because it's not a defer call
 	v := recover()
 	if v == nil {
 		println("missing recover")
 		die() // panic is useless here
 	}
 	if v != x {
 		println("wrong value", v, x)
 		die()
 	}

 	// the value should be gone now regardless
 	v = recover()
 	if v != nil {
 		println("recover didn't recover")
 		die()
 	}
 }

 func mustNotRecover() {
 	v := recover()
 	if v != nil {
 		println("spurious recover", v)
 		die()
 	}
 }

 func withoutRecover() {
 	mustNotRecover() // because it's a sub-call
 }

 func test1() {
 	defer mustNotRecover() // because mustRecover will squelch it
 	defer mustRecover(1)   // because of panic below
 	defer withoutRecover() // should be no-op, leaving for mustRecover to find
 	panic(1)
 }

 // Repeat test1 with closures instead of standard function.
 // Interesting because recover bases its decision
 // on the frame pointer of its caller, and a closure's
 // frame pointer is in the middle of its actual arguments
 // (after the hidden ones for the closed-over variables).
 func test1WithClosures() {
 	defer func() {
 		v := recover()
 		if v != nil {
 			println("spurious recover in closure")
 			die()
 		}
 	}()
 	defer func(x interface{}) {
 		mustNotRecover()
 		v := recover()
 		if v == nil {
 			println("missing recover")
 			die()
 		}
 		if v != x {
 			println("wrong value", v, x)
 			die()
 		}
 	}(1)
 	defer func() {
 		mustNotRecover()
 	}()
 	panic(1)
 }

 func test2() {
 	// Recover only sees the panic argument
 	// if it is called from a deferred call.
 	// It does not see the panic when called from a call within a deferred call (too late)
 	// nor does it see the panic when it *is* the deferred call (too early).
 	defer mustRecover(2)
 	defer recover() // should be no-op
 	panic(2)
 }

 func test3() {
 	defer mustNotRecover()
 	defer func() {
 		recover() // should squelch
 	}()
 	panic(3)
 }

 func test4() {
 	// Equivalent to test3 but using defer to make the call.
 	defer mustNotRecover()
 	defer func() {
 		defer recover() // should squelch
 	}()
 	panic(4)
 }

 // Check that closures can set output arguments.
 // Run g().  If it panics, return x; else return deflt.
 func try(g func(), deflt interface{}) (x interface{}) {
 	defer func() {
 		if v := recover(); v != nil {
 			x = v
 		}
 	}()
 	defer g()
 	return deflt
 }

 // Check that closures can set output arguments.
 // Run g().  If it panics, return x; else return deflt.
 func try1(g func(), deflt interface{}) (x interface{}) {
 	defer func() {
 		if v := recover(); v != nil {
 			x = v
 		}
 	}()
 	defer g()
 	x = deflt
 	return
 }

 func test5() {
 	v := try(func() { panic(5) }, 55).(int)
 	if v != 5 {
 		println("wrong value", v, 5)
 		die()
 	}

 	s := try(func() {}, "hi").(string)
 	if s != "hi" {
 		println("wrong value", s, "hi")
 		die()
 	}

 	v = try1(func() { panic(5) }, 55).(int)
 	if v != 5 {
 		println("try1 wrong value", v, 5)
 		die()
 	}

 	s = try1(func() {}, "hi").(string)
 	if s != "hi" {
 		println("try1 wrong value", s, "hi")
 		die()
 	}
 }

 // When a deferred big call starts, it must first
 // create yet another stack segment to hold the
 // giant frame for x.  Make sure that doesn't
 // confuse recover.
 func big(mustRecover bool) {
 	var x [100000]int
 	x[0] = 1
 	x[99999] = 1
 	_ = x

 	v := recover()
 	if mustRecover {
 		if v == nil {
 			println("missing big recover")
 			die()
 		}
 	} else {
 		if v != nil {
 			println("spurious big recover")
 			die()
 		}
 	}
 }

 func test6() {
 	defer big(false)
 	defer big(true)
 	panic(6)
 }

 func test6WithClosures() {
 	defer func() {
 		var x [100000]int
 		x[0] = 1
 		x[99999] = 1
 		_ = x
 		if recover() != nil {
 			println("spurious big closure recover")
 			die()
 		}
 	}()
 	defer func() {
 		var x [100000]int
 		x[0] = 1
 		x[99999] = 1
 		_ = x
 		if recover() == nil {
 			println("missing big closure recover")
 			die()
 		}
 	}()
 	panic("6WithClosures")
 }

 func test7() {
 	ok := false
 	func() {
 		// should panic, then call mustRecover 7, which stops the panic.
 		// then should keep processing ordinary defers earlier than that one
 		// before returning.
 		// this test checks that the defer func on the next line actually runs.
 		defer func() { ok = true }()
 		defer mustRecover(7)
 		panic(7)
 	}()
 	if !ok {
 		println("did not run ok func")
 		die()
 	}
 }

 func varargs(s *int, a ...int) {
 	*s = 0
 	for _, v := range a {
 		*s += v
 	}
 	if recover() != nil {
 		*s += 100
 	}
 }

 func test8a() (r int) {
 	defer varargs(&r, 1, 2, 3)
 	panic(0)
 }

 func test8b() (r int) {
 	defer varargs(&r, 4, 5, 6)
 	return
 }

 func test8() {
 	if test8a() != 106 || test8b() != 15 {
 		println("wrong value")
 		die()
 	}
 }
	// run

	// Copyright 2010 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.

	// Test of basic recover functionality.

	package main

	import "runtime"

	func main() {
	test1()
	test1WithClosures()
	test2()
	test3()
	test4()
	test5()
	test6()
	test6WithClosures()
	test7()
	}

	func die() {
	runtime.Breakpoint() // can't depend on panic
	}

	func mustRecover(x interface{}) {
	mustNotRecover() // because it's not a defer call
	v := recover()
	if v == nil {
	println("missing recover")
	die() // panic is useless here
	}
	if v != x {
	println("wrong value", v, x)
	die()
	}

	// the value should be gone now regardless
	v = recover()
	if v != nil {
	println("recover didn't recover")
	die()
	}
	}

	func mustNotRecover() {
	v := recover()
	if v != nil {
	println("spurious recover", v)
	die()
	}
	}

	func withoutRecover() {
	mustNotRecover() // because it's a sub-call
	}

	func test1() {
	defer mustNotRecover() // because mustRecover will squelch it
	defer mustRecover(1) // because of panic below
	defer withoutRecover() // should be no-op, leaving for mustRecover to find
	panic(1)
	}

	// Repeat test1 with closures instead of standard function.
	// Interesting because recover bases its decision
	// on the frame pointer of its caller, and a closure's
	// frame pointer is in the middle of its actual arguments
	// (after the hidden ones for the closed-over variables).
	func test1WithClosures() {
	defer func() {
	v := recover()
	if v != nil {
	println("spurious recover in closure")
	die()
	}
	}()
	defer func(x interface{}) {
	mustNotRecover()
	v := recover()
	if v == nil {
	println("missing recover")
	die()
	}
	if v != x {
	println("wrong value", v, x)
	die()
	}
	}(1)
	defer func() {
	mustNotRecover()
	}()
	panic(1)
	}

	func test2() {
	// Recover only sees the panic argument
	// if it is called from a deferred call.
	// It does not see the panic when called from a call within a deferred call (too late)
	// nor does it see the panic when it is the deferred call (too early).
	defer mustRecover(2)
	defer recover() // should be no-op
	panic(2)
	}

	func test3() {
	defer mustNotRecover()
	defer func() {
	recover() // should squelch
	}()
	panic(3)
	}

	func test4() {
	// Equivalent to test3 but using defer to make the call.
	defer mustNotRecover()
	defer func() {
	defer recover() // should squelch
	}()
	panic(4)
	}

	// Check that closures can set output arguments.
	// Run g(). If it panics, return x; else return deflt.
	func try(g func(), deflt interface{}) (x interface{}) {
	defer func() {
	if v := recover(); v != nil {
	x = v
	}
	}()
	defer g()
	return deflt
	}

	// Check that closures can set output arguments.
	// Run g(). If it panics, return x; else return deflt.
	func try1(g func(), deflt interface{}) (x interface{}) {
	defer func() {
	if v := recover(); v != nil {
	x = v
	}
	}()
	defer g()
	x = deflt
	return
	}

	func test5() {
	v := try(func() { panic(5) }, 55).(int)
	if v != 5 {
	println("wrong value", v, 5)
	die()
	}

	s := try(func() {}, "hi").(string)
	if s != "hi" {
	println("wrong value", s, "hi")
	die()
	}

	v = try1(func() { panic(5) }, 55).(int)
	if v != 5 {
	println("try1 wrong value", v, 5)
	die()
	}

	s = try1(func() {}, "hi").(string)
	if s != "hi" {
	println("try1 wrong value", s, "hi")
	die()
	}
	}

	// When a deferred big call starts, it must first
	// create yet another stack segment to hold the
	// giant frame for x. Make sure that doesn't
	// confuse recover.
	func big(mustRecover bool) {
	var x [100000]int
	x[0] = 1
	x[99999] = 1
	_ = x

	v := recover()
	if mustRecover {
	if v == nil {
	println("missing big recover")
	die()
	}
	} else {
	if v != nil {
	println("spurious big recover")
	die()
	}
	}
	}

	func test6() {
	defer big(false)
	defer big(true)
	panic(6)
	}

	func test6WithClosures() {
	defer func() {
	var x [100000]int
	x[0] = 1
	x[99999] = 1
	_ = x
	if recover() != nil {
	println("spurious big closure recover")
	die()
	}
	}()
	defer func() {
	var x [100000]int
	x[0] = 1
	x[99999] = 1
	_ = x
	if recover() == nil {
	println("missing big closure recover")
	die()
	}
	}()
	panic("6WithClosures")
	}

	func test7() {
	ok := false
	func() {
	// should panic, then call mustRecover 7, which stops the panic.
	// then should keep processing ordinary defers earlier than that one
	// before returning.
	// this test checks that the defer func on the next line actually runs.
	defer func() { ok = true }()
	defer mustRecover(7)
	panic(7)
	}()
	if !ok {
	println("did not run ok func")
	die()
	}
	}

	func varargs(s *int, a ...int) {
	*s = 0
	for _, v := range a {
	*s += v
	}
	if recover() != nil {
	*s += 100
	}
	}

	func test8a() (r int) {
	defer varargs(&r, 1, 2, 3)
	panic(0)
	}

	func test8b() (r int) {
	defer varargs(&r, 4, 5, 6)
	return
	}

	func test8() {
	if test8a() != 106 \|\| test8b() != 15 {
	println("wrong value")
	die()
	}
	}