// Copyright 2013 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 runtime_test import ( "fmt" "math" "reflect" "runtime" "sort" "strings" "sync" "testing" ) // negative zero is a good test because: // 1) 0 and -0 are equal, yet have distinct representations. // 2) 0 is represented as all zeros, -0 isn't. // I'm not sure the language spec actually requires this behavior, // but it's what the current map implementation does. func TestNegativeZero(t *testing.T) { m := make(map[float64]bool, 0) m[+0.0] = true m[math.Copysign(0.0, -1.0)] = true // should overwrite +0 entry if len(m) != 1 { t.Error("length wrong") } /* gccgo fails this test; this is not required by the spec. for k := range m { if math.Copysign(1.0, k) > 0 { t.Error("wrong sign") } } */ m = make(map[float64]bool, 0) m[math.Copysign(0.0, -1.0)] = true m[+0.0] = true // should overwrite -0.0 entry if len(m) != 1 { t.Error("length wrong") } /* gccgo fails this test; this is not required by the spec. for k := range m { if math.Copysign(1.0, k) < 0 { t.Error("wrong sign") } } */ } // nan is a good test because nan != nan, and nan has // a randomized hash value. func TestNan(t *testing.T) { m := make(map[float64]int, 0) nan := math.NaN() m[nan] = 1 m[nan] = 2 m[nan] = 4 if len(m) != 3 { t.Error("length wrong") } s := 0 for k, v := range m { if k == k { t.Error("nan disappeared") } if (v & (v - 1)) != 0 { t.Error("value wrong") } s |= v } if s != 7 { t.Error("values wrong") } } // Maps aren't actually copied on assignment. func TestAlias(t *testing.T) { m := make(map[int]int, 0) m[0] = 5 n := m n[0] = 6 if m[0] != 6 { t.Error("alias didn't work") } } func TestGrowWithNaN(t *testing.T) { t.Skip("fails with gccgo") m := make(map[float64]int, 4) nan := math.NaN() m[nan] = 1 m[nan] = 2 m[nan] = 4 cnt := 0 s := 0 growflag := true for k, v := range m { if growflag { // force a hashtable resize for i := 0; i < 100; i++ { m[float64(i)] = i } growflag = false } if k != k { cnt++ s |= v } } t.Log("cnt:", cnt, "s:", s) if cnt != 3 { t.Error("NaN keys lost during grow") } if s != 7 { t.Error("NaN values lost during grow") } } type FloatInt struct { x float64 y int } func TestGrowWithNegativeZero(t *testing.T) { t.Skip("fails with gccgo") negzero := math.Copysign(0.0, -1.0) m := make(map[FloatInt]int, 4) m[FloatInt{0.0, 0}] = 1 m[FloatInt{0.0, 1}] = 2 m[FloatInt{0.0, 2}] = 4 m[FloatInt{0.0, 3}] = 8 growflag := true s := 0 cnt := 0 negcnt := 0 // The first iteration should return the +0 key. // The subsequent iterations should return the -0 key. // I'm not really sure this is required by the spec, // but it makes sense. // TODO: are we allowed to get the first entry returned again??? for k, v := range m { if v == 0 { continue } // ignore entries added to grow table cnt++ if math.Copysign(1.0, k.x) < 0 { if v&16 == 0 { t.Error("key/value not updated together 1") } negcnt++ s |= v & 15 } else { if v&16 == 16 { t.Error("key/value not updated together 2", k, v) } s |= v } if growflag { // force a hashtable resize for i := 0; i < 100; i++ { m[FloatInt{3.0, i}] = 0 } // then change all the entries // to negative zero m[FloatInt{negzero, 0}] = 1 | 16 m[FloatInt{negzero, 1}] = 2 | 16 m[FloatInt{negzero, 2}] = 4 | 16 m[FloatInt{negzero, 3}] = 8 | 16 growflag = false } } if s != 15 { t.Error("entry missing", s) } if cnt != 4 { t.Error("wrong number of entries returned by iterator", cnt) } if negcnt != 3 { t.Error("update to negzero missed by iteration", negcnt) } } func TestIterGrowAndDelete(t *testing.T) { m := make(map[int]int, 4) for i := 0; i < 100; i++ { m[i] = i } growflag := true for k := range m { if growflag { // grow the table for i := 100; i < 1000; i++ { m[i] = i } // delete all odd keys for i := 1; i < 1000; i += 2 { delete(m, i) } growflag = false } else { if k&1 == 1 { t.Error("odd value returned") } } } } // make sure old bucket arrays don't get GCd while // an iterator is still using them. func TestIterGrowWithGC(t *testing.T) { m := make(map[int]int, 4) for i := 0; i < 16; i++ { m[i] = i } growflag := true bitmask := 0 for k := range m { if k < 16 { bitmask |= 1 << uint(k) } if growflag { // grow the table for i := 100; i < 1000; i++ { m[i] = i } // trigger a gc runtime.GC() growflag = false } } if bitmask != 1<<16-1 { t.Error("missing key", bitmask) } } func testConcurrentReadsAfterGrowth(t *testing.T, useReflect bool) { if runtime.GOMAXPROCS(-1) == 1 { defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(16)) } numLoop := 10 numGrowStep := 250 numReader := 16 if testing.Short() { numLoop, numGrowStep = 2, 500 } for i := 0; i < numLoop; i++ { m := make(map[int]int, 0) for gs := 0; gs < numGrowStep; gs++ { m[gs] = gs var wg sync.WaitGroup wg.Add(numReader * 2) for nr := 0; nr < numReader; nr++ { go func() { defer wg.Done() for _ = range m { } }() go func() { defer wg.Done() for key := 0; key < gs; key++ { _ = m[key] } }() if useReflect { wg.Add(1) go func() { defer wg.Done() mv := reflect.ValueOf(m) keys := mv.MapKeys() for _, k := range keys { mv.MapIndex(k) } }() } } wg.Wait() } } } func TestConcurrentReadsAfterGrowth(t *testing.T) { testConcurrentReadsAfterGrowth(t, false) } func TestConcurrentReadsAfterGrowthReflect(t *testing.T) { testConcurrentReadsAfterGrowth(t, true) } func TestBigItems(t *testing.T) { var key [256]string for i := 0; i < 256; i++ { key[i] = "foo" } m := make(map[[256]string][256]string, 4) for i := 0; i < 100; i++ { key[37] = fmt.Sprintf("string%02d", i) m[key] = key } var keys [100]string var values [100]string i := 0 for k, v := range m { keys[i] = k[37] values[i] = v[37] i++ } sort.Strings(keys[:]) sort.Strings(values[:]) for i := 0; i < 100; i++ { if keys[i] != fmt.Sprintf("string%02d", i) { t.Errorf("#%d: missing key: %v", i, keys[i]) } if values[i] != fmt.Sprintf("string%02d", i) { t.Errorf("#%d: missing value: %v", i, values[i]) } } } type empty struct { } func TestEmptyKeyAndValue(t *testing.T) { a := make(map[int]empty, 4) b := make(map[empty]int, 4) c := make(map[empty]empty, 4) a[0] = empty{} b[empty{}] = 0 b[empty{}] = 1 c[empty{}] = empty{} if len(a) != 1 { t.Errorf("empty value insert problem") } if b[empty{}] != 1 { t.Errorf("empty key returned wrong value") } } // Tests a map with a single bucket, with same-lengthed short keys // ("quick keys") as well as long keys. func TestSingleBucketMapStringKeys_DupLen(t *testing.T) { testMapLookups(t, map[string]string{ "x": "x1val", "xx": "x2val", "foo": "fooval", "bar": "barval", // same key length as "foo" "xxxx": "x4val", strings.Repeat("x", 128): "longval1", strings.Repeat("y", 128): "longval2", }) } // Tests a map with a single bucket, with all keys having different lengths. func TestSingleBucketMapStringKeys_NoDupLen(t *testing.T) { testMapLookups(t, map[string]string{ "x": "x1val", "xx": "x2val", "foo": "fooval", "xxxx": "x4val", "xxxxx": "x5val", "xxxxxx": "x6val", strings.Repeat("x", 128): "longval", }) } func testMapLookups(t *testing.T, m map[string]string) { for k, v := range m { if m[k] != v { t.Fatalf("m[%q] = %q; want %q", k, m[k], v) } } }