github.com/parquet-go/parquet-go@v0.20.0/bloom_test.go (about) 1 package parquet 2 3 import ( 4 "math/rand" 5 "testing" 6 7 "github.com/parquet-go/parquet-go/bloom" 8 "github.com/parquet-go/parquet-go/deprecated" 9 "github.com/parquet-go/parquet-go/internal/quick" 10 "github.com/parquet-go/parquet-go/internal/unsafecast" 11 ) 12 13 func TestSplitBlockFilter(t *testing.T) { 14 newFilter := func(numValues int) bloom.SplitBlockFilter { 15 return make(bloom.SplitBlockFilter, bloom.NumSplitBlocksOf(int64(numValues), 11)) 16 } 17 18 enc := SplitBlockFilter(10, "$").Encoding() 19 20 check := func(filter bloom.SplitBlockFilter, value Value) bool { 21 return filter.Check(value.hash(&bloom.XXH64{})) 22 } 23 24 tests := []struct { 25 scenario string 26 function interface{} 27 }{ 28 { 29 scenario: "BOOLEAN", 30 function: func(values []bool) bool { 31 filter := newFilter(len(values)) 32 enc.EncodeBoolean(filter.Bytes(), unsafecast.BoolToBytes(values)) 33 for _, v := range values { 34 if !check(filter, ValueOf(v)) { 35 return false 36 } 37 } 38 return true 39 }, 40 }, 41 42 { 43 scenario: "INT32", 44 function: func(values []int32) bool { 45 filter := newFilter(len(values)) 46 enc.EncodeInt32(filter.Bytes(), values) 47 for _, v := range values { 48 if !check(filter, ValueOf(v)) { 49 return false 50 } 51 } 52 return true 53 }, 54 }, 55 56 { 57 scenario: "INT64", 58 function: func(values []int64) bool { 59 filter := newFilter(len(values)) 60 enc.EncodeInt64(filter.Bytes(), values) 61 for _, v := range values { 62 if !check(filter, ValueOf(v)) { 63 return false 64 } 65 } 66 return true 67 }, 68 }, 69 70 { 71 scenario: "INT96", 72 function: func(values []deprecated.Int96) bool { 73 filter := newFilter(len(values)) 74 enc.EncodeInt96(filter.Bytes(), values) 75 for _, v := range values { 76 if !check(filter, ValueOf(v)) { 77 return false 78 } 79 } 80 return true 81 }, 82 }, 83 84 { 85 scenario: "FLOAT", 86 function: func(values []float32) bool { 87 filter := newFilter(len(values)) 88 enc.EncodeFloat(filter.Bytes(), values) 89 for _, v := range values { 90 if !check(filter, ValueOf(v)) { 91 return false 92 } 93 } 94 return true 95 }, 96 }, 97 98 { 99 scenario: "DOUBLE", 100 function: func(values []float64) bool { 101 filter := newFilter(len(values)) 102 enc.EncodeDouble(filter.Bytes(), values) 103 for _, v := range values { 104 if !check(filter, ValueOf(v)) { 105 return false 106 } 107 } 108 return true 109 }, 110 }, 111 112 { 113 scenario: "BYTE_ARRAY", 114 function: func(values [][]byte) bool { 115 content := make([]byte, 0, 512) 116 offsets := make([]uint32, len(values)) 117 for _, value := range values { 118 offsets = append(offsets, uint32(len(content))) 119 content = append(content, value...) 120 } 121 offsets = append(offsets, uint32(len(content))) 122 filter := newFilter(len(values)) 123 enc.EncodeByteArray(filter.Bytes(), content, offsets) 124 for _, v := range values { 125 if !check(filter, ValueOf(v)) { 126 return false 127 } 128 } 129 return true 130 }, 131 }, 132 133 { 134 scenario: "FIXED_LEN_BYTE_ARRAY", 135 function: func(values []byte) bool { 136 filter := newFilter(len(values)) 137 enc.EncodeFixedLenByteArray(filter.Bytes(), values, 1) 138 for _, v := range values { 139 if !check(filter, ValueOf([1]byte{v})) { 140 return false 141 } 142 } 143 return true 144 }, 145 }, 146 } 147 148 for _, test := range tests { 149 t.Run(test.scenario, func(t *testing.T) { 150 if err := quick.Check(test.function); err != nil { 151 t.Error(err) 152 } 153 }) 154 } 155 } 156 157 func BenchmarkSplitBlockFilter(b *testing.B) { 158 const N = 1000 159 f := make(bloom.SplitBlockFilter, bloom.NumSplitBlocksOf(N, 10)).Bytes() 160 e := SplitBlockFilter(10, "$").Encoding() 161 162 v := make([]int64, N) 163 r := rand.NewSource(10) 164 for i := range v { 165 v[i] = r.Int63() 166 } 167 168 for i := 0; i < b.N; i++ { 169 e.EncodeInt64(f, v) 170 } 171 172 b.SetBytes(8 * N) 173 }