// Copyright 2023 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 rangefunc_test import ( "fmt" "regexp" "slices" "testing" ) type Seq[T any] func(yield func(T) bool) type Seq2[T1, T2 any] func(yield func(T1, T2) bool) // OfSliceIndex returns a Seq2 over the elements of s. It is equivalent // to range s. func OfSliceIndex[T any, S ~[]T](s S) Seq2[int, T] { return func(yield func(int, T) bool) { for i, v := range s { if !yield(i, v) { return } } return } } // BadOfSliceIndex is "bad" because it ignores the return value from yield // and just keeps on iterating. func BadOfSliceIndex[T any, S ~[]T](s S) Seq2[int, T] { return func(yield func(int, T) bool) { for i, v := range s { yield(i, v) } return } } // VeryBadOfSliceIndex is "very bad" because it ignores the return value from yield // and just keeps on iterating, and also wraps that call in a defer-recover so it can // keep on trying after the first panic. func VeryBadOfSliceIndex[T any, S ~[]T](s S) Seq2[int, T] { return func(yield func(int, T) bool) { for i, v := range s { func() { defer func() { recover() }() yield(i, v) }() } return } } // SwallowPanicOfSliceIndex hides panics and converts them to normal return func SwallowPanicOfSliceIndex[T any, S ~[]T](s S) Seq2[int, T] { return func(yield func(int, T) bool) { for i, v := range s { done := false func() { defer func() { if r := recover(); r != nil { done = true } }() done = !yield(i, v) }() if done { return } } return } } // PanickyOfSliceIndex iterates the slice but panics if it exits the loop early func PanickyOfSliceIndex[T any, S ~[]T](s S) Seq2[int, T] { return func(yield func(int, T) bool) { for i, v := range s { if !yield(i, v) { panic(fmt.Errorf("Panicky iterator panicking")) } } return } } // CooperativeBadOfSliceIndex calls the loop body from a goroutine after // a ping on a channel, and returns recover()on that same channel. func CooperativeBadOfSliceIndex[T any, S ~[]T](s S, proceed chan any) Seq2[int, T] { return func(yield func(int, T) bool) { for i, v := range s { if !yield(i, v) { // if the body breaks, call yield just once in a goroutine go func() { <-proceed defer func() { proceed <- recover() }() yield(0, s[0]) }() return } } return } } // TrickyIterator is a type intended to test whether an iterator that // calls a yield function after loop exit must inevitably escape the // closure; this might be relevant to future checking/optimization. type TrickyIterator struct { yield func(int, int) bool } func (ti *TrickyIterator) iterEcho(s []int) Seq2[int, int] { return func(yield func(int, int) bool) { for i, v := range s { if !yield(i, v) { ti.yield = yield return } if ti.yield != nil && !ti.yield(i, v) { return } } ti.yield = yield return } } func (ti *TrickyIterator) iterAll(s []int) Seq2[int, int] { return func(yield func(int, int) bool) { ti.yield = yield // Save yield for future abuse for i, v := range s { if !yield(i, v) { return } } return } } func (ti *TrickyIterator) iterOne(s []int) Seq2[int, int] { return func(yield func(int, int) bool) { ti.yield = yield // Save yield for future abuse if len(s) > 0 { // Not in a loop might escape differently yield(0, s[0]) } return } } func (ti *TrickyIterator) iterZero(s []int) Seq2[int, int] { return func(yield func(int, int) bool) { ti.yield = yield // Save yield for future abuse // Don't call it at all, maybe it won't escape return } } func (ti *TrickyIterator) fail() { if ti.yield != nil { ti.yield(1, 1) } } const DONE = 0 // body of loop has exited in a non-panic way const READY = 1 // body of loop has not exited yet, is not running const PANIC = 2 // body of loop is either currently running, or has panicked const EXHAUSTED = 3 // iterator function return, i.e., sequence is "exhausted" const MISSING_PANIC = 4 // overload "READY" for panic call // Check2 wraps the function body passed to iterator forall // in code that ensures that it cannot (successfully) be called // either after body return false (control flow out of loop) or // forall itself returns (the iteration is now done). // // Note that this can catch errors before the inserted checks. func Check2[U, V any](forall Seq2[U, V]) Seq2[U, V] { return func(body func(U, V) bool) { state := READY forall(func(u U, v V) bool { tmp := state state = PANIC if tmp != READY { panic(fail[tmp]) } ret := body(u, v) if ret { state = READY } else { state = DONE } return ret }) if state == PANIC { panic(fail[MISSING_PANIC]) } state = EXHAUSTED } } func Check[U any](forall Seq[U]) Seq[U] { return func(body func(U) bool) { state := READY forall(func(u U) bool { tmp := state state = PANIC if tmp != READY { panic(fail[tmp]) } ret := body(u) if ret { state = READY } else { state = DONE } return ret }) if state == PANIC { panic(fail[MISSING_PANIC]) } state = EXHAUSTED } } func matchError(r any, x string) bool { if r == nil { return false } if x == "" { return true } if p, ok := r.(errorString); ok { return p.Error() == x } if p, ok := r.(error); ok { e, err := regexp.Compile(x) if err != nil { panic(fmt.Errorf("Bad regexp '%s' passed to matchError", x)) } return e.MatchString(p.Error()) } return false } func matchErrorHelper(t *testing.T, r any, x string) { if matchError(r, x) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v', expected '%s'", r, x) } } // An errorString represents a runtime error described by a single string. type errorString string func (e errorString) Error() string { return string(e) } const ( // RERR_ is for runtime error, and may be regexps/substrings, to simplify use of tests with tools RERR_DONE = "runtime error: range function continued iteration after function for loop body returned false" RERR_PANIC = "runtime error: range function continued iteration after loop body panic" RERR_EXHAUSTED = "runtime error: range function continued iteration after whole loop exit" RERR_MISSING = "runtime error: range function recovered a loop body panic and did not resume panicking" // CERR_ is for checked errors in the Check combinator defined above, and should be literal strings CERR_PFX = "checked rangefunc error: " CERR_DONE = CERR_PFX + "loop iteration after body done" CERR_PANIC = CERR_PFX + "loop iteration after panic" CERR_EXHAUSTED = CERR_PFX + "loop iteration after iterator exit" CERR_MISSING = CERR_PFX + "loop iterator swallowed panic" ) var fail []error = []error{ errorString(CERR_DONE), errorString(CERR_PFX + "loop iterator, unexpected error"), errorString(CERR_PANIC), errorString(CERR_EXHAUSTED), errorString(CERR_MISSING), } // TestNoVars ensures that versions of rangefunc that use zero or one // iteration variable (instead of two) run the proper number of times // and in the one variable case supply the proper values. // For #65236. func TestNoVars(t *testing.T) { i, k := 0, 0 for range Check2(OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})) { i++ } for j := range Check2(OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})) { k += j } if i != 10 { t.Errorf("Expected 10, got %d", i) } if k != 45 { t.Errorf("Expected 45, got %d", k) } } func TestCheck(t *testing.T) { i := 0 defer func() { if r := recover(); r != nil { if matchError(r, CERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } }() for _, x := range Check2(BadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})) { i += x if i > 4*9 { break } } } func TestCooperativeBadOfSliceIndex(t *testing.T) { i := 0 proceed := make(chan any) for _, x := range CooperativeBadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, proceed) { i += x if i >= 36 { break } } proceed <- true if r := <-proceed; r != nil { if matchError(r, RERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } if i != 36 { t.Errorf("Expected i == 36, saw %d instead", i) } else { t.Logf("i = %d", i) } } func TestCooperativeBadOfSliceIndexCheck(t *testing.T) { i := 0 proceed := make(chan any) for _, x := range Check2(CooperativeBadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, proceed)) { i += x if i >= 36 { break } } proceed <- true if r := <-proceed; r != nil { if matchError(r, CERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } if i != 36 { t.Errorf("Expected i == 36, saw %d instead", i) } else { t.Logf("i = %d", i) } } func TestTrickyIterAll(t *testing.T) { trickItAll := TrickyIterator{} i := 0 for _, x := range trickItAll.iterAll([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { i += x if i >= 36 { break } } if i != 36 { t.Errorf("Expected i == 36, saw %d instead", i) } else { t.Logf("i = %d", i) } defer func() { if r := recover(); r != nil { if matchError(r, RERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } }() trickItAll.fail() } func TestTrickyIterOne(t *testing.T) { trickItOne := TrickyIterator{} i := 0 for _, x := range trickItOne.iterOne([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { i += x if i >= 36 { break } } // Don't care about value, ought to be 36 anyhow. t.Logf("i = %d", i) defer func() { if r := recover(); r != nil { if matchError(r, RERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } }() trickItOne.fail() } func TestTrickyIterZero(t *testing.T) { trickItZero := TrickyIterator{} i := 0 for _, x := range trickItZero.iterZero([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { i += x if i >= 36 { break } } // Don't care about value, ought to be 0 anyhow. t.Logf("i = %d", i) defer func() { if r := recover(); r != nil { if matchError(r, RERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } }() trickItZero.fail() } func TestTrickyIterZeroCheck(t *testing.T) { trickItZero := TrickyIterator{} i := 0 for _, x := range Check2(trickItZero.iterZero([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})) { i += x if i >= 36 { break } } // Don't care about value, ought to be 0 anyhow. t.Logf("i = %d", i) defer func() { if r := recover(); r != nil { if matchError(r, CERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } }() trickItZero.fail() } func TestTrickyIterEcho(t *testing.T) { trickItAll := TrickyIterator{} i := 0 for _, x := range trickItAll.iterAll([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { t.Logf("first loop i=%d", i) i += x if i >= 10 { break } } if i != 10 { t.Errorf("Expected i == 10, saw %d instead", i) } else { t.Logf("i = %d", i) } defer func() { if r := recover(); r != nil { if matchError(r, RERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } }() i = 0 for _, x := range trickItAll.iterEcho([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { t.Logf("second loop i=%d", i) if x >= 5 { break } } } func TestTrickyIterEcho2(t *testing.T) { trickItAll := TrickyIterator{} var i int defer func() { if r := recover(); r != nil { if matchError(r, RERR_EXHAUSTED) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Error("Wanted to see a failure") } }() for k := range 2 { i = 0 for _, x := range trickItAll.iterEcho([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { t.Logf("k,x,i=%d,%d,%d", k, x, i) i += x if i >= 10 { break } } t.Logf("i = %d", i) if i != 10 { t.Errorf("Expected i == 10, saw %d instead", i) } } } // TestBreak1 should just work, with well-behaved iterators. // (The misbehaving iterator detector should not trigger.) func TestBreak1(t *testing.T) { var result []int var expect = []int{1, 2, -1, 1, 2, -2, 1, 2, -3} for _, x := range OfSliceIndex([]int{-1, -2, -3, -4}) { if x == -4 { break } for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { break } result = append(result, y) } result = append(result, x) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestBreak2 should just work, with well-behaved iterators. // (The misbehaving iterator detector should not trigger.) func TestBreak2(t *testing.T) { var result []int var expect = []int{1, 2, -1, 1, 2, -2, 1, 2, -3} outer: for _, x := range OfSliceIndex([]int{-1, -2, -3, -4}) { for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { break } if x == -4 { break outer } result = append(result, y) } result = append(result, x) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestContinue should just work, with well-behaved iterators. // (The misbehaving iterator detector should not trigger.) func TestContinue(t *testing.T) { var result []int var expect = []int{-1, 1, 2, -2, 1, 2, -3, 1, 2, -4} outer: for _, x := range OfSliceIndex([]int{-1, -2, -3, -4}) { result = append(result, x) for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { continue outer } if x == -4 { break outer } result = append(result, y) } result = append(result, x-10) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestBreak3 should just work, with well-behaved iterators. // (The misbehaving iterator detector should not trigger.) func TestBreak3(t *testing.T) { var result []int var expect = []int{100, 10, 2, 4, 200, 10, 2, 4, 20, 2, 4, 300, 10, 2, 4, 20, 2, 4, 30} X: for _, x := range OfSliceIndex([]int{100, 200, 300, 400}) { Y: for _, y := range OfSliceIndex([]int{10, 20, 30, 40}) { if 10*y >= x { break } result = append(result, y) if y == 30 { continue X } Z: for _, z := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue Z } result = append(result, z) if z >= 4 { continue Y } } result = append(result, -y) // should never be executed } result = append(result, x) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestBreak1BadA should end in a panic when the outer-loop's // single-level break is ignore by BadOfSliceIndex func TestBreak1BadA(t *testing.T) { var result []int var expect = []int{1, 2, -1, 1, 2, -2, 1, 2, -3} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Error("Wanted to see a failure") } }() for _, x := range BadOfSliceIndex([]int{-1, -2, -3, -4, -5}) { if x == -4 { break } for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { break } result = append(result, y) } result = append(result, x) } } // TestBreak1BadB should end in a panic, sooner, when the inner-loop's // (nested) single-level break is ignored by BadOfSliceIndex func TestBreak1BadB(t *testing.T) { var result []int var expect = []int{1, 2} // inner breaks, panics, after before outer appends defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Error("Wanted to see a failure") } }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { if x == -4 { break } for _, y := range BadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { break } result = append(result, y) } result = append(result, x) } } // TestMultiCont0 tests multilevel continue with no bad iterators // (it should just work) func TestMultiCont0(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4, 2000} W: for _, w := range OfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range OfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range OfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { continue W // modified to be multilevel } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestMultiCont1 tests multilevel continue with a bad iterator // in the outermost loop exited by the continue. func TestMultiCont1(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() W: for _, w := range OfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range BadOfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range OfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { continue W } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestMultiCont2 tests multilevel continue with a bad iterator // in a middle loop exited by the continue. func TestMultiCont2(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() W: for _, w := range OfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range OfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range BadOfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { continue W } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestMultiCont3 tests multilevel continue with a bad iterator // in the innermost loop exited by the continue. func TestMultiCont3(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() W: for _, w := range OfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range OfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range OfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range BadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { continue W } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestMultiBreak0 tests multilevel break with a bad iterator // in the outermost loop exited by the break (the outermost loop). func TestMultiBreak0(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() W: for _, w := range BadOfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range OfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range OfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { break W } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestMultiBreak1 tests multilevel break with a bad iterator // in an intermediate loop exited by the break. func TestMultiBreak1(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() W: for _, w := range OfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range BadOfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range OfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { break W } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestMultiBreak2 tests multilevel break with two bad iterators // in intermediate loops exited by the break. func TestMultiBreak2(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() W: for _, w := range OfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range BadOfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range BadOfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { break W } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // TestMultiBreak3 tests multilevel break with the bad iterator // in the innermost loop exited by the break. func TestMultiBreak3(t *testing.T) { var result []int var expect = []int{1000, 10, 2, 4} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() W: for _, w := range OfSliceIndex([]int{1000, 2000}) { result = append(result, w) if w == 2000 { break } for _, x := range OfSliceIndex([]int{100, 200, 300, 400}) { for _, y := range OfSliceIndex([]int{10, 20, 30, 40}) { result = append(result, y) for _, z := range BadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if z&1 == 1 { continue } result = append(result, z) if z >= 4 { break W } } result = append(result, -y) // should never be executed } result = append(result, x) } } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } func TestPanickyIterator1(t *testing.T) { var result []int var expect = []int{1, 2, 3, 4} defer func() { if r := recover(); r != nil { if matchError(r, "Panicky iterator panicking") { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() for _, z := range PanickyOfSliceIndex([]int{1, 2, 3, 4}) { result = append(result, z) if z == 4 { break } } } func TestPanickyIterator1Check(t *testing.T) { var result []int var expect = []int{1, 2, 3, 4} defer func() { if r := recover(); r != nil { if matchError(r, "Panicky iterator panicking") { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() for _, z := range Check2(PanickyOfSliceIndex([]int{1, 2, 3, 4})) { result = append(result, z) if z == 4 { break } } } func TestPanickyIterator2(t *testing.T) { var result []int var expect = []int{100, 10, 1, 2} defer func() { if r := recover(); r != nil { if matchError(r, RERR_MISSING) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a failure, result was %v", result) } }() for _, x := range OfSliceIndex([]int{100, 200}) { result = append(result, x) Y: // swallows panics and iterates to end BUT `break Y` disables the body, so--> 10, 1, 2 for _, y := range VeryBadOfSliceIndex([]int{10, 20}) { result = append(result, y) // converts early exit into a panic --> 1, 2 for k, z := range PanickyOfSliceIndex([]int{1, 2}) { // iterator panics result = append(result, z) if k == 1 { break Y } } } } } func TestPanickyIterator2Check(t *testing.T) { var result []int var expect = []int{100, 10, 1, 2} defer func() { if r := recover(); r != nil { if matchError(r, CERR_MISSING) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a panic, result was %v", result) } }() for _, x := range Check2(OfSliceIndex([]int{100, 200})) { result = append(result, x) Y: // swallows panics and iterates to end BUT `break Y` disables the body, so--> 10, 1, 2 for _, y := range Check2(VeryBadOfSliceIndex([]int{10, 20})) { result = append(result, y) // converts early exit into a panic --> 1, 2 for k, z := range Check2(PanickyOfSliceIndex([]int{1, 2})) { // iterator panics result = append(result, z) if k == 1 { break Y } } } } } func TestPanickyIterator3(t *testing.T) { var result []int var expect = []int{100, 10, 1, 2} defer func() { if r := recover(); r != nil { if matchError(r, RERR_MISSING) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a panic, result was %v", result) } }() for _, x := range OfSliceIndex([]int{100, 200}) { result = append(result, x) Y: // swallows panics and iterates to end BUT `break Y` disables the body, so--> 10, 1, 2 // This is cross-checked against the checked iterator below; the combinator should behave the same. for _, y := range VeryBadOfSliceIndex([]int{10, 20}) { result = append(result, y) for k, z := range OfSliceIndex([]int{1, 2}) { // iterator does not panic result = append(result, z) if k == 1 { break Y } } } } } func TestPanickyIterator3Check(t *testing.T) { var result []int var expect = []int{100, 10, 1, 2} defer func() { if r := recover(); r != nil { if matchError(r, CERR_MISSING) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a panic, result was %v", result) } }() for _, x := range Check2(OfSliceIndex([]int{100, 200})) { result = append(result, x) Y: // swallows panics and iterates to end BUT `break Y` disables the body, so--> 10, 1, 2 for _, y := range Check2(VeryBadOfSliceIndex([]int{10, 20})) { result = append(result, y) for k, z := range Check2(OfSliceIndex([]int{1, 2})) { // iterator does not panic result = append(result, z) if k == 1 { break Y } } } } } func TestPanickyIterator4(t *testing.T) { var result []int var expect = []int{1, 2, 3} defer func() { if r := recover(); r != nil { if matchError(r, RERR_MISSING) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a panic, result was %v", result) } }() for _, x := range SwallowPanicOfSliceIndex([]int{1, 2, 3, 4}) { result = append(result, x) if x == 3 { panic("x is 3") } } } func TestPanickyIterator4Check(t *testing.T) { var result []int var expect = []int{1, 2, 3} defer func() { if r := recover(); r != nil { if matchError(r, CERR_MISSING) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } else { t.Errorf("Wanted to see a panic, result was %v", result) } }() for _, x := range Check2(SwallowPanicOfSliceIndex([]int{1, 2, 3, 4})) { result = append(result, x) if x == 3 { panic("x is 3") } } } // veryBad tests that a loop nest behaves sensibly in the face of a // "very bad" iterator. In this case, "sensibly" means that the // break out of X still occurs after the very bad iterator finally // quits running (the control flow bread crumbs remain.) func veryBad(s []int) []int { var result []int X: for _, x := range OfSliceIndex([]int{1, 2, 3}) { result = append(result, x) for _, y := range VeryBadOfSliceIndex(s) { result = append(result, y) break X } for _, z := range OfSliceIndex([]int{100, 200, 300}) { result = append(result, z) if z == 100 { break } } } return result } // veryBadCheck wraps a "very bad" iterator with Check, // demonstrating that the very bad iterator also hides panics // thrown by Check. func veryBadCheck(s []int) []int { var result []int X: for _, x := range OfSliceIndex([]int{1, 2, 3}) { result = append(result, x) for _, y := range Check2(VeryBadOfSliceIndex(s)) { result = append(result, y) break X } for _, z := range OfSliceIndex([]int{100, 200, 300}) { result = append(result, z) if z == 100 { break } } } return result } // okay is the not-bad version of veryBad. // They should behave the same. func okay(s []int) []int { var result []int X: for _, x := range OfSliceIndex([]int{1, 2, 3}) { result = append(result, x) for _, y := range OfSliceIndex(s) { result = append(result, y) break X } for _, z := range OfSliceIndex([]int{100, 200, 300}) { result = append(result, z) if z == 100 { break } } } return result } // TestVeryBad1 checks the behavior of an extremely poorly behaved iterator. func TestVeryBad1(t *testing.T) { expect := []int{} // assignment does not happen var result []int defer func() { if r := recover(); r != nil { expectPanic(t, r, RERR_MISSING) if !slices.Equal(expect, result) { t.Errorf("(Inner) Expected %v, got %v", expect, result) } } else { t.Error("Wanted to see a failure") } }() result = veryBad([]int{10, 20, 30, 40, 50}) // odd length } func expectPanic(t *testing.T, r any, s string) { if matchError(r, s) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } func expectError(t *testing.T, err any, s string) { if matchError(err, s) { t.Logf("Saw expected error '%v'", err) } else { t.Errorf("Saw wrong error '%v'", err) } } // TestVeryBad2 checks the behavior of an extremely poorly behaved iterator. func TestVeryBad2(t *testing.T) { result := []int{} expect := []int{} defer func() { if r := recover(); r != nil { expectPanic(t, r, RERR_MISSING) if !slices.Equal(expect, result) { t.Errorf("(Inner) Expected %v, got %v", expect, result) } } else { t.Error("Wanted to see a failure") } }() result = veryBad([]int{10, 20, 30, 40}) // even length } // TestVeryBadCheck checks the behavior of an extremely poorly behaved iterator, // which also suppresses the exceptions from "Check" func TestVeryBadCheck(t *testing.T) { expect := []int{} var result []int defer func() { if r := recover(); r != nil { expectPanic(t, r, CERR_MISSING) } if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } }() result = veryBadCheck([]int{10, 20, 30, 40}) // even length } // TestOk is the nice version of the very bad iterator. func TestOk(t *testing.T) { result := okay([]int{10, 20, 30, 40, 50}) // odd length expect := []int{1, 10} if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } } // testBreak1BadDefer checks that defer behaves properly even in // the presence of loop bodies panicking out of bad iterators. // (i.e., the instrumentation did not break defer in these loops) func testBreak1BadDefer(t *testing.T) (result []int) { var expect = []int{1, 2, -1, 1, 2, -2, 1, 2, -3, -30, -20, -10} defer func() { if r := recover(); r != nil { if matchError(r, RERR_DONE) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } if !slices.Equal(expect, result) { t.Errorf("(Inner) Expected %v, got %v", expect, result) } } else { t.Error("Wanted to see a failure") } }() for _, x := range BadOfSliceIndex([]int{-1, -2, -3, -4, -5}) { if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { break } result = append(result, y) } result = append(result, x) } return } func TestBreak1BadDefer(t *testing.T) { var result []int var expect = []int{1, 2, -1, 1, 2, -2, 1, 2, -3, -30, -20, -10} result = testBreak1BadDefer(t) if !slices.Equal(expect, result) { t.Errorf("(Outer) Expected %v, got %v", expect, result) } } // testReturn1 has no bad iterators. func testReturn1(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { return } result = append(result, y) } result = append(result, x) } return } // testReturn2 has an outermost bad iterator func testReturn2(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range BadOfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { return } result = append(result, y) } result = append(result, x) } return } // testReturn3 has an innermost bad iterator func testReturn3(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range BadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { return } result = append(result, y) } } return } // testReturn4 has no bad iterators, but exercises return variable rewriting // differs from testReturn1 because deferred append to "result" does not change // the return value in this case. func testReturn4(t *testing.T) (_ []int, _ []int, err any) { var result []int defer func() { err = recover() }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { return result, result, nil } result = append(result, y) } result = append(result, x) } return } // TestReturns checks that returns through bad iterators behave properly, // for inner and outer bad iterators. func TestReturns(t *testing.T) { var result []int var result2 []int var expect = []int{-1, 1, 2, -10} var expect2 = []int{-1, 1, 2} var err any result, err = testReturn1(t) if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } if err != nil { t.Errorf("Unexpected error %v", err) } result, err = testReturn2(t) if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } if err == nil { t.Errorf("Missing expected error") } else { if matchError(err, RERR_DONE) { t.Logf("Saw expected panic '%v'", err) } else { t.Errorf("Saw wrong panic '%v'", err) } } result, err = testReturn3(t) if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } if err == nil { t.Errorf("Missing expected error") } else { if matchError(err, RERR_DONE) { t.Logf("Saw expected panic '%v'", err) } else { t.Errorf("Saw wrong panic '%v'", err) } } result, result2, err = testReturn4(t) if !slices.Equal(expect2, result) { t.Errorf("Expected %v, got %v", expect2, result) } if !slices.Equal(expect2, result2) { t.Errorf("Expected %v, got %v", expect2, result2) } if err != nil { t.Errorf("Unexpected error %v", err) } } // testGotoA1 tests loop-nest-internal goto, no bad iterators. func testGotoA1(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { goto A } result = append(result, y) } result = append(result, x) A: } return } // testGotoA2 tests loop-nest-internal goto, outer bad iterator. func testGotoA2(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range BadOfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { goto A } result = append(result, y) } result = append(result, x) A: } return } // testGotoA3 tests loop-nest-internal goto, inner bad iterator. func testGotoA3(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range BadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { goto A } result = append(result, y) } result = append(result, x) A: } return } func TestGotoA(t *testing.T) { var result []int var expect = []int{-1, 1, 2, -2, 1, 2, -3, 1, 2, -4, -30, -20, -10} var expect3 = []int{-1, 1, 2, -10} // first goto becomes a panic var err any result, err = testGotoA1(t) if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } if err != nil { t.Errorf("Unexpected error %v", err) } result, err = testGotoA2(t) if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } if err == nil { t.Errorf("Missing expected error") } else { if matchError(err, RERR_DONE) { t.Logf("Saw expected panic '%v'", err) } else { t.Errorf("Saw wrong panic '%v'", err) } } result, err = testGotoA3(t) if !slices.Equal(expect3, result) { t.Errorf("Expected %v, got %v", expect3, result) } if err == nil { t.Errorf("Missing expected error") } else { if matchError(err, RERR_DONE) { t.Logf("Saw expected panic '%v'", err) } else { t.Errorf("Saw wrong panic '%v'", err) } } } // testGotoB1 tests loop-nest-exiting goto, no bad iterators. func testGotoB1(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { goto B } result = append(result, y) } result = append(result, x) } B: result = append(result, 999) return } // testGotoB2 tests loop-nest-exiting goto, outer bad iterator. func testGotoB2(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range BadOfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range OfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { goto B } result = append(result, y) } result = append(result, x) } B: result = append(result, 999) return } // testGotoB3 tests loop-nest-exiting goto, inner bad iterator. func testGotoB3(t *testing.T) (result []int, err any) { defer func() { err = recover() }() for _, x := range OfSliceIndex([]int{-1, -2, -3, -4, -5}) { result = append(result, x) if x == -4 { break } defer func() { result = append(result, x*10) }() for _, y := range BadOfSliceIndex([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}) { if y == 3 { goto B } result = append(result, y) } result = append(result, x) } B: result = append(result, 999) return } func TestGotoB(t *testing.T) { var result []int var expect = []int{-1, 1, 2, 999, -10} var expectX = []int{-1, 1, 2, -10} var err any result, err = testGotoB1(t) if !slices.Equal(expect, result) { t.Errorf("Expected %v, got %v", expect, result) } if err != nil { t.Errorf("Unexpected error %v", err) } result, err = testGotoB2(t) if !slices.Equal(expectX, result) { t.Errorf("Expected %v, got %v", expectX, result) } if err == nil { t.Errorf("Missing expected error") } else { if matchError(err, RERR_DONE) { t.Logf("Saw expected panic '%v'", err) } else { t.Errorf("Saw wrong panic '%v'", err) } } result, err = testGotoB3(t) if !slices.Equal(expectX, result) { t.Errorf("Expected %v, got %v", expectX, result) } if err == nil { t.Errorf("Missing expected error") } else { matchErrorHelper(t, err, RERR_DONE) } } // once returns an iterator that runs its loop body once with the supplied value func once[T any](x T) Seq[T] { return func(yield func(T) bool) { yield(x) } } // terrify converts an iterator into one that panics with the supplied string // if/when the loop body terminates early (returns false, for break, goto, outer // continue, or return). func terrify[T any](s string, forall Seq[T]) Seq[T] { return func(yield func(T) bool) { forall(func(v T) bool { if !yield(v) { panic(s) } return true }) } } func use[T any](T) { } // f runs a not-rangefunc iterator that recovers from a panic that follows execution of a return. // what does f return? func f() string { defer func() { recover() }() defer panic("f panic") for _, s := range []string{"f return"} { return s } return "f not reached" } // g runs a rangefunc iterator that recovers from a panic that follows execution of a return. // what does g return? func g() string { defer func() { recover() }() for s := range terrify("g panic", once("g return")) { return s } return "g not reached" } // h runs a rangefunc iterator that recovers from a panic that follows execution of a return. // the panic occurs in the rangefunc iterator itself. // what does h return? func h() (hashS string) { defer func() { recover() }() for s := range terrify("h panic", once("h return")) { hashS := s use(hashS) return s } return "h not reached" } func j() (hashS string) { defer func() { recover() }() for s := range terrify("j panic", once("j return")) { hashS = s return } return "j not reached" } // k runs a rangefunc iterator that recovers from a panic that follows execution of a return. // the panic occurs in the rangefunc iterator itself. // k includes an additional mechanism to for making the return happen // what does k return? func k() (hashS string) { _return := func(s string) { hashS = s } defer func() { recover() }() for s := range terrify("k panic", once("k return")) { _return(s) return } return "k not reached" } func m() (hashS string) { _return := func(s string) { hashS = s } defer func() { recover() }() for s := range terrify("m panic", once("m return")) { defer _return(s) return s + ", but should be replaced in a defer" } return "m not reached" } func n() string { defer func() { recover() }() for s := range terrify("n panic", once("n return")) { return s + func(s string) string { defer func() { recover() }() for s := range terrify("n closure panic", once(s)) { return s } return "n closure not reached" }(" and n closure return") } return "n not reached" } type terrifyTestCase struct { f func() string e string } func TestPanicReturns(t *testing.T) { tcs := []terrifyTestCase{ {f, "f return"}, {g, "g return"}, {h, "h return"}, {k, "k return"}, {j, "j return"}, {m, "m return"}, {n, "n return and n closure return"}, } for _, tc := range tcs { got := tc.f() if got != tc.e { t.Errorf("Got %s expected %s", got, tc.e) } else { t.Logf("Got expected %s", got) } } } // twice calls yield twice, the first time defer-recover-saving any panic, // for re-panicking later if the second call to yield does not also panic. // If the first call panicked, the second call ought to also panic because // it was called after a panic-termination of the loop body. func twice[T any](x, y T) Seq[T] { return func(yield func(T) bool) { var p any done := false func() { defer func() { p = recover() }() done = !yield(x) }() if done { return } yield(y) if p != nil { // do not swallow the panic panic(p) } } } func TestRunBodyAfterPanic(t *testing.T) { defer func() { if r := recover(); r != nil { if matchError(r, RERR_PANIC) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Errorf("Wanted to see a failure, result") } }() for x := range twice(0, 1) { if x == 0 { panic("x is zero") } } } func TestRunBodyAfterPanicCheck(t *testing.T) { defer func() { if r := recover(); r != nil { if matchError(r, CERR_PANIC) { t.Logf("Saw expected panic '%v'", r) } else { t.Errorf("Saw wrong panic '%v'", r) } } else { t.Errorf("Wanted to see a failure, result") } }() for x := range Check(twice(0, 1)) { if x == 0 { panic("x is zero") } } } func TestTwoLevelReturn(t *testing.T) { f := func() int { for a := range twice(0, 1) { for b := range twice(0, 2) { x := a + b t.Logf("x=%d", x) if x == 3 { return x } } } return -1 } y := f() if y != 3 { t.Errorf("Expected y=3, got y=%d\n", y) } } func TestTwoLevelReturnCheck(t *testing.T) { f := func() int { for a := range Check(twice(0, 1)) { for b := range Check(twice(0, 2)) { x := a + b t.Logf("a=%d, b=%d, x=%d", a, b, x) if x == 3 { return x } } } return -1 } y := f() if y != 3 { t.Errorf("Expected y=3, got y=%d\n", y) } } func Bug70035(s1, s2, s3 []string) string { var c1 string for v1 := range slices.Values(s1) { var c2 string for v2 := range slices.Values(s2) { var c3 string for v3 := range slices.Values(s3) { c3 = c3 + v3 } c2 = c2 + v2 + c3 } c1 = c1 + v1 + c2 } return c1 } func Test70035(t *testing.T) { got := Bug70035([]string{"1", "2", "3"}, []string{"a", "b", "c"}, []string{"A", "B", "C"}) want := "1aABCbABCcABC2aABCbABCcABC3aABCbABCcABC" if got != want { t.Errorf("got %v, want %v", got, want) } }