var _ = testutil.Defer(func() { Describe("Table", func() { Describe("approximate offset test", func() { var ( buf = &bytes.Buffer{} o = &opt.Options{ BlockSize: 1024, Compression: opt.NoCompression, } ) // Building the table. tw := NewWriter(buf, o) tw.Append([]byte("k01"), []byte("hello")) tw.Append([]byte("k02"), []byte("hello2")) tw.Append([]byte("k03"), bytes.Repeat([]byte{'x'}, 10000)) tw.Append([]byte("k04"), bytes.Repeat([]byte{'x'}, 200000)) tw.Append([]byte("k05"), bytes.Repeat([]byte{'x'}, 300000)) tw.Append([]byte("k06"), []byte("hello3")) tw.Append([]byte("k07"), bytes.Repeat([]byte{'x'}, 100000)) err := tw.Close() It("Should be able to approximate offset of a key correctly", func() { Expect(err).ShouldNot(HaveOccurred()) tr, err := NewReader(bytes.NewReader(buf.Bytes()), int64(buf.Len()), nil, nil, nil, o) Expect(err).ShouldNot(HaveOccurred()) CheckOffset := func(key string, expect, threshold int) { offset, err := tr.OffsetOf([]byte(key)) Expect(err).ShouldNot(HaveOccurred()) Expect(offset).Should(BeNumerically("~", expect, threshold), "Offset of key %q", key) } CheckOffset("k0", 0, 0) CheckOffset("k01a", 0, 0) CheckOffset("k02", 0, 0) CheckOffset("k03", 0, 0) CheckOffset("k04", 10000, 1000) CheckOffset("k04a", 210000, 1000) CheckOffset("k05", 210000, 1000) CheckOffset("k06", 510000, 1000) CheckOffset("k07", 510000, 1000) CheckOffset("xyz", 610000, 2000) }) }) Describe("read test", func() { Build := func(kv testutil.KeyValue) testutil.DB { o := &opt.Options{ BlockSize: 512, BlockRestartInterval: 3, } buf := &bytes.Buffer{} // Building the table. tw := NewWriter(buf, o) kv.Iterate(func(i int, key, value []byte) { tw.Append(key, value) }) tw.Close() // Opening the table. tr, _ := NewReader(bytes.NewReader(buf.Bytes()), int64(buf.Len()), nil, nil, nil, o) return tableWrapper{tr} } Test := func(kv *testutil.KeyValue, body func(r *Reader)) func() { return func() { db := Build(*kv) if body != nil { body(db.(tableWrapper).Reader) } testutil.KeyValueTesting(nil, *kv, db, nil, nil) } } testutil.AllKeyValueTesting(nil, Build, nil, nil) Describe("with one key per block", Test(testutil.KeyValue_Generate(nil, 9, 1, 10, 512, 512), func(r *Reader) { It("should have correct blocks number", func() { indexBlock, err := r.readBlock(r.indexBH, true) Expect(err).To(BeNil()) Expect(indexBlock.restartsLen).Should(Equal(9)) }) })) }) }) })
var _ = testutil.Defer(func() { Describe("Leveldb external", func() { o := &opt.Options{ DisableBlockCache: true, BlockRestartInterval: 5, BlockSize: 80, Compression: opt.NoCompression, OpenFilesCacheCapacity: -1, Strict: opt.StrictAll, WriteBuffer: 1000, CompactionTableSize: 2000, } Describe("write test", func() { It("should do write correctly", func(done Done) { db := newTestingDB(o, nil, nil) t := testutil.DBTesting{ DB: db, Deleted: testutil.KeyValue_Generate(nil, 500, 1, 50, 5, 5).Clone(), } testutil.DoDBTesting(&t) db.TestClose() done <- true }, 20.0) }) Describe("read test", func() { testutil.AllKeyValueTesting(nil, nil, func(kv testutil.KeyValue) testutil.DB { // Building the DB. db := newTestingDB(o, nil, nil) kv.IterateShuffled(nil, func(i int, key, value []byte) { err := db.TestPut(key, value) Expect(err).NotTo(HaveOccurred()) }) return db }, func(db testutil.DB) { db.(*testingDB).TestClose() }) }) }) })
var _ = testutil.Defer(func() { Describe("Merged iterator", func() { Test := func(filled int, empty int) func() { return func() { It("Should iterates and seeks correctly", func(done Done) { rnd := testutil.NewRand() // Build key/value. filledKV := make([]testutil.KeyValue, filled) kv := testutil.KeyValue_Generate(nil, 100, 1, 10, 4, 4) kv.Iterate(func(i int, key, value []byte) { filledKV[rnd.Intn(filled)].Put(key, value) }) // Create itearators. iters := make([]Iterator, filled+empty) for i := range iters { if empty == 0 || (rnd.Int()%2 == 0 && filled > 0) { filled-- Expect(filledKV[filled].Len()).ShouldNot(BeZero()) iters[i] = NewArrayIterator(filledKV[filled]) } else { empty-- iters[i] = NewEmptyIterator(nil) } } // Test the iterator. t := testutil.IteratorTesting{ KeyValue: kv.Clone(), Iter: NewMergedIterator(iters, comparer.DefaultComparer, true), } testutil.DoIteratorTesting(&t) done <- true }, 1.5) } } Describe("with three, all filled iterators", Test(3, 0)) Describe("with one filled, one empty iterators", Test(1, 1)) Describe("with one filled, two empty iterators", Test(1, 2)) }) })
// Copyright (c) 2014, Suryandaru Triandana <*****@*****.**> // All rights reserved. // // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. package iterator_test import ( . "camlistore.org/third_party/github.com/onsi/ginkgo" . "camlistore.org/third_party/github.com/syndtr/goleveldb/leveldb/iterator" "camlistore.org/third_party/github.com/syndtr/goleveldb/leveldb/testutil" ) var _ = testutil.Defer(func() { Describe("Array iterator", func() { It("Should iterates and seeks correctly", func() { // Build key/value. kv := testutil.KeyValue_Generate(nil, 70, 1, 5, 3, 3) // Test the iterator. t := testutil.IteratorTesting{ KeyValue: kv.Clone(), Iter: NewArrayIterator(kv), } testutil.DoIteratorTesting(&t) }) }) })
var _ = testutil.Defer(func() { Describe("Memdb", func() { Describe("write test", func() { It("should do write correctly", func() { db := New(comparer.DefaultComparer, 0) t := testutil.DBTesting{ DB: db, Deleted: testutil.KeyValue_Generate(nil, 1000, 1, 30, 5, 5).Clone(), PostFn: func(t *testutil.DBTesting) { Expect(db.Len()).Should(Equal(t.Present.Len())) Expect(db.Size()).Should(Equal(t.Present.Size())) switch t.Act { case testutil.DBPut, testutil.DBOverwrite: Expect(db.Contains(t.ActKey)).Should(BeTrue()) default: Expect(db.Contains(t.ActKey)).Should(BeFalse()) } }, } testutil.DoDBTesting(&t) }) }) Describe("read test", func() { testutil.AllKeyValueTesting(nil, func(kv testutil.KeyValue) testutil.DB { // Building the DB. db := New(comparer.DefaultComparer, 0) kv.IterateShuffled(nil, func(i int, key, value []byte) { db.Put(key, value) }) if kv.Len() > 1 { It("Should find correct keys with findLT", func() { testutil.ShuffledIndex(nil, kv.Len()-1, 1, func(i int) { key_, key, _ := kv.IndexInexact(i + 1) expectedKey, expectedValue := kv.Index(i) // Using key that exist. rkey, rvalue, err := db.TestFindLT(key) Expect(err).ShouldNot(HaveOccurred(), "Error for key %q -> %q", key, expectedKey) Expect(rkey).Should(Equal(expectedKey), "Key") Expect(rvalue).Should(Equal(expectedValue), "Value for key %q -> %q", key, expectedKey) // Using key that doesn't exist. rkey, rvalue, err = db.TestFindLT(key_) Expect(err).ShouldNot(HaveOccurred(), "Error for key %q (%q) -> %q", key_, key, expectedKey) Expect(rkey).Should(Equal(expectedKey)) Expect(rvalue).Should(Equal(expectedValue), "Value for key %q (%q) -> %q", key_, key, expectedKey) }) }) } if kv.Len() > 0 { It("Should find last key with findLast", func() { key, value := kv.Index(kv.Len() - 1) rkey, rvalue, err := db.TestFindLast() Expect(err).ShouldNot(HaveOccurred()) Expect(rkey).Should(Equal(key)) Expect(rvalue).Should(Equal(value)) }) } return db }, nil, nil) }) }) })
var _ = testutil.Defer(func() { Describe("Block", func() { Build := func(kv *testutil.KeyValue, restartInterval int) *blockTesting { // Building the block. bw := &blockWriter{ restartInterval: restartInterval, scratch: make([]byte, 30), } kv.Iterate(func(i int, key, value []byte) { bw.append(key, value) }) bw.finish() // Opening the block. data := bw.buf.Bytes() restartsLen := int(binary.LittleEndian.Uint32(data[len(data)-4:])) return &blockTesting{ tr: &Reader{cmp: comparer.DefaultComparer}, b: &block{ data: data, restartsLen: restartsLen, restartsOffset: len(data) - (restartsLen+1)*4, }, } } Describe("read test", func() { for restartInterval := 1; restartInterval <= 5; restartInterval++ { Describe(fmt.Sprintf("with restart interval of %d", restartInterval), func() { kv := &testutil.KeyValue{} Text := func() string { return fmt.Sprintf("and %d keys", kv.Len()) } Test := func() { // Make block. br := Build(kv, restartInterval) // Do testing. testutil.KeyValueTesting(nil, kv.Clone(), br, nil, nil) } Describe(Text(), Test) kv.PutString("", "empty") Describe(Text(), Test) kv.PutString("a1", "foo") Describe(Text(), Test) kv.PutString("a2", "v") Describe(Text(), Test) kv.PutString("a3qqwrkks", "hello") Describe(Text(), Test) kv.PutString("a4", "bar") Describe(Text(), Test) kv.PutString("a5111111", "v5") kv.PutString("a6", "") kv.PutString("a7", "v7") kv.PutString("a8", "vvvvvvvvvvvvvvvvvvvvvv8") kv.PutString("b", "v9") kv.PutString("c9", "v9") kv.PutString("c91", "v9") kv.PutString("d0", "v9") Describe(Text(), Test) }) } }) Describe("out-of-bound slice test", func() { kv := &testutil.KeyValue{} kv.PutString("k1", "v1") kv.PutString("k2", "v2") kv.PutString("k3abcdefgg", "v3") kv.PutString("k4", "v4") kv.PutString("k5", "v5") for restartInterval := 1; restartInterval <= 5; restartInterval++ { Describe(fmt.Sprintf("with restart interval of %d", restartInterval), func() { // Make block. bt := Build(kv, restartInterval) Test := func(r *util.Range) func(done Done) { return func(done Done) { iter := bt.TestNewIterator(r) Expect(iter.Error()).ShouldNot(HaveOccurred()) t := testutil.IteratorTesting{ KeyValue: kv.Clone(), Iter: iter, } testutil.DoIteratorTesting(&t) iter.Release() done <- true } } It("Should do iterations and seeks correctly #0", Test(&util.Range{Start: []byte("k0"), Limit: []byte("k6")}), 2.0) It("Should do iterations and seeks correctly #1", Test(&util.Range{Start: []byte(""), Limit: []byte("zzzzzzz")}), 2.0) }) } }) }) })
var _ = testutil.Defer(func() { Describe("Indexed iterator", func() { Test := func(n ...int) func() { if len(n) == 0 { rnd := testutil.NewRand() n = make([]int, rnd.Intn(17)+3) for i := range n { n[i] = rnd.Intn(19) + 1 } } return func() { It("Should iterates and seeks correctly", func(done Done) { // Build key/value. index := make(keyValueIndex, len(n)) sum := 0 for _, x := range n { sum += x } kv := testutil.KeyValue_Generate(nil, sum, 1, 10, 4, 4) for i, j := 0, 0; i < len(n); i++ { for x := n[i]; x > 0; x-- { key, value := kv.Index(j) index[i].key = key index[i].Put(key, value) j++ } } // Test the iterator. t := testutil.IteratorTesting{ KeyValue: kv.Clone(), Iter: NewIndexedIterator(NewArrayIndexer(index), true), } testutil.DoIteratorTesting(&t) done <- true }, 1.5) } } Describe("with 100 keys", Test(100)) Describe("with 50-50 keys", Test(50, 50)) Describe("with 50-1 keys", Test(50, 1)) Describe("with 50-1-50 keys", Test(50, 1, 50)) Describe("with 1-50 keys", Test(1, 50)) Describe("with random N-keys", Test()) }) })